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Wikipedia

Tocopherol

February 25, 2023

Tocopherols (/tˈkɒfəˌrɒl/;[1] TCP) are a class of organic compounds comprising various methylated phenols), many of which have vitamin E activity. Because the vitamin activity was first identified in 1936 from a dietary fertility factor in rats, it was named tocopherol, from Greek τόκος tókos 'birth' and φέρειν phérein 'to bear or carry', that is 'to carry a pregnancy', with the ending -ol signifying its status as a chemical alcohol.

α-Tocopherol is the main source found in supplements and in the European diet, where the main dietary sources are olive and sunflower oils,[2] while γ-tocopherol is the most common form in the American diet due to a higher intake of soybean and corn oil.[2][3]

Tocotrienols, which are related compounds, also have vitamin E activity. All of these various derivatives with vitamin activity may correctly be referred to as "vitamin E". Tocopherols and tocotrienols are fat-soluble antioxidants but also seem to have many other functions in the body.

Forms

Vitamin E exists in eight different forms, four tocopherols and four tocotrienols. All feature a chromane ring, with a hydroxyl group that can donate a hydrogen atom to reduce free radicals and a hydrophobic side chain that allows for penetration into biological membranes. Both the tocopherols and tocotrienols occur in α (alpha), β (beta), γ (gamma), and δ (delta) forms, determined by the number and position of methyl groups on the chromanol ring.

The tocotrienols have the same methyl structure at the ring and the same Greek letter-methyl-notation, but differ from the analogous tocopherols by the presence of three double bonds in the hydrophobic side chain. The unsaturation of the tails gives tocotrienols only a single stereoisomeric carbon (and thus two possible isomers per structural formula, one of which occurs naturally), whereas tocopherols have three centers (and eight possible stereoisomers per structural formula, again, only one of which occurs naturally).

Each form has a different biological activity.[4][5] In general, the unnatural l-isomers of tocotrienols lack almost all vitamin activity, and half of the possible 8 isomers of the tocopherols (those with 2S chirality at the ring-tail junction) also lack vitamin activity. Of the stereoisomers that retain activity, increasing methylation, especially full methylation to the alpha-form, increases vitamin activity. In tocopherols, this is due to the preference of the tocopherol binding protein for the α-tocopherol form of the vitamin.

As a food additive, tocopherol is labeled with these E numbers: E306 (tocopherol), E307 (α-tocopherol), E308 (γ-tocopherol), and E309 (δ-tocopherol). All of these are approved in the US,[6] EU,[7] and Australia and New Zealand[8] for use as antioxidants.

α-Tocopherol

Main article: α-Tocopherol

α-Tocopherol is the form of vitamin E that is preferentially absorbed and accumulated in humans.[9] The measurement of "vitamin E" activity in international units (IU) was based on fertility enhancement by the prevention of miscarriages in pregnant rats relative to α-tocopherol.

Although the mono-methylated form ddd-γ-tocopherol is the most prevalent form of vitamin E in oils, there is evidence that rats can methylate this form to the preferred α-tocopherol, since several generations of rats retained α-tocopherol tissue levels, even when those generations were fed only γ-tocopherol through their lives.

There are three stereocenters in α-tocopherol, so this is a chiral molecule.[10] The eight stereoisomers of α-tocopherol differ in the arrangement of groups around these stereocenters. In the image of RRR-α-tocopherol below, all three stereocenters are in the R form. However, if the middle of the three stereocenters were changed (so the hydrogen was now pointing down and the methyl group pointing up), this would become the structure of RSR-α-tocopherol. These stereoisomers also may be named in an alternative older nomenclature, where the stereocenters are either in the d or l form.[11]

 
RRR stereoisomer of α-tocopherol, bonds around the stereocenters are shown as dashed lines (pointing down) or wedges (pointing up).

1 IU of tocopherol is defined as ⅔ milligrams of RRR-α-tocopherol (formerly named d-α-tocopherol or sometimes ddd-α-tocopherol). 1 IU is also defined as 1 milligram of an equal mix of the eight stereoisomers, which is a racemic mixture called all-rac-α-tocopheryl acetate. This mix of stereoisomers is often called dl-α-tocopheryl acetate, even though it is more precisely dl,dl,dl-α-tocopheryl acetate). However, 1 IU of this racemic mixture is not now considered equivalent to 1 IU of natural (RRR) α-tocopherol, and the Institute of Medicine and the USDA now convert IU's of the racemic mixture to milligrams of equivalent RRR using 1 IU racemic mixture = 0.45 "milligrams α-tocopherol".[12]: 20–21 

Tocotrienols

Tocotrienols, although less commonly known, also belong to the vitamin E family. Tocotrienols have four natural 2' d-isomers (they have a stereoisomeric carbon only at the 2' ring-tail position). The four tocotrienols (in order of decreasing methylation: d-α-, d-β-, d-γ-, and d-δ-tocotrienol) have structures corresponding to the four tocopherols, except with an unsaturated bond in each of the three isoprene units that form the hydrocarbon tail, whereas tocopherols have a saturated phytyl tail (the phytyl tail of tocopherols gives the possibility for 2 more stereoisomeric sites in these molecules that tocotrienols do not have). Tocotrienol has been subject to fewer clinical studies and seen less research as compared to tocopherol. However, there is growing interest in the health effects of these compounds.[13]

Function and dietary recommendations

Main article: Vitamin E
 
Tocopherols function by donating H atoms to radicals (X).

Mechanism of action

Tocopherols are radical scavengers, delivering an H atom to quench free radicals. At 323 kJ/mol, the O-H bond in tocopherols is approximately 10% weaker than in most other phenols.[14] This weak bond allows the vitamin to donate a hydrogen atom to the peroxyl radical and other free radicals, minimizing their damaging effect. The thus generated tocopheryl radical is relatively unreactive, but reverts to tocopherol by a redox reaction with a hydrogen donor such as vitamin C.[15] As they are fat-soluble, tocopherols are incorporated into cell membranes, which are protected from oxidative damage.

Dietary considerations

The U.S. Recommended Dietary Allowance (RDA) for adults is 15 mg/day.[16] The RDA is based on the α-tocopherol form because it is the most active form as originally tested. Vitamin E supplements are absorbed best when taken with meals.[17] The U.S. Institute of Medicine has set an upper tolerable intake level (UL) for vitamin E at 1,000 mg (1,500 IU) per day.[18] The European Food Safety Authority sets UL at 300 mg α-tocopherol equivalents /day.[19]

α-Tocopherol equivalents

For dietary purposes, vitamin E activity of vitamin E isomers is expressed as α-tocopherol equivalents (a-TEs). One a-TE is defined by the biological activity of 1 mg (natural) d-α-tocopherol in the resorption-gestation test. According to listings by FAO and others β-tocopherol should be multiplied by 0.5, γ-tocopherol by 0.1, and α-tocotrienol by 0.3.[4] The IU is converted to aTE by multiplying it with 0.67.[20] These factors do not correlate with the antioxidant activity of vitamin E isomers, where tocotrienols show even much higher activity in vivo.[21]

Sources

Main article: Vitamin E

The U.S. Department of Agriculture (USDA), Agricultural Research Services, maintains a food composition database. The last major revision was Release 28, September 2015.[12] In general, food sources with the highest concentrations of vitamin E are vegetable oils, followed by nuts and seeds. Adjusting for typical portion sizes, however, for many people in the United States the most important sources of vitamin E include fortified breakfast cereals.[12]

Deficiency

Main article: Vitamin E deficiency

Vitamin E deficiency is rare, and in almost all instances caused by an underlying disease rather than a diet low in vitamin E.[18] Vitamin E deficiency causes neurological problems due to poor nerve conduction. These include neuromuscular problems such as spinocerebellar ataxia and myopathies.[11] Deficiency also may cause anemia, due to oxidative damage to red blood cells.

Supplements

Commercial vitamin E supplements may be classified into several distinct categories:

  • Fully synthetic vitamin E, "dl-α-tocopherol", the most inexpensive, most commonly sold supplement form usually as the acetate ester
  • Semi-synthetic "natural source" vitamin E esters, the "natural source" forms used in tablets and multiple vitamins; these are highly fractionated d-α-tocopherol or its esters, often made by synthetic methylation of gamma and beta d,d,d tocopherol vitamers extracted from plant oils.
  • Less fractionated "natural mixed tocopherols" and high d-γ-tocopherol fraction supplements

Synthetic all-racemic

Synthetic vitamin E derived from petroleum products is manufactured as all-racemic α-tocopheryl acetate with a mixture of eight stereoisomers. In this mixture, one α-tocopherol molecule in eight molecules are in the form of RRR-α-tocopherol (12.5% of the total).[22]

The 8-isomer all-rac vitamin E is always marked on labels simply as dl-tocopherol or dl-tocopheryl acetate, even though it is (if fully written out) dl,dl,dl-tocopherol. The present largest manufacturers of this type are DSM and BASF.

