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Hypericum perforatum

February 15, 2024

"St John's wort" redirects here. For the flower known in Devon as St John's wort, see Chelidonium majus.

Hypericum perforatum, commonly known as St John's wort, is a flowering plant in the family Hypericaceae. It is a perennial plant that grows up to one meter tall, with many yellow flowers that have clearly visible black glands around their edges, long stamens (male reproductive organs), and three pistils (female reproductive organs). Probably a hybrid between the closely related H. attenuatum and H. maculatum that originated in Siberia, the species is now found worldwide. It is native to temperate regions across Eurasia and North Africa, and has been introduced to East Asia, Australia, New Zealand, and parts of North and South America. In many areas where it is not native, H. perforatum is considered a noxious weed. It densely covers open areas to the exclusion of native plants, and is poor grazing material. As such, methods for biocontrol have been introduced in an attempt to slow or reverse the spread of the species.

Hypericum perforatum
Scientific classification
Kingdom: Plantae
Clade: Tracheophytes
Clade: Angiosperms
Clade: Eudicots
Clade: Rosids
Order: Malpighiales
Family: Hypericaceae
Genus: Hypericum
Section: Hypericum sect. Hypericum
Species:
H. perforatum
Binomial name
Hypericum perforatum
Subspecies
  • H. p. ssp. perforatum
  • H. p. ssp. songaricum
    (Ledeb. ex Rchb.) N.Robson
  • H. p. ssp. veronense
    (Ledeb. ex Rchb.) N.Robson
  • H. p. ssp. chinense
    (Schrank) H.Lindb.
Synonyms
  • H. officinale Gaterau
  • H. officinarum Crantz
  • H. vulgare Lam.

The species produces numerous chemical compounds that are highly active. These chemicals are harmful to large animals, especially sheep, and help to deter herbivores from consuming the plant. Other chemicals in the plant, such as hypericin and hyperforin, have various uses in medicine. St John's wort has been used in traditional medicine since at least the first century AD, often as a cure-all or panacea. The oil from its glands can be extracted, or its above-ground parts can be ground into a powder called herba hyperici. In modern times, its use as an antidepressant has been the focus of numerous studies and clinical trials; however, the active ingredients can be very harmful or even lethal when taken alongside other medicines.

Description edit

Hypericum perforatum is an herbaceous perennial plant with hairless (glabrous) stems and leaves.[1] The root of each plant is slender and woody with many small, fibrous small side roots and also extensive, creeping rhizomes.[2] The central root grows to a depth of 0.6–1.5 meters into the soil depending on conditions.[3] The crown of the root is woody.[2]

 
Stem cross section

Its stems are erect and branched in the upper section, and usually range from 0.3 metres to 1 metre in height.[3] The stems are woody near their base and look like they have segmented joints from the scars left behind after the leaves fall off.[4] The stems of H. perforatum are rusty-yellow to rosy in color with two distinct edges and usually have bark that sheds near the base. The stems persist through the winter and sprout new growth with flower buds in the following year; first year growth does not produce flowers.[2]

 
Leaf showing translucent glands and dark glands near the edges

It has leaves that attach on opposite sides of the stems without a stalk (sessile). The leaves vary in shape from being very narrow and almost grass-like (linear), to a rounded oval slightly wider at the base with a rounded tip or not much of a tip (elliptic), or even narrow with the widest portion towards the end of the leaf like a reversed lance point, but still long and narrow (oblanceolate).[2] The principle leaves range in length from 0.8 to 3.5 centimetres[1] and 0.31–1.6 centimetres in width.[2] Leaves borne on the branches subtend the shortened branchlets. The leaves are yellow-green in color, with scattered translucent dots of glandular tissue.[5][6] The dots are clearly visible when held up to the light, giving the leaves a perforated appearance.[7] The edges (margins) of the leaves usually have scattered black dots, often called dark glands, though sometimes they will appear away from the edges.[2][8] The odor of the plant is faint, but aromatic, resembling that of resins like balsam. The taste of the plant is bitter and acrid.[1]

Flowering characteristics edit

 
Blossom showing black colored dark glands at the edges of the petals

The flowers are conspicuous and showy, measuring about 1.5–2.5 cm across, and are bright yellow with black dots along the edges of the petals.[9][2][10] Each of the flowers normally has five large petals and five smaller leaf-like sepals below them. The sepals are about 4–5 mm in length, green in color, are shaped like the head of a spear (lanceolate shape) with a pointed tip, and the same clear and black glands as the leaves. The petals are significantly longer, 8–12 mm in length, and have an oblong shape. They completely hide the sepals from the front side of the flower.[11] The many bright yellow stamens are united at the base into three bundles.[11] The stalk portion of the stamens, the filaments, vary in length and stick out in every direction from the center of the flower.[2] The pollen grains are pale brown to orange in color.[12]

The flowers are arranged along one side of each flowering stem with two flowers at each node (a helicoid cyme) at the ends of the upper branches, between late spring and early to mid-summer.[13] Each flowering stem bears many flowers, between 25 and 100, and also is quite leafy.[11]

The fruit of Hypericum perforatum is a capsule 7–8 mm in length containing the seeds in three valved chambers.[11][2] Seeds that are separated from the capsules have a much higher germination rate due to an inhibiting factor in the capsule itself.[3] The black and lustrous seeds are rough, netted with coarse grooves.[14] Each seed is about 1 millimeter in size.[11] Each plant may produce an average of 15,000 to 34,000 seeds.[3]

  •  
    Full plant
  •  
    Seedlings
  •  
    Fruit
  •  
    Red staining liquid from a flower bud

Similar species edit

Hypericum maculatum is visually similar to Hypericum perforatum; however, its stems have four ridges instead of two and are also hollow. In addition, its leaves have fewer translucent glands and more dark glands. H. maculatum is native to the Old World but has also been introduced to North America.[3]

In North America several native species may be confused with Hypericum perforatum. Hypericum anagalloides is a low-growing creeping plant with rounder leaves and fewer stamens. Hypericum boreale is a smaller plant with more delicate flowers. Hypericum canadense has smaller flowers with sepals that show between the petals. Hypericum concinnum has flowers with petals that bend backward at the tip and also has much narrower, gray-green leaves. Growing in riparian areas along rivers, Hypericum ellipticum has wider leaves with a more elliptic shape. Hypericum scouleri has leaves that are broader at the base and also thicker. All except for H. concinnum grow in environments that are generally more moist than where H. perforatum is found.[3]

Phytochemistry edit

 
Chemical structure of hypericin

The most common active chemicals in Hypericum perforatum are hypericin and pseudohypericin (naphthodianthrones), and hyperforin (a phloroglucinol derivative).[13][15][16] It also contains a host of essential oils, the bulk of which are sesquiterpenes.[13] In the wild, the concentrations of any active chemicals can vary widely among individual plants and populations.[17]

Comparison of selected chemical constituents of Hypericum perforatum[18][19]
Compound Conc.[18]
[20]		 log P PSA pKa Formula MW CYP1A2
[Note 1]		 CYP2C9
[Note 2]		 CYP2D6
[Note 2]		 CYP3A4
[Note 2]		 PGP
[Note 2]		 t1/2[20] (h) Tmax[20] (h) Cmax[20] (mM) CSS[20] (mM) Notes/Biological activity[Note 3]
Phloroglucinols (2–5%)
Adhyperforin 0.2–1.9 10–13 71.4 8.51 C36H54O4 550.81 ? ? ? ? ? ? ? ? ? ?
Hyperforin 2–4.5 9.7–13 71.4 8.51 C35H52O4 536.78 + +/- + + 3.5–16 2.5–4.4 15-235 53.7
Naphthodianthrones (0.03-3%)
Hypericin 0.003-3 7.5–10 156 6.9±0.2 C30H16O8 504.44 0
(3.4 μM)		 – (8.5 μM)
(8.7 μM)		 ? 2.5–6.5 6–48 0.66-46 ? ?
Pseudohypericin 0.2–0.23 6.7±1.8 176 7.16 C30H16O9 520.44 ? ? ? ? ? 24.8–25.4 3 1.4–16 0.6–10.8
Flavonoids (2–12%)
Amentoflavone
 0.01–0.05 3.1–5.1 174 2.39 C30H18O10 538.46 ?
(35 nM)		 – (24.3 μM)
(4.8 μM)		 ? ? ? ? ? ?
Apigenin 0.1–0.5 2.1±0.56 87 6.63 C15H10O5 270.24 ? ? ? ? ? ? ? ? ? ?
Catechin 2–4 1.8±0.85 110 8.92 C15H14O6 290.27 ? ? ? ? ? ? ? ? ? ?
Epigallocatechin ? −0.5–1.5 131 8.67 C15H14O6 290.27 ? ? ? ? ? 1.7±0.4a 1.3–1.6a ? ? ?
Hyperoside 0.5-2 1.5±1.7 174 6.17 C21H20O12 464.38 ? ? ? ? ? ? ? ? ?
Kaempferol ? 2.1±0.6 107 6.44 C15H10O6 286.24 ? ? ? +/- ? ? ? ? ? ?
Luteolin ? 2.4±0.65 107 6.3 C15H10O6 286.24 ? ? ? ? ? ? ? ? ?
Quercetin 2–4 2.2±1.5 127 6.44 C15H10O7 302.24
(7.5 μM)
b		 – (47 μM)
b		 – (24 μM)
b		 – (22 μM)
b		 20–72c 8c ? ? ?
Rutin 0.3–1.6 1.2±2.1 266 6.43 C27H30O16 610.52 ? ? ? ? ? ? ? ? ? ?
Phenolic acids (~0.1%)
Caffeic acid 0.1 1.4±0.4 77.8 3.64 C9H8O4 180.16 ? ? ? ? ? ? ? ? ?
Chlorogenic acid <0.1% -0.36±0.43 165 3.33 C16H18O9 354.31 0 0 0 0 ? ? ? ? ? ?
Acronyms and symbols
Acronym/Symbol Meaning
MW Molecular weight in g•mol−1.
PGP P-glycoprotein
t1/2 Elimination half-life in hours
Tmax Time to peak plasma concentration in hours
Cmax Peak plasma concentration in mM
CSS Steady state plasma concentration in mM
  Partition coefficient.
PSA Polar surface area of the molecule in question in square angstroms2). Obtained from PubChem
Conc. These values pertain to the approximation concentration (in %) of the constituents in the fresh plant material
Indicates inhibition of the enzyme in question.
+ Indicates an inductive effect on the enzyme in question.
0 No effect on the enzyme in question.
5-HT 5-hydroxytryptamine – synonym for serotonin.
DA Dopamine
NE Norepinephrine
GABA γ-aminobutyric acid
Glu Glutamate
Gly Glycine
Ch Choline
a ?
b ?
c ?