Natural α-tocopherol is the RRR-α (or ddd-α) form. The synthetic dl,dl,dl-α ("dl-α") form is not so active as the natural ddd-α ("d-α") tocopherol form. This is mainly due to reduced vitamin activity of the four possible stereoisomers that are represented by the l or S enantiomer at the first stereocenter (an S or l configuration between the chromanol ring and the tail, i.e., the SRR, SRS, SSR, and SSS stereoisomers).[10] The three unnatural "2R" stereoisomers with natural R configuration at this 2' stereocenter, but S at one of the other centers in the tail (i.e., RSR, RRS, RSS), appear to retain substantial RRR vitamin activity, because they are recognized by the alpha-tocopherol transport protein, and thus maintained in the plasma, where the other four stereoisomers (SRR, SRS, SSR, and SSS) are not. Thus, the synthetic all-rac-α-tocopherol, in theory, would have approximately half the vitamin activity of RRR-α-tocopherol in humans. Experimentally, the ratio of activities of the 8 stereoisomer racemic mixture to the natural vitamin, is 1 to 1.36 in the rat pregnancy model (suggesting a measured activity ratio of 1/1.36 = 74% of natural, for the 8-isomer racemic mix).[23]

Although it is clear that mixtures of stereoisomers are not so active as the natural RRR-α-tocopherol form, in the ratios discussed above, specific information on any side effects of the seven synthetic vitamin E stereoisomers is not readily available.

Esters

 
α-tocopheryl acetate, an acetate ester of α-tocopherol

Manufacturers also commonly convert the phenol form of the vitamins (with a free hydroxyl group) to esters, using acetic or succinic acid. These tocopheryl esters are more stable and are easy to use in vitamin supplements. α-Tocopheryl esters are de-esterified in the gut and then absorbed as the free tocopherol.[24][25] Tocopheryl nicotinate, tocopheryl linolate, and tocopheryl palmitate esters are also used in cosmetics and some pharmaceuticals.

Mixed tocopherols

"Mixed tocopherols" in the USA contain at least 20% w/w other natural R, R,R- tocopherols, i.e. R, R,R-α-tocopherol content plus at least 25% R, R,R-β-, R, R,R-γ-, R, R,R-δ-tocopherols.[citation needed]

Some brands may contain 20.0% w/w or more of the other tocopherols and measurable tocotrienols. Some mixed tocopherols with higher γ-tocopherol content are marketed as "High Gamma-Tocopherol". The label should report each component in milligrams, except R, R,R-α-tocopherol may still be reported in IU. Mixed tocopherols also may be found in other nutritional supplements.[citation needed]

Uses

Main article: Vitamin E

Observational studies that measure dietary intake and/or serum concentration, and experimental studies that ideally are randomized clinical trials (RCTs), are two means of examining the effects or lack thereof of a proposed intervention on human health.[26] Healthcare outcomes may be expected to be in accord between reviews of observational and experimental studies. If there is a lack of agreement, then factors other than design need to be considered.[27] In observational studies on vitamin E, an inverse correlation between dietary intake and risk of a disease, or serum concentration and risk of a disease, may be considered suggestive, but any conclusions also should rest on randomized clinical trials of sufficient size and duration to measure clinically significant results. One concern with correlations is that other nutrients and non-nutrient compounds (such as polyphenols) may be higher in the same diets that are higher in vitamin E. Another concern for the relevance of RCTs described below is that while observational studies are comparing disease risk between low and high dietary intake of naturally occurring vitamin E from food (when worldwide, the adult median dietary intake is 6.2 mg/d for d-α-tocopherol; 10.2 mg/day when all of the tocopherol and tocotrienol isomers are included),[28] the prospective RCTs often used 400 IU/day of synthetic dl-α-tocopherol as the test product, equivalent to 268 mg of α-tocopherol equivalents.[18]

Supplement popularity over time

In the US, the popularity for vitamin E as a dietary supplement may have peaked around 2000. The Nurses' Health Study (NHS) and the Health Professionals Follow-up Study (HPFS) tracked dietary supplement use by people over the age of 40 during years 1986–2006. For women, user prevalence was 16.1% in 1986, 46.2% in 1998, 44.3% in 2002, but had decreased to 19.8% in 2006. Similarly, for men, prevalence for same years was 18.9%, 52.0%, 49.4%, and 24.5%. The authors theorized that declining use in these health science aware populations may have due to publications of studies that showed either no benefits or negative consequences from vitamin E supplements.[29] There is other evidence for declining use of vitamin E. Within the U.S. military services, vitamin prescriptions written for active, reserve and retired military, and their dependents, were tracked over years 2007–2011. Vitamin E prescriptions decreased by 53% while vitamin C remained constant and vitamin D increased by 454%.[30] A report on vitamin E sales volume in the USA documented a 50% decrease between 2000 and 2006,[31] with a significant cause attributed to a well-publicized meta-analysis that had concluded that high-dosage vitamin E increased all-cause mortality.[32]

Age-related macular degeneration

A Cochrane review published in 2017 on antioxidant vitamin and mineral supplements for slowing the progression of age-related macular degeneration (AMD) identified only one vitamin E clinical trial. That trial compared 500 IU/day of α-tocopherol to placebo for four years and reported no effect on the progression of AMD in people already diagnosed with the condition.[33] Another Cochrane review, same year, same authors, reviewed the literature on α-tocopherol preventing the development of AMD. This review identified four trials, duration 4–10 years, and reported no change to risk of developing AMD.[34] A large clinical trial known as AREDS compared β-carotene (15 mg), vitamin C (500 mg), and α-tocopherol (400 IU) to placebo for up to ten years, with a conclusion that the anti-oxidant combination significantly slowed progression. However, because there was no group in the trial receiving only vitamin E, no conclusions could be drawn as to the contribution of the vitamin to the effect.[35]

Complementary and alternative medicine

Proponents of megavitamin therapy and orthomolecular medicine advocate natural tocopherols.[3] Meanwhile, clinical trials have largely concentrated on use of either a synthetic, all-racemic d-α-tocopheryl acetate or synthetic dl-α-tocopheryl acetate.[citation needed]

Antioxidant theory

Main article: Antioxidant

Tocopherol is described as functioning as an antioxidant. A dose-ranging trial was conducted in people with chronic oxidative stress attributed to elevated serum cholesterol. Plasma F2-isoprostane concentration was selected as a biomarker of free radical-mediated lipid peroxidation. Only the two highest doses - 1600 and 3200 IU/day - significantly lowered F2-isoprostane.[36]

Alzheimer's disease

Alzheimer's disease (AD) and vascular dementia are common causes of decline of brain functions that occur with age. AD is a chronic neurodegenerative disease that worsens over time.[37] The disease process is associated with plaques and tangles in the brain.[38] Vascular dementia may be caused by ischemic or hemorrhagic infarcts affecting multiple brain areas, including the anterior cerebral artery territory, the parietal lobes, or the cingulate gyrus.[39] Both types of dementia may be present. Vitamin E status (and that of other antioxidant nutrients) is conjectured as having a possible impact on risk of Alzheimer's disease and vascular dementia. A review of dietary intake studies reported that higher consumption of vitamin E from foods lowered the risk of developing AD by 24%.[40] A second review examined serum vitamin E levels and reported lower serum vitamin E in AD patients compared to healthy, age-matched people.[41] In 2017 a consensus statement from the British Association for Psychopharmacology included that until further information is available, vitamin E cannot be recommended for treatment or prevention of Alzheimer's disease.[42]

Cancer

From reviews of observational studies, diets higher in vitamin E content were associated with a lower relative risk of kidney cancer,[43] bladder cancer,[44] and lung cancer[45] When comparisons were made between the lowest and highest groups for dietary vitamin E consumption from food, the average reductions in relative risk were in the range of 16-19%. For all of these reviews, the authors noted that the findings needed to be confirmed by prospective studies.[43][44][45] From randomized clinical trials (RCTs) in which α-tocopherol was administered as a dietary supplement, results differed from the dietary intake reviews. A RCT of 400 IU/day of α-tocopherol did not reduce risk of bladder cancer.[46] In male tobacco smokers, 50 mg/day had no impact on developing lung cancer.[47] A review of RCTs for colorectal cancer reported lack of a statistically significant reduction in risk.[48] In male tobacco smokers, 50 mg/day reduced prostate cancer risk by 32%,[49] but in a different trial, majority non-smokers, 400 IU/day increased risk by 17%.[50] In women who consumed either placebo or 600 IU of natural-source vitamin E on alternate days for an average of 10.1 years there were no significant differences for breast cancer, lung cancer, or colon cancer.[51]

The U.S. Food and Drug Administration initiated a process of reviewing and approving food and dietary supplement health claims in 1993. A Qualified Health Claim issued in 2012 allows product label claims that vitamin E may reduce risk of renal, bladder, and colorectal cancers, with a stipulation that the label must include a mandatory qualifier sentence: “FDA has concluded that there is very little scientific evidence for this claim.”[52] The European Food Safety Authority (EFSA) reviews proposed health claims for the European Union countries. As of March 2018, EFSA has not evaluated any vitamin E and cancer prevention claims.