Notes:

  1. ^ In brackets is the IC50/EC50 value depending on whether it is an inhibitory or inductive action being exhibited, respectively.
  2. ^ a b c d As with last note
  3. ^ Values given in brackets are IC50/EC50 depending on whether it is an inhibitory or inductive action the compound displays towards the biologic target in question. If it pertains to bacterial growth inhibition the value is MIC50

Taxonomy edit

 
1913 botanical illustration of H. perforatum by Jost Fitschen in Pflanzen der Heimat

Hypericum perforatum was selected to be the type species around which the genus Hypericum is based because of its wide cosmopolitan distribution; it is the most common species of the genus in many of the areas it is found, and is one of the most widely known plants among the St John's worts in folklore and medicine.[21] The current accepted placement of H. perforatum within its genus can be summarized as follows:[22]

Hypericum

Hypericum subg. Hypericum
Hypericum sect. Hypericum
Hypericum subsect. Hypericum
Hypericum ser. Senanensia
Hypericum ser. Hypericum
H. attenuatum
H. iwate-littorale
H. maculatum
H. momoseanum
H. perforatum
H. scouleri
H. tetrapterum
H. tosaense
H. triquetrifolium
H. undulatum

Phylogeny edit

Hypericum perforatum has a chromosome count of 2n = 32. The likely reason for this is that the species is a hybrid between the very closely related H. maculatum subsp. immaculatum and H. attenuatum, which means it inherited sets of chromosomes from both parents and is allopolyploid. The two species almost certainly hybridized within Siberia, Russia. The equation for this hybridization is:[21]

H. maculatum subsp. immaculatum (16) × H. attenuatum (16)×2 = H. perforatum (32)

 
Hypericum × desetangsii is a hybrid between H. perforatum and H. maculatum. It displays intermediate traits of the two species.

Because of its hybrid origins, Hypericum perforatum is one of the few species within its genus that is able to further hybridize with other species, specifically those within H. ser. Hypericum. The hybrids that are descended from H. perforatum can be triploid (3 sets of chromosomes) to hexaploid (6 sets), depending on the chromosome count of the second parent species and the ploidy of the specific H. perforatum gamete that is fertilized or is fertilizing. The triploid offspring exhibit and a mix of traits from the two parents and pass them on to their offspring; the tetraploids also have a mix of traits, but often do not pass on the traits of both parents; the pentaploids are rarely distinguishable from H. perforatum. Because of this, after many generations of hybridization a wide range of traits on a spectrum between the two hybridizing species can be observed in the wild.[23]

Hybrids involving H. perforatum[23]
Crossed with Hybrid name Chromosome number[a 1]
H. elegans H. perforatum × elegans 2n = 32?
H. tetrapterum H. × medium 2n = 24?
H. maculatum ssp. maculatum H. × desetangsii nssp. carinthiacum 2n = 24/40
H. maculatum ssp. immaculatum H. × desetangsii nssp. balcanicum 2n = 24/40?
H. maculatum ssp. obtusiusculum H. × desetangsii nssp. desetangsii 2n = 40
  1. ^ Uncertainty in chromosome number notated by "?"

Etymology and common names edit

The genus name Hypericum is possibly derived from the Greek words hyper (above) and eikon (picture), in reference to the tradition of hanging the plant over religious icons in the home.[24] The specific epithet perforatum is Latin and refers to the perforated appearance of the plant's leaves.[14]

The common name St John's wort comes from the fact that its flowers and buds were commonly harvested at the time of the Midsummer festival, which was later Christianized as St John's Feast Day on 24 June. It was believed that harvesting the flower at this time made its healing and magical powers more potent. The herb would be hung on house and stall doors on St John's Feast Day to ward off evil spirits and to safeguard against harm and sickness to people and livestock. In other traditions it was burned in bonfires for the protection of crops along with other herbs believed to be magical.[25][26] Because of its supposed potency in warding off spirits, the plant was also known as fuga daemonum (loosely "demon-flight").[27] Many other similarly fanciful names have been used for it including devil's scourge, Lord God's wonder plant, and witch's herb.[28] In medieval Kent it was called herbe Ion (Ion in this case referring to "John") as recorded in the poem The Feate of Gardening.[29] Other local names for Hypericum perforatum include balm of the warrior's wound in Somerset, penny John in Norfolk, rosin rose in Yorkshire, and touch-and-heal in Northern Ireland.[26] Locally in the United States, it may also be referred to as Tipton-weed, goatweed, or Klamath weed.[30][31]

In the 21st century, any species of the genus Hypericum can be referred to as St John's wort. Therefore, it is more accurate to call Hypericum perforatum the common St John's wort or perforate St John's wort.[27][1]

History edit

Hypericum perforatum has been known and used since at least the first century. Pedanius Dioscorides, an early pharmacologist, referred to either it or H. empetrifolium as akuron.[27] The species was first formally described by Carl Linnaeus in the second tome of Species Plantarum in 1753. In it, he gave the following brief description that would serve as the foundation for all subsequent identification of the species:[32]

HYPERICUM floribus trigynis, caule ancipiti, foliis obtusis pellucido-punctatis.
Hypericum with flowers that have three pistils, ancipital stems, and obtuse leaves with pointed dots.

Linnaeus also noted the species' habitat in the "meadows of Europe" and gave a short account of previous mentions of the plant.[32]

While Linnaeus' taxonomic priority for this species is not in question, there are a number of botanical synonyms that were published in the early years of formal botanical nomenclature. Gaterau published Description des plantes qui croissent aux environs de Montauban in 1789 which described and called the species Hypericum officinale, a name now considered to be illegitimate under the principle of priority. Likewise, the name Hypericum officinarum by Heinrich Johann Nepomuk von Crantz in 1763 also postdated Linnaeus' 1753 naming and description and is considered invalid.[33]

Subdivision edit

 
H. perforatum ssp. veronense

Hypericum perforatum exhibits a great deal of variability in its appearance across its distribution. Thus, determining the exact nature of its infraspecific taxa is difficult because of the many intermediate forms that exist.[34]