Cataracts

A meta-analysis from 2015 reported that for studies that reported serum tocopherol, higher serum concentration was associated with a 23% reduction in relative risk of age-related cataracts (ARC), with the effect due to differences in nuclear cataract rather than cortical or posterior subcapsular cataract - the three major classifications of age-related cataracts.[53] However, this article and a second meta-analysis reporting on clinical trials of α-tocopherol supplementation reported no statistically significant change to risk of ARC when compared to placebo.[53][54]

Cardiovascular diseases

Research on the effects of vitamin E on cardiovascular disease has produced conflicting results. An inverse relation has been observed between coronary heart disease and the consumption of foods high in vitamin E, and also higher serum concentration of α-tocopherol.[55] In one of the largest observational studies, almost 90,000 healthy nurses were tracked for eight years. Compared to those in the lowest fifth for reported vitamin E consumption (from food and dietary supplements), those in the highest fifth were at a 34% lower risk of major coronary disease.[56] Diet higher in vitamin E also may be higher in other, unidentified components that promote heart health, or people choosing such diets may be making other healthy lifestyle choices.[55][56] There is some supporting evidence from randomized clinical trials (RCTs). A meta-analysis on the effects of α-tocopherol supplementation in RCTs on aspects of cardiovascular health reported that when consumed without any other antioxidant nutrient, the relative risk of heart attack was reduced by 18%.[57] The results were not consistent for all of the individual trials incorporated into the meta-analysis. For example, the Physicians' Health Study II did not show any benefit after 400 IU every other day for eight years, for heart attack, stroke, coronary mortality, or all-cause mortality.[58] The effects of vitamin E supplementation on incidence of stroke were summarized in 2011. There were no significant benefits for vitamin E versus placebo for risk of stroke, or for subset analysis for ischaemic stroke, haemorrhagic stroke, fatal stroke, or non-fatal stroke.[59]

In 2001 the U.S. Food and Drug Administration rejected proposed health claims for vitamin E and cardiovascular health.[60] The U.S. National Institutes of Health also reviewed the literature and concluded there was not sufficient evidence to support the idea that routine use of vitamin E supplements prevents cardiovascular disease or reduces its morbidity and mortality.[18] In 2010 the European Food Safety Authority reviewed and rejected claims that a cause and effect relationship has been established between the dietary intake of vitamin E and maintenance of normal cardiac function or of normal blood circulation.[61]

Pregnancy

Antioxidant vitamins as dietary supplements have been proposed as having benefits if consumed during pregnancy. For the combination of vitamin E with vitamin C supplemented to pregnant women, a Cochrane review of 21 clinical trials concluded that the data do not support vitamin E supplementation - majority of trials α-tocopherol at 400 IU/day plus vitamin C at 1000 mg/day - as being efficacious for reducing risk of stillbirth, neonatal death, preterm birth, preeclampsia, or any other maternal or infant outcomes, either in healthy women or those considered at risk for pregnancy complications.[62] The review identified only three small trials in which vitamin E was supplemented without co-supplementation with vitamin C. None of these trials reported any clinically meaningful information.[62]

Topical

Although there is widespread use of vitamin E as a topical medication, with claims for improved wound healing and reduced scar tissue, reviews have repeatedly concluded that there is insufficient evidence to support these claims.[63][64]

Side effects

The U.S. Food and Nutrition Board set a Tolerable upper intake level (UL) at 1,000 mg (1,500 IU) per day derived from animal models that demonstrated bleeding at high doses.[16] The European Food Safety Authority reviewed the same safety question and set a UL at 300 mg/day.[19] A meta-analysis of long-term clinical trials reported a non-significant 2% increase in all-cause mortality when α-tocopherol was the only supplement used.[65] Another meta-analysis reported a non-significant 1% increase in all-cause mortality when α-tocopherol was the only supplement. Subset analysis reported no difference between natural (plant extracted) or synthetic α-tocopherol, or whether the amount used was less than or more than 400 IU/day.[66] There are reports of vitamin E-induced allergic contact dermatitis from use of vitamin-E derivatives such as tocopheryl linoleate and tocopherol acetate in skin care products. Incidence is low despite widespread use.[67]

Drug interactions

The amounts of α-tocopherol, other tocopherols and tocotrienols that are components of dietary vitamin E, when consumed from foods, do not appear to cause any interactions with drugs. Consumption of α-tocopherol as a dietary supplement in amounts in excess of 300 mg/day may lead to interactions with aspirin, warfarin, tamoxifen, and cyclosporine A in ways that alter function. For aspirin and warfarin, high amounts of vitamin E may potentiate anti-blood clotting action.[18][68] One small trial demonstrated that vitamin E at 400 mg/day reduced blood concentration of the anti-breast cancer drug tamoxifen. In multiple clinical trials, vitamin E lowered blood concentration of the immuno-suppressant drug, cyclosporine A.[68] The U.S. National Institutes of Health, Office of Dietary Supplements, raises a concern that co-administration of vitamin E could counter the mechanisms of anti-cancer radiation therapy and some types of chemotherapy, and so advises against its use in these patient populations. The references it cited reported instances of reduced treatment adverse effects, but also poorer cancer survival, raising the possibility of tumor protection from the oxidative damage intended by the treatments.[18]

Synthesis

Naturally sourced d-α-tocopherol can be extracted and purified from seed oils, or γ-tocopherol can be extracted, purified, and methylated to create d-alpha-tocopherol. In contrast to α-tocopherol extracted from plants, which also is called d-α-tocopherol, industrial synthesis creates dl-α-tocopherol. "It is synthesized from a mixture of toluene and 2,3,5-trimethyl-hydroquinone that reacts with isophytol to all-rac-α-tocopherol, using iron in the presence of hydrogen chloride gas as a catalyst. The reaction mixture obtained is filtered and extracted with aqueous caustic soda. Toluene is removed by evaporation and the residue (all rac-α-tocopherol) is purified by vacuum distillation." Specification for the ingredient is >97% pure.[69] This synthetic dl-α-tocopherol has approximately 50% of the potency of d-α-tocopherol. Manufacturers of dietary supplements and fortified foods for humans or domesticated animals convert the phenol form of the vitamin to an ester using either acetic acid or succinic acid because the esters are more chemically stable, providing for a longer shelf-life. The ester forms are de-esterified in the gut and absorbed as free α-tocopherol.

History

During feeding experiments with rats Herbert McLean Evans concluded in 1922 that besides vitamins B and C, an unknown vitamin existed.[70] Although every other nutrition was present, the rats were not fertile. This condition could be changed by additional feeding with wheat germ. It took several years until 1936 when the substance was isolated from wheat germ and the formula C29H50O2 was determined. Evans also found that the compound reacted like an alcohol and concluded that one of the oxygen atoms was part of an OH (hydroxyl) group. As noted in the introduction, the vitamin was given its name by Evans from Greek words meaning "to bear young" with the addition of the -ol as an alcohol.[71] The structure was determined shortly thereafter in 1938.[72]

See also

References

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External links

  • US Office of Dietary Supplements article on Vitamin E
  • Vitamin E risk assessment, Expert Group on Vitamins and Minerals, UK Food Standards Agency, 2003