  • H. perforatum subspecies perforatum Stjep.-Vesel. is the type form of the species. It is distributed from the origin of the species in Siberia, west to central Europe, and east to northern Mongolia. The base changes as the plant grows from round to a broad wedge shape, and the seed capsule vittae are present throughout the plant's life cycle and are almost always narrow.
    • H. perforatum variety angustifolium DC. is a variety of the species that is found in drier climates within the range of ssp. perforatum. It has leaves that look more like those of ssp. veronense, but they have leaf stalks; the glands on the seed capsule are also distinct.[34]
    • H. perforatum var. humile Stranski can be found in parts of the southern Balkans. These plants possess smaller, more ring-shaped leaves and the seed capsules have flattish vesicles on their surface. These appear to be adaptations of ssp. perforatum in response to the mountainous habitats of the region.[35]
  • H. perforatum ssp. songaricum is likely the most primitive after ssp. perforatum. Previously described as a variety by Karl Koch, Norman Robson elevated the taxon to subspecies in his monograph of the genus. The leaves are sessile and have a heart-shaped base that partially surrounds the stem.[35]
    • H. perforatum var. gracile has smaller leaves and is found in western Kazakhstan, southern Russia, and southern Ukraine. In the drier areas of this range the variety exhibits a dull grey-green color on the underside of its leaves.[35]
  • H. perforatum ssp. veronense can be found in the Caucasus, across the Middle East to Tajikistan, and along North Africa to Macaronesia. These plants have narrower leaves and display diagonal vittae on the seed capsules. Where it meets the distribution of ssp. perforatum the two subspecies hybridize regularly.[35]
    • H. perforatum var. ellipticum retains the diagonal vittae of the subspecies but the leaves are not as narrow. The variety is distributed in areas with greater moisture such as in the mountainous areas of Turkmenistan.[35]
  • H. perforatum ssp. chinense is found across most of China and was introduced into Japan (under the synonym H. foliosissimum Koidz.). Both its leaves and flowers are smaller, and the flower clusters are smaller and more crowded on the ends of longer branches.[35]

Ecology edit

H. perforatum is native to temperate parts of Europe and Asia, but has spread to temperate regions worldwide as an invasive weed.[36][37]

Distribution edit

 
Country-level distribution of Hypericum perforatum based on data from the Royal Botanic Gardens, Kew

Hypericum perforatum is thought to be native to every nation in Europe and is only absent from the far north such as north European Russia and Svalbard. It grows in parts of North Africa and is native to Morocco, Algeria, Tunisia, and Sudan.[33]

In the Arabian Peninsula it only grows in parts of Saudi Arabia. It is present and native to all of the Western Asia phytogeographic region from the Aegean Islands and Turkey to Israel and Palestine in the west to Afghanistan in the east, only being absent from the Sinai Peninsula. Just to the east of this area it is also native to Pakistan and the western Himalaya region of India.[33]

In the temperate parts of Asia, Hypericum perforatum is mostly absent from Siberia with the exception of western Siberia, the Altai Region, and the warmest parts of Krasnoyarsk Krai. It has also been introduced to Irkutsk and Buryatiya. It is a native part of the flora of Central Asia, growing in all the former Soviet republics. It also is known in almost every part of the Caucasus. In China it is native to Xinjiang (western China), central China, and southern China, but not to Inner Mongolia, Manchuria, or Tibet. In the far east of Asia it has been introduced to Primorye in Russia, Korea, and Japan.[33][38]

In North America it is found in all of the continental US states except for Utah, Arizona, Florida, and Alabama. It has also been introduced to the Canadian provinces of British Columbia, Manitoba, Ontario, Quebec, and the maritime provinces besides Labrador.[39] It has also been introduced to Hawaii, Cuba, and Haiti.[33]

In South America it is found in Argentina, Chile, Uruguay, the Juan Fernández Islands, and the more temperate parts of Brazil in the southeast. In the southern parts of Africa it has become established in South Africa, Lesotho, and Réunion. In Australia it is now found in the states of South Australia, Tasmania, Victoria, and Western Australia. It has also been introduced to both the North and South Islands of New Zealand.[33]

Habitat edit

The species can be found in a variety of habitats including open woods, meadows, grasslands, steppe, riverbanks, and stony or grassy hillsides and roadsides. It prefers dry habitats or areas with strong drainage.[34] The species thrives in areas with at least 760 mm of rainfall per year; however, its distribution is restricted by temperatures too low for seed germination or seedling survival: an absolute minimum of −3 °C or an annual average of 9 °C.[36] Altitudes greater than 1,500 metres (4,900 ft), rainfall less than 500 millimetres (20 in), and daily mean temperatures greater than 24 °C (75 °F) are also considered limiting thresholds.[40]

Reproduction edit

 
Bombus terrestris pollinating the flowers of Hypericum perforatum

St John's wort reproduces both vegetatively and sexually. Depending on environmental and climatic conditions, and the age of the plant, St John's wort will alter the way it grows to promote survival. Summer rains are particularly effective in allowing the plant to grow vegetatively, following defoliation by insects or grazing.[40] St John's wort may also produce viable seeds without fertilization.[3] Its seeds can persist for decades while lying dormant underground in an ecosystem's soil seed bank, germinating after they are disturbed.[41][36]

Diseases edit

H. perforatum is affected by phytoplasma diseases, and when infected with Candidatus phytoplasma fraxini it shows visible