February 25, 2023
tocopherol, class, organic, compounds, comprising, various, methylated, phenols, many, which, have, vitamin, activity, because, vitamin, activity, first, identified, 1936, from, dietary, fertility, factor, rats, named, tocopherol, from, greek, τόκος, tókos, bi. Tocopherols t oʊ ˈ k ɒ f e ˌ r ɒ l 1 TCP are a class of organic compounds comprising various methylated phenols many of which have vitamin E activity Because the vitamin activity was first identified in 1936 from a dietary fertility factor in rats it was named tocopherol from Greek tokos tokos birth and ferein pherein to bear or carry that is to carry a pregnancy with the ending ol signifying its status as a chemical alcohol a Tocopherol is the main source found in supplements and in the European diet where the main dietary sources are olive and sunflower oils 2 while g tocopherol is the most common form in the American diet due to a higher intake of soybean and corn oil 2 3 Tocotrienols which are related compounds also have vitamin E activity All of these various derivatives with vitamin activity may correctly be referred to as vitamin E Tocopherols and tocotrienols are fat soluble antioxidants but also seem to have many other functions in the body Contents 1 Forms 1 1 a Tocopherol 1 2 Tocotrienols 2 Function and dietary recommendations 2 1 Mechanism of action 2 2 Dietary considerations 2 3 a Tocopherol equivalents 3 Sources 4 Deficiency 5 Supplements 5 1 Synthetic all racemic 5 2 Esters 5 3 Mixed tocopherols 6 Uses 6 1 Supplement popularity over time 6 2 Age related macular degeneration 6 3 Complementary and alternative medicine 6 3 1 Antioxidant theory 6 4 Alzheimer s disease 6 5 Cancer 6 6 Cataracts 6 7 Cardiovascular diseases 6 8 Pregnancy 6 9 Topical 7 Side effects 7 1 Drug interactions 8 Synthesis 9 History 10 See also 11 References 12 External linksForms EditVitamin E exists in eight different forms four tocopherols and four tocotrienols All feature a chromane ring with a hydroxyl group that can donate a hydrogen atom to reduce free radicals and a hydrophobic side chain that allows for penetration into biological membranes Both the tocopherols and tocotrienols occur in a alpha b beta g gamma and d delta forms determined by the number and position of methyl groups on the chromanol ring Form Structurea Tocopherol b Tocopherol g Tocopherol d Tocopherol The tocotrienols have the same methyl structure at the ring and the same Greek letter methyl notation but differ from the analogous tocopherols by the presence of three double bonds in the hydrophobic side chain The unsaturation of the tails gives tocotrienols only a single stereoisomeric carbon and thus two possible isomers per structural formula one of which occurs naturally whereas tocopherols have three centers and eight possible stereoisomers per structural formula again only one of which occurs naturally Each form has a different biological activity 4 5 In general the unnatural l isomers of tocotrienols lack almost all vitamin activity and half of the possible 8 isomers of the tocopherols those with 2S chirality at the ring tail junction also lack vitamin activity Of the stereoisomers that retain activity increasing methylation especially full methylation to the alpha form increases vitamin activity In tocopherols this is due to the preference of the tocopherol binding protein for the a tocopherol form of the vitamin As a food additive tocopherol is labeled with these E numbers E306 tocopherol E307 a tocopherol E308 g tocopherol and E309 d tocopherol All of these are approved in the US 6 EU 7 and Australia and New Zealand 8 for use as antioxidants a Tocopherol Edit Main article a Tocopherol a Tocopherol is the form of vitamin E that is preferentially absorbed and accumulated in humans 9 The measurement of vitamin E activity in international units IU was based on fertility enhancement by the prevention of miscarriages in pregnant rats relative to a tocopherol Although the mono methylated form ddd g tocopherol is the most prevalent form of vitamin E in oils there is evidence that rats can methylate this form to the preferred a tocopherol since several generations of rats retained a tocopherol tissue levels even when those generations were fed only g tocopherol through their lives There are three stereocenters in a tocopherol so this is a chiral molecule 10 The eight stereoisomers of a tocopherol differ in the arrangement of groups around these stereocenters In the image of RRR a tocopherol below all three stereocenters are in the R form However if the middle of the three stereocenters were changed so the hydrogen was now pointing down and the methyl group pointing up this would become the structure of RSR a tocopherol These stereoisomers also may be named in an alternative older nomenclature where the stereocenters are either in the d or l form 11 RRR stereoisomer of a tocopherol bonds around the stereocenters are shown as dashed lines pointing down or wedges pointing up 1 IU of tocopherol is defined as milligrams of RRR a tocopherol formerly named d a tocopherol or sometimes ddd a tocopherol 1 IU is also defined as 1 milligram of an equal mix of the eight stereoisomers which is a racemic mixture called all rac a tocopheryl acetate This mix of stereoisomers is often called dl a tocopheryl acetate even though it is more precisely dl dl dl a tocopheryl acetate However 1 IU of this racemic mixture is not now considered equivalent to 1 IU of natural RRR a tocopherol and the Institute of Medicine and the USDA now convert IU s of the racemic mixture to milligrams of equivalent RRR using 1 IU racemic mixture 0 45 milligrams a tocopherol 12 20 21 Tocotrienols Edit Tocotrienols although less commonly known also belong to the vitamin E family Tocotrienols have four natural 2 d isomers they have a stereoisomeric carbon only at the 2 ring tail position The four tocotrienols in order of decreasing methylation d a d b d g and d d tocotrienol have structures corresponding to the four tocopherols except with an unsaturated bond in each of the three isoprene units that form the hydrocarbon tail whereas tocopherols have a saturated phytyl tail the phytyl tail of tocopherols gives the possibility for 2 more stereoisomeric sites in these molecules that tocotrienols do not have Tocotrienol has been subject to fewer clinical studies and seen less research as compared to tocopherol However there is growing interest in the health effects of these compounds 13 Function and dietary recommendations EditMain article Vitamin E Tocopherols function by donating H atoms to radicals X Mechanism of action Edit Tocopherols are radical scavengers delivering an H atom to quench free radicals At 323 kJ mol the O H bond in tocopherols is approximately 10 weaker than in most other phenols 14 This weak bond allows the vitamin to donate a hydrogen atom to the peroxyl radical and other free radicals minimizing their damaging effect The thus generated tocopheryl radical is relatively unreactive but reverts to tocopherol by a redox reaction with a hydrogen donor such as vitamin C 15 As they are fat soluble tocopherols are incorporated into cell membranes which are protected from oxidative damage Dietary considerations Edit The U S Recommended Dietary Allowance RDA for adults is 15 mg day 16 The RDA is based on the a tocopherol form because it is the most active form as originally tested Vitamin E supplements are absorbed best when taken with meals 17 The U S Institute of Medicine has set an upper tolerable intake level UL for vitamin E at 1 000 mg 1 500 IU per day 18 The European Food Safety Authority sets UL at 300 mg a tocopherol equivalents day 19 a Tocopherol equivalents Edit For dietary purposes vitamin E activity of vitamin E isomers is expressed as a tocopherol equivalents a TEs One a TE is defined by the biological activity of 1 mg natural d a tocopherol in the resorption gestation test According to listings by FAO and others b tocopherol should be multiplied by 0 5 g tocopherol by 0 1 and a tocotrienol by 0 3 4 The IU is converted to aTE by multiplying it with 0 67 20 These factors do not correlate with the antioxidant activity of vitamin E isomers where tocotrienols show even much higher activity in vivo 21 Sources EditMain article Vitamin E The U S Department of Agriculture USDA Agricultural Research Services maintains a food composition database The last major revision was Release 28 September 2015 12 In general food sources with the highest concentrations of vitamin E are vegetable oils followed by nuts and seeds Adjusting for typical portion sizes however for many people in the United States the most important sources of vitamin E include fortified breakfast cereals 12 Deficiency EditMain article Vitamin E deficiency Vitamin E deficiency is rare and in almost all instances caused by an underlying disease rather than a diet low in vitamin E 18 Vitamin E deficiency causes neurological problems due to poor nerve conduction These include neuromuscular problems such as spinocerebellar ataxia and myopathies 11 Deficiency also may cause anemia due to oxidative damage to red blood cells Supplements EditCommercial vitamin E supplements may be classified into several distinct categories Fully synthetic vitamin E dl a tocopherol the most inexpensive most commonly sold supplement form usually as the acetate ester Semi synthetic natural source vitamin E esters the natural source forms used in tablets and multiple vitamins these are highly fractionated d a tocopherol or its esters often made by synthetic methylation of gamma and beta d d d tocopherol vitamers extracted from plant oils Less fractionated natural mixed tocopherols and high d g tocopherol fraction supplementsSynthetic all racemic Edit Synthetic vitamin E derived from petroleum products is manufactured as all racemic a tocopheryl acetate with a mixture of eight stereoisomers In this mixture one a tocopherol molecule in eight molecules are in the form of RRR a tocopherol 12 5 of the total 22 The 8 isomer all rac vitamin E is always marked on labels simply as dl tocopherol or dl tocopheryl acetate even though it is if fully written out dl dl dl tocopherol The present largest manufacturers of this type are DSM and BASF Natural a tocopherol is the RRR a or ddd a form The synthetic dl dl dl a dl a form is not so active as the natural ddd a d a tocopherol form This is mainly due to reduced vitamin activity of the four possible stereoisomers that are represented by the l or S enantiomer at the first stereocenter an S or l configuration between the chromanol ring and the tail i e the SRR SRS SSR and SSS stereoisomers 10 The three unnatural 2R stereoisomers with natural R configuration at this 2 stereocenter but S at one of the other centers in the tail i e RSR RRS RSS appear to retain substantial RRR vitamin activity because they are recognized by the alpha tocopherol transport protein and thus maintained in the plasma where the other four stereoisomers SRR SRS SSR and SSS are not Thus the synthetic all rac a tocopherol in theory would have approximately half the vitamin activity of RRR a tocopherol in humans Experimentally the ratio of activities of the 8 stereoisomer racemic mixture to the natural vitamin is 1 to 1 36 in the rat pregnancy model suggesting a measured activity ratio of 1 1 36 74 of natural for the 8 isomer racemic mix 23 Although it is clear that mixtures of stereoisomers are not so active as the natural RRR a tocopherol form in the ratios discussed above specific information on any side effects of the seven synthetic vitamin E stereoisomers is not readily available Esters Edit a tocopheryl acetate an acetate ester of a tocopherol Manufacturers also commonly convert the phenol form of the vitamins with a free hydroxyl group to esters using acetic or succinic acid These tocopheryl esters are more stable and are easy to use in vitamin supplements a Tocopheryl esters are de esterified in the gut and then absorbed as the free tocopherol 24 25 Tocopheryl nicotinate tocopheryl linolate and tocopheryl palmitate esters are also used in cosmetics and some pharmaceuticals Mixed tocopherols Edit Mixed tocopherols in the USA contain at least 20 w w other natural R R R tocopherols i e R R R a tocopherol content plus at least 25 R R R b R R R g R R R d tocopherols citation needed Some brands may contain 20 0 w w or more of the other tocopherols and measurable tocotrienols Some mixed tocopherols with higher g tocopherol content are marketed as High Gamma Tocopherol The label should report each component in milligrams except R R R a tocopherol may still be reported in IU Mixed tocopherols also may be found in other nutritional supplements citation needed Uses EditMain article Vitamin E Observational studies that measure dietary intake and or serum concentration and experimental studies that ideally are randomized clinical trials RCTs are two means of examining the effects or lack thereof of a proposed intervention on human health 26 Healthcare outcomes may be expected to be in accord between reviews of observational and experimental studies If there is a lack of agreement then factors other than design need to be considered 27 In observational studies on vitamin E an inverse correlation between dietary intake and risk of a disease or serum concentration and risk of a disease may be considered suggestive but any conclusions also should rest on randomized clinical trials of sufficient size and duration to measure clinically significant results One concern with correlations is that other nutrients and non nutrient compounds such as polyphenols may be higher in the same diets that are higher in vitamin E Another concern for the relevance of RCTs described below is that while observational studies are comparing disease risk between low and high dietary intake of naturally occurring vitamin E from food when worldwide the adult median dietary intake is 6 2 mg d for d a tocopherol 10 2 mg day when all of the tocopherol and tocotrienol isomers are included 28 the prospective RCTs often used 400 IU day of synthetic dl a tocopherol as the test product equivalent to 268 mg of a tocopherol equivalents 18 Supplement popularity over time Edit In the US the popularity for vitamin E as a dietary supplement may have peaked around 2000 The Nurses Health Study NHS and the Health Professionals Follow up Study HPFS tracked dietary supplement use by people over the age of 40 during years 1986 2006 For women user prevalence was 16 1 in 1986 46 2 in 1998 44 3 in 2002 but had decreased to 19 8 in 2006 Similarly for men prevalence for same years was 18 9 52 0 49 4 and 24 5 The authors theorized that declining use in these health science aware populations may have due to publications of studies that showed either no benefits or negative consequences from vitamin E supplements 29 There is other evidence for declining use of vitamin E Within the U S military services vitamin prescriptions written for active reserve and retired military and their dependents were tracked over years 2007 2011 Vitamin E prescriptions decreased by 53 while vitamin C remained constant and vitamin D increased by 454 30 A report on vitamin E sales volume in the USA documented a 50 decrease between 2000 and 2006 31 with a significant cause attributed to a well publicized meta analysis that had concluded that high dosage vitamin E increased all cause mortality 32 Age related macular degeneration Edit A Cochrane review published in 2017 on antioxidant vitamin and mineral supplements for slowing the progression of age related macular degeneration AMD identified only one vitamin E clinical trial That trial compared 500 IU day of a tocopherol to placebo for four years and reported no effect on the progression of AMD in people already diagnosed with the condition 33 Another Cochrane review same year same authors reviewed the literature on a tocopherol preventing the development of AMD This review identified four trials duration 4 10 years and reported no change to risk of developing AMD 34 A large clinical trial known as AREDS compared b carotene 15 mg vitamin C 500 mg and a tocopherol 400 IU to placebo for up to ten years with a conclusion that the anti oxidant combination significantly slowed progression However because there was no group in the trial receiving only vitamin E no conclusions could be drawn as to the contribution of the vitamin to the effect 35 Complementary and alternative medicine Edit Proponents of megavitamin therapy and orthomolecular medicine advocate natural tocopherols 3 Meanwhile clinical trials have largely concentrated on use of either a synthetic all racemic d a tocopheryl acetate or synthetic dl a tocopheryl acetate citation needed Antioxidant theory Edit Main article Antioxidant Tocopherol is described as functioning as an antioxidant A dose ranging trial was conducted in people with chronic oxidative stress attributed to elevated serum cholesterol Plasma F2 isoprostane concentration was selected as a biomarker of free radical mediated lipid peroxidation Only the two highest doses 1600 and 3200 IU day significantly lowered F2 isoprostane 36 Alzheimer s disease Edit Alzheimer s disease AD and vascular dementia are common causes of decline of brain functions that occur with age AD is a chronic neurodegenerative disease that worsens over time 37 The disease process is associated with plaques and tangles in the brain 38 Vascular dementia may be caused by ischemic or hemorrhagic infarcts affecting multiple brain areas including the anterior cerebral artery territory the parietal lobes or the cingulate gyrus 39 Both types of dementia may be present Vitamin E status and that of other antioxidant nutrients is conjectured as having a possible impact on risk of Alzheimer s disease and vascular dementia A review of dietary intake studies reported that higher consumption of vitamin E from foods lowered the risk of developing AD by 24 40 A second review examined serum vitamin E levels and reported lower serum vitamin E in AD patients compared to healthy age matched people 41 In 2017 a consensus statement from the British Association for Psychopharmacology included that until further information is available vitamin E cannot be recommended for treatment or prevention of Alzheimer s disease 42 Cancer Edit From reviews of observational studies diets higher in vitamin E content were associated with a lower relative risk of kidney cancer 43 bladder cancer 44 and lung cancer 45 When comparisons were made between the lowest and highest groups for dietary vitamin E consumption from food the average reductions in relative risk were in the range of 16 19 For all of these reviews the authors noted that the findings needed to be confirmed by prospective studies 43 44 45 From randomized clinical trials RCTs in which a tocopherol was administered as a dietary supplement results differed from the dietary intake reviews A RCT of 400 IU day of a tocopherol did not reduce risk of bladder cancer 46 In male tobacco smokers 50 mg day had no impact on developing lung cancer 47 A review of RCTs for colorectal cancer reported lack of a statistically significant reduction in risk 48 In male tobacco smokers 50 mg day reduced prostate cancer risk by 32 49 but in a different trial majority non smokers 400 IU day increased risk by 17 50 In women who consumed either placebo or 600 IU of natural source vitamin E on alternate days for an average of 10 1 years there were no significant differences for breast cancer lung cancer or colon cancer 51 The U S Food and Drug Administration initiated a process of reviewing and approving food and dietary supplement health claims in 1993 A Qualified Health Claim issued in 2012 allows product label claims that vitamin E may reduce risk of renal bladder and colorectal cancers with a stipulation that the label must include a mandatory qualifier sentence FDA has concluded that there is very little scientific evidence for this claim 52 The European Food Safety Authority EFSA reviews proposed health claims for the European Union countries As of March 2018 EFSA has not evaluated any vitamin E and cancer prevention claims Cataracts Edit A meta analysis from 2015 reported that for studies that reported serum tocopherol higher serum concentration was associated with a 23 reduction in relative risk of age related cataracts ARC with the effect due to differences in nuclear cataract rather than cortical or posterior subcapsular cataract the three major classifications of age related cataracts 53 However this article and a second meta analysis reporting on clinical trials of a tocopherol supplementation reported no statistically significant change to risk of ARC when compared to placebo 53 54 Cardiovascular diseases Edit Research on the effects of vitamin E on cardiovascular disease has produced conflicting results An inverse relation has been observed between coronary heart disease and the consumption of foods high in vitamin E and also higher serum concentration of a tocopherol 55 In one of the largest observational studies almost 90 000 healthy nurses were tracked for eight years Compared to those in the lowest fifth for reported vitamin E consumption from food and dietary supplements those in the highest fifth were at a 34 lower risk of major coronary disease 56 Diet higher in vitamin E also may be higher in other unidentified components that promote heart health or people choosing such diets may be making other healthy lifestyle choices 55 56 There is some supporting evidence from randomized clinical trials RCTs A meta analysis on the effects of a tocopherol supplementation in RCTs on aspects of cardiovascular health reported that when consumed without any other antioxidant nutrient the relative risk of heart attack was reduced by 18 57 The results were not consistent for all of the individual trials incorporated into the meta analysis For example the Physicians Health Study II did not show any benefit after 400 IU every other day for eight years for heart attack stroke coronary mortality or all cause mortality 58 The effects of vitamin E supplementation on incidence of stroke were summarized in 2011 There were no significant benefits for vitamin E versus placebo for risk of stroke or for subset analysis for ischaemic stroke haemorrhagic stroke fatal stroke or non fatal stroke 59 In 2001 the U S Food and Drug Administration rejected proposed health claims for vitamin E and cardiovascular health 60 The U S National Institutes of Health also reviewed the literature and concluded there was not sufficient evidence to support the idea that routine use of vitamin E supplements prevents cardiovascular disease or reduces its morbidity and mortality 18 In 2010 the European Food Safety Authority reviewed and rejected claims that a cause and effect relationship has been established between the dietary intake of vitamin E and maintenance of normal cardiac function or of normal blood circulation 61 Pregnancy Edit Antioxidant vitamins as dietary supplements have been proposed as having benefits if consumed during pregnancy For the combination of vitamin E with vitamin C supplemented to pregnant women a Cochrane review of 21 clinical trials concluded that the data do not support vitamin E supplementation majority of trials a tocopherol at 400 IU day plus vitamin C at 1000 mg day as being efficacious for reducing risk of stillbirth neonatal death preterm birth preeclampsia or any other maternal or infant outcomes either in healthy women or those considered at risk for pregnancy complications 62 The review identified only three small trials in which vitamin E was supplemented without co supplementation with vitamin C None of these trials reported any clinically meaningful information 62 Topical Edit Although there is widespread use of vitamin E as a topical medication with claims for improved wound healing and reduced scar tissue reviews have repeatedly concluded that there is insufficient evidence to support these claims 63 64 Side effects EditThe U S Food and Nutrition Board set a Tolerable upper intake level UL at 1 000 mg 1 500 IU per day derived from animal models that demonstrated bleeding at high doses 16 The European Food Safety Authority reviewed the same safety question and set a UL at 300 mg day 19 A meta analysis of long term clinical trials reported a non significant 2 increase in all cause mortality when a tocopherol was the only supplement used 65 Another meta analysis reported a non significant 1 increase in all cause mortality when a tocopherol was the only supplement Subset analysis reported no difference between natural plant extracted or synthetic a tocopherol or whether the amount used was less than or more than 400 IU day 66 There are reports of vitamin E induced allergic contact dermatitis from use of vitamin E derivatives such as tocopheryl linoleate and tocopherol acetate in skin care products Incidence is low despite widespread use 67 Drug interactions Edit The amounts of a tocopherol other tocopherols and tocotrienols that are components of dietary vitamin E when consumed from foods do not appear to cause any interactions with drugs Consumption of a tocopherol as a dietary supplement in amounts in excess of 300 mg day may lead to interactions with aspirin warfarin tamoxifen and cyclosporine A in ways that alter function For aspirin and warfarin high amounts of vitamin E may potentiate anti blood clotting action 18 68 One small trial demonstrated that vitamin E at 400 mg day reduced blood concentration of the anti breast cancer drug tamoxifen In multiple clinical trials vitamin E lowered blood concentration of the immuno suppressant drug cyclosporine A 68 The U S National Institutes of Health Office of Dietary Supplements raises a concern that co administration of vitamin E could counter the mechanisms of anti cancer radiation therapy and some types of chemotherapy and so advises against its use in these patient populations The references it cited reported instances of reduced treatment adverse effects but also poorer cancer survival raising the possibility of tumor protection from the oxidative damage intended by the treatments 18 Synthesis EditNaturally sourced d a tocopherol can be extracted and purified from seed oils or g tocopherol can be extracted purified and methylated to create d alpha tocopherol In contrast to a tocopherol extracted from plants which also is called d a tocopherol industrial synthesis creates dl a tocopherol It is synthesized from a mixture of toluene and 2 3 5 trimethyl hydroquinone that reacts with isophytol to all rac a tocopherol using iron in the presence of hydrogen chloride gas as a catalyst The reaction mixture obtained is filtered and extracted with aqueous caustic soda Toluene is removed by evaporation and the residue all rac a tocopherol is purified by vacuum distillation Specification for the ingredient is gt 97 pure 69 This synthetic dl a tocopherol has approximately 50 of the potency of d a tocopherol Manufacturers of dietary supplements and fortified foods for humans or domesticated animals convert the phenol form of the vitamin to an ester using either acetic acid or succinic acid because the esters are more chemically stable providing for a longer shelf life The ester forms are de esterified in the gut and absorbed as free a tocopherol History EditDuring feeding experiments with rats Herbert McLean Evans concluded in 1922 that besides vitamins B and C an unknown vitamin existed 70 Although every other nutrition was present the rats were not fertile This condition could be changed by additional feeding with wheat germ It took several years until 1936 when the substance was isolated from wheat germ and the formula C29H50O2 was determined Evans also found that the compound reacted like an alcohol and concluded that one of the oxygen atoms was part of an OH hydroxyl group As noted in the introduction the vitamin was given its name by Evans from Greek words meaning to bear young with the addition of the ol as an alcohol 71 The structure was determined shortly thereafter in 1938 72 See also Edita Tocopherol Tocotrienol Vitamin EReferences Edit Tocopherol Dictionary com Unabridged Online n d Retrieved 28 February 2018 a b Wagner KH Kamal Eldin A Elmadfa I 2004 Gamma tocopherol an underestimated vitamin Annals of Nutrition amp Metabolism 48 3 169 88 doi 10 1159 000079555 PMID 15256801 S2CID 24827255 In North America the intake of g tocopherol has been estimated to exceed that of a tocopherol by a factor of 2 4 due to the fact that soybean oil is the predominant vegetable oil in the American diet 76 4 followed by corn oil and canola oil both 7 The supply of dietary fats is much more diverse in Europe The oils mainly consumed in Europe i e sunflower olive and canola oil provide less g tocopherol but more a tocopherol T he ratio of a g tocopherol is at least 1 2 Therefore the average g tocopherol intake may be estimated as 4 6 mg day which is about 25 35 of the USA intake In accordance with the lower estimated European intake of g tocopherol the serum levels of g tocopherol in European populations are 4 20 times lower than that of a tocopherol a b Jiang Q Christen S Shigenaga MK Ames BN December 2001 gamma tocopherol the major form of vitamin E in the US diet deserves more attention The American Journal of Clinical Nutrition 74 6 714 22 doi 10 1093 ajcn 74 6 714 PMID 11722951 a b Food and Agriculture Organization World Health Organization 2001 9 Vitamin E Joint FAO WHO Expert Consultation on Human Vitamin and Mineral Requirements Report Bangkok Thailand FAO Rome Burton G W Ingold K U 1981 Autoxidation of biological molecules 1 Antioxidant activity of vitamin E and related chain breaking phenolic antioxidants in vitro Journal of the American Chemical Society 103 21 6472 6477 doi 10 1021 ja00411a035 US Food and Drug Administration Listing of Food Additives Status Part II Food and Drug Administration Archived from the original on November 8 2011 Retrieved 2011 10 27 UK Food Standards Agency Current EU approved additives and their E Numbers Archived from the original on 2010 10 07 Retrieved 2011 10 27 Australia New Zealand Food Standards Code Standard 1 2 4 Labelling of ingredients Rigotti A 2007 Absorption transport and tissue delivery of vitamin E Molecular Aspects of Medicine 28 5 6 423 36 doi 10 1016 j mam 2007 01 002 PMID 17320165 a b Jensen S Lauridsen C 2007 a Tocopherol Stereoisomers Vitamins amp Hormones Vol 76 pp 281 308 doi 10 1016 S0083 6729 07 76010 7 ISBN 9780123735928 PMID 17628178 a b Brigelius Flohe R Traber MG July 1999 Vitamin E function and metabolism FASEB Journal 13 10 1145 55 doi 10 1096 fasebj 13 10 1145 PMID 10385606 S2CID 7031925 a b c Nutrient Data Laboratory September 2015 Composition of Foods Raw Processed Prepared USDA National Nutrient Database for Standard Reference Release 28 PDF Report Slightly revised ed Beltsville MA Beltsville Human Nutrition Research Center Agricultural Research Service United States Department of Agriculture pp 20 21 SR28 Sen CK Khanna S Roy S March 2006 Tocotrienols Vitamin E beyond tocopherols Life Sciences 78 18 2088 98 doi 10 1016 j lfs 2005 12 001 PMC 1790869 PMID 16458936 Lide David R ed 2006 CRC Handbook of Chemistry and Physics 87th ed Boca Raton FL CRC Press ISBN 0 8493 0487 3 Traber MG Stevens JF September 2011 Vitamins C and E beneficial effects from a mechanistic perspective Free Radical Biology amp Medicine 51 5 1000 13 doi 10 1016 j freeradbiomed 2011 05 017 PMC 3156342 PMID 21664268 a b Institute of Medicine 2000 Vitamin E Dietary Reference Intakes for Vitamin C Vitamin E Selenium and Carotenoids Washington DC The National Academies Press pp 186 283 doi 10 17226 9810 ISBN 978 0 309 06935 9 PMID 25077263 Archived from the original on 2018 02 26 Iuliano L Micheletta F Maranghi M Frati G Diczfalusy U Violi F October 2001 Bioavailability of vitamin E as function of food intake in healthy subjects effects on plasma peroxide scavenging activity and cholesterol oxidation products Arteriosclerosis Thrombosis and Vascular Biology 21 10 E34 7 doi 10 1161 hq1001 098465 PMID 11597949 a b c d e f National Institutes of Health 26 March 2021 Vitamin E Facts Sheet for Health Professionals Dietary Supplement Fact Sheets Office of Dietary Supplements Retrieved 19 May 2021 a b Tolerable Upper Intake Levels For Vitamins And Minerals PDF European Food Safety Authority 2006 archived PDF from the original on 2016 03 16 Vitamins Archived from the original on 2013 03 20 Retrieved 2013 03 26 University of Minnesota Nutrition Coordinating Center on Vitamins Packer L Weber SU Rimbach G February 2001 Molecular aspects of alpha tocotrienol antioxidant action and cell signalling The Journal of Nutrition 131 2 369S 73S doi 10 1093 jn 131 2 369S PMID 11160563 Weiser H Riss G Kormann AW October 1996 Biodiscrimination of the eight a tocopherol stereoisomers results in preferential accumulation of the four 2R forms in tissues and plasma of rats The Journal of Nutrition 126 10 2539 49 doi 10 1093 jn 126 10 2539 PMID 8857515 Taken together these data indicate that of the eight stereoisomers RRR RSR RRS RSS SRR SSR SRS SSS in all rac a tocopherol only the four 2R forms RRR RSR RSS RRS are recognized by a TTP and maintained in the plasma Indeed the Food and Nutrition Board Food and Nutrition Board and Institute of Medicine 2000 has defined that only a tocopherol specifically the 2R forms of a tocopherol can fulfill the human requirement for vitamin E Thus all rac a tocopherol has only half the activity of RRR a tocopherol Taken from the discussion in Lauridsen C Engel H Craig AM Traber MG March 2002 Relative bioactivity of dietary RRR and all rac a tocopheryl acetates in swine assessed with deuterium labeled vitamin E PDF Journal of Animal Science 80 3 702 7 doi 10 2527 2002 803702x PMID 11890405 Archived from the original PDF on 2008 12 17 Retrieved 2008 03 12 Mathias PM Harries JT Peters TJ Muller DP July 1981 Studies on the in vivo absorption of micellar solutions of tocopherol and tocopheryl acetate in the rat demonstration and partial characterization of a mucosal esterase localized to the endoplasmic reticulum of the enterocyte Journal of Lipid Research 22 5 829 37 doi 10 1016 S0022 2275 20 37355 7 PMID 7288289 Ajandouz EH Castan S Jakob S Puigserver A 2006 A fast sensitive HPLC method for the determination of esterase activity on a tocopheryl acetate Journal of Chromatographic Science 44 10 631 3 doi 10 1093 chromsci 44 10 631 PMID 17254374 Munnangi S Boktor SW 18 December 2018 Epidemiology of Study Design StatPearls StatPearls PMID 29262004 Anglemyer A Horvath HT Bero L April 2014 Healthcare outcomes assessed with observational study designs compared with those assessed in randomized trials The Cochrane Database of Systematic Reviews 2014 4 MR000034 doi 10 1002 14651858 MR000034 pub2 PMC 8191367 PMID 24782322 S2CID 205212373 Peter S Friedel A Roos FF Wyss A Eggersdorfer M Hoffmann K Weber P December 2015 A Systematic Review of Global Alpha Tocopherol Status as Assessed by Nutritional Intake Levels and Blood Serum Concentrations International Journal for Vitamin and Nutrition Research 85 5 6 261 281 doi 10 1024 0300 9831 a000281 PMID 27414419 Kim HJ Giovannucci E Rosner B Willett WC Cho E March 2014 Longitudinal and secular trends in dietary supplement use Nurses Health Study and Health Professionals Follow Up Study 1986 2006 Journal of the Academy of Nutrition and Dietetics 114 3 436 43 doi 10 1016 j jand 2013 07 039 PMC 3944223 PMID 24119503 Morioka TY Bolin JT Attipoe S Jones DR Stephens MB Deuster PA July 2015 Trends in Vitamin A C D E K Supplement Prescriptions From Military Treatment Facilities 2007 to 2011 Military Medicine 180 7 748 53 doi 10 7205 MILMED D 14 00511 PMID 26126244 Tilburt JC Emanuel EJ Miller FG September 2008 Does the evidence make a difference in consumer behavior Sales of supplements before and after publication of negative research results Journal of General Internal Medicine 23 9 1495 8 doi 10 1007 s11606 008 0704 z PMC 2518024 PMID 18618194 Miller ER Pastor Barriuso R Dalal D Riemersma RA Appel LJ Guallar E January 2005 Meta analysis high dosage vitamin E supplementation may increase all cause mortality Annals of Internal Medicine 142 1 37 46 doi 10 7326 0003 4819 142 1 200501040 00110 PMID 15537682 S2CID 35030072 Evans JR Lawrenson JG July 2017 Antioxidant vitamin and mineral supplements for slowing the progression of age related macular degeneration The Cochrane Database of Systematic Reviews 7 9 CD000254 doi 10 1002 14651858 CD000254 pub4 PMC 6483465 PMID 28756618 Evans JR Lawrenson JG July 2017 Antioxidant vitamin and mineral supplements for preventing age related macular degeneration The Cochrane Database of Systematic Reviews 2017 7 CD000253 doi 10 1002 14651858 CD000253 pub4 PMC 6483250 PMID 28756617 Chew EY Clemons TE Agron E Sperduto RD Sangiovanni JP Kurinij N Davis MD August 2013 Long term effects of vitamins C and E b carotene and zinc on age related macular degeneration AREDS report no 35 Ophthalmology 120 8 1604 11 e4 doi 10 1016 j ophtha 2013 01 021 PMC 3728272 PMID 23582353 Roberts LJ Oates JA Linton MF Fazio S Meador BP Gross MD et al November 2007 The relationship between dose of vitamin E and suppression of oxidative stress in humans Free Radical Biology amp Medicine 43 10 1388 93 doi 10 1016 j freeradbiomed 2007 06 019 PMC 2072864 PMID 17936185 Burns A Iliffe S February 2009 Alzheimer s disease BMJ 338 b158 doi 10 1136 bmj b158 PMID 19196745 S2CID 8570146 Ballard C Gauthier S Corbett A Brayne C Aarsland D Jones E March 2011 Alzheimer s disease Lancet 377 9770 1019 31 doi 10 1016 S0140 6736 10 61349 9 PMID 21371747 S2CID 20893019 Love S December 2005 Neuropathological investigation of dementia a guide for neurologists Journal of Neurology Neurosurgery and Psychiatry 76 Suppl 5 supplement 5 v8 14 doi 10 1136 jnnp 2005 080754 PMC 1765714 PMID 16291923 Li FJ Shen L Ji HF 2012 Dietary intakes of vitamin E vitamin C and b carotene and risk of Alzheimer s disease a meta analysis Journal of Alzheimer s Disease 31 2 253 8 doi 10 3233 JAD 2012 120349 PMID 22543848 Dong Y Chen X Liu Y Shu Y Chen T Xu L et al February 2018 Do low serum vitamin E levels increase the risk of Alzheimer disease in older people Evidence from a meta analysis of case control studies International Journal of Geriatric Psychiatry 33 2 e257 e263 doi 10 1002 gps 4780 PMID 28833475 S2CID 44859128 O Brien JT Holmes C Jones M Jones R Livingston G McKeith I et al February 2017 Clinical practice with anti dementia drugs A revised third consensus statement from the British Association for Psychopharmacology PDF Journal of Psychopharmacology 31 2 147 168 doi 10 1177 0269881116680924 PMID 28103749 S2CID 52848530 a b Shen C Huang Y Yi S Fang Z Li L November 2015 Association of Vitamin E Intake with Reduced Risk of Kidney Cancer A Meta Analysis of Observational Studies Medical Science Monitor 21 3420 6 doi 10 12659 MSM 896018 PMC 4644018 PMID 26547129 a b Wang YY Wang XL Yu ZJ 2014 Vitamin C and E intake and risk of bladder cancer a meta analysis of observational studies International Journal of Clinical and Experimental Medicine 7 11 4154 64 PMC 4276184 PMID 25550926 a b Zhu YJ Bo YC Liu XX Qiu CG March 2017 Association of dietary vitamin E intake with risk of lung cancer a dose response meta analysis Asia Pacific Journal of Clinical Nutrition 26 2 271 277 doi 10 6133 apjcn 032016 04 PMID 28244705 Lotan Y Goodman PJ Youssef RF Svatek RS Shariat SF Tangen CM et al June 2012 Evaluation of vitamin E and selenium supplementation for the prevention of bladder cancer in SWOG coordinated SELECT The Journal of Urology 187 6 2005 10 doi 10 1016 j juro 2012 01 117 PMC 4294531 PMID 22498220 Alpha Tocopherol Beta Carotene Cancer Prevention Study Group April 1994 The effect of vitamin E and beta carotene on the incidence of lung cancer and other cancers in male smokers The New England Journal of Medicine 330 15 1029 35 doi 10 1056 NEJM199404143301501 PMID 8127329 Arain MA Abdul Qadeer A April 2010 Systematic review on vitamin E and prevention of colorectal cancer Pakistan Journal of Pharmaceutical Sciences 23 2 125 30 PMID 20363687 Heinonen OP Albanes D Virtamo J Taylor PR Huttunen JK Hartman AM et al March 1998 Prostate cancer and supplementation with a tocopherol and beta carotene incidence and mortality in a controlled trial Journal of the National Cancer Institute 90 6 440 6 doi 10 1093 jnci 90 6 440 PMID 9521168 Klein EA Thompson IM Tangen CM Crowley JJ Lucia MS Goodman PJ et al October 2011 Vitamin E and the risk of prostate cancer the Selenium and Vitamin E Cancer Prevention Trial SELECT JAMA 306 14 1549 56 doi 10 1001 jama 2011 1437 PMC 4169010 PMID 21990298 Lee IM Cook NR Gaziano JM Gordon D Ridker PM Manson JE et al July 2005 Vitamin E in the primary prevention of cardiovascular disease and cancer the Women s Health Study a randomized controlled trial JAMA 294 1 56 65 doi 10 1001 jama 294 1 56 PMID 15998891 Alliance for Natural Health v Sebelius Case No 09 1546 D D C U S Food amp Drug Administration May 17 2012 a b Zhang Y Jiang W Xie Z Wu W Zhang D October 2015 Vitamin E and risk of age related cataract a meta analysis Public Health Nutrition 18 15 2804 14 doi 10 1017 S1368980014003115 PMID 25591715 Mathew MC Ervin AM Tao J Davis RM June 2012 Antioxidant vitamin supplementation for preventing and slowing the progression of age related cataract The Cochrane Database of Systematic Reviews 6 6 CD004567 doi 10 1002 14651858 CD004567 pub2 PMC 4410744 PMID 22696344 a b Kirmizis D Chatzidimitriou D 2009 Antiatherogenic effects of vitamin E the search for the Holy Grail Vascular Health and Risk Management 5 767 74 doi 10 2147 vhrm s5532 PMC 2747395 PMID 19774218 a b Stampfer MJ Hennekens CH Manson JE Colditz GA Rosner B Willett WC May 1993 Vitamin E consumption and the risk of coronary disease in women The New England Journal of Medicine 328 20 1444 9 doi 10 1056 NEJM199305203282003 PMID 8479463 Loffredo L Perri L Di Castelnuovo A Iacoviello L De Gaetano G Violi F April 2015 Supplementation with vitamin E alone is associated with reduced myocardial infarction a meta analysis Nutrition Metabolism and Cardiovascular Diseases 25 4 354 63 doi 10 1016 j numecd 2015 01 008 PMID 25779938 Sesso HD Buring JE Christen WG Kurth T Belanger C MacFadyen J et al November 2008 Vitamins E and C in the prevention of cardiovascular disease in men the Physicians Health Study II randomized controlled trial JAMA 300 18 2123 33 doi 10 1001 jama 2008 600 PMC 2586922 PMID 18997197 Bin Q Hu X Cao Y Gao F April 2011 The role of vitamin E tocopherol supplementation in the prevention of stroke A meta analysis of 13 randomised controlled trials Thrombosis and Haemostasis 105 4 579 85 doi 10 1160 TH10 11 0729 PMID 21264448 S2CID 23237227 Letter Regarding Dietary Supplement Health Claim for Vitamin E and Heart Disease Docket No 99P 4375 U S Food and Drug Administration Scientific Opinion on the substantiation of health claims related to vitamin E and protection of DNA proteins and lipids from oxidative damage ID 160 162 1947 maintenance of normal cardiac function ID 166 maintenance of normal blood circulation ID 216 pursuant to Article 13 1 of Regulation EC No 1924 2006 European Food Safety Authority EFSA Journal 2010 8 10 1816 a b Rumbold A Ota E Hori H Miyazaki C Crowther CA September 2015 Vitamin E supplementation in pregnancy The Cochrane Database of Systematic Reviews 2016 9 CD004069 doi 10 1002 14651858 CD004069 pub3 PMC 8406700 PMID 26343254 Sidgwick GP McGeorge D Bayat A August 2015 A comprehensive evidence based review on the role of topicals and dressings in the management of skin scarring Archives of Dermatological Research 307 6 461 77 doi 10 1007 s00403 015 1572 0 PMC 4506744 PMID 26044054 Tanaydin V Conings J Malyar M van der Hulst R van der Lei B September 2016 The Role of Topical Vitamin E in Scar Management A Systematic Review Aesthetic Surgery Journal 36 8 959 65 doi 10 1093 asj sjw046 PMID 26977069 Bjelakovic G Nikolova D Gluud C 2013 Meta regression analyses meta analyses and trial sequential analyses of the effects of supplementation with beta carotene vitamin A and vitamin E singly or in different combinations on all cause mortality do we have evidence for lack of harm PLOS ONE 8 9 e74558 Bibcode 2013PLoSO 874558B doi 10 1371 journal pone 0074558 PMC 3765487 PMID 24040282 Curtis AJ Bullen M Piccenna L McNeil JJ December 2014 Vitamin E supplementation and mortality in healthy people a meta analysis of randomised controlled trials Cardiovascular Drugs and Therapy 28 6 563 73 doi 10 1007 s10557 014 6560 7 PMID 25398301 S2CID 23820017 Kosari P Alikhan A Sockolov M Feldman SR 2010 Vitamin E and allergic contact dermatitis Dermatitis 21 3 148 53 doi 10 2310 6620 2010 09083 PMID 20487657 S2CID 38212099 a b Podszun M Frank J December 2014 Vitamin E drug interactions molecular basis and clinical relevance Nutrition Research Reviews 27 2 215 31 doi 10 1017 S0954422414000146 PMID 25225959 Scientific Opinion on the safety and efficacy of synthetic a tocopherol for all animal species 2012 European Food Safety Authority EFSA Journal 2012 10 7 2784 Evans HM Bishop KS December 1922 On the Existence of a Hitherto Unrecognized Dietary Factor Essential for Reproduction Science 56 1458 650 1 Bibcode 1922Sci 56 650E doi 10 1126 science 56 1458 650 PMID 17838496 Evans H M Emerson O H Emerson G A 1 February 1936 The isolation from wheat germ oil of an alcohol a tocopherol having the properties of vitamin E Journal of Biological Chemistry 113 1 319 332 doi 10 1016 S0021 9258 18 74918 1 Archived from the original on 29 September 2007 Fernholz E 1938 On the Constitution of a Tocopherol Journal of the American Chemical Society 60 3 700 705 doi 10 1021 ja01270a057 External links EditUS Office of Dietary Supplements article on Vitamin E Vitamin E risk assessment Expert Group on Vitamins and Minerals UK Food Standards Agency 2003 Retrieved from https en wikipedia org w index php title Tocopherol amp oldid 1141123338, wikipedia, wiki, book, books, 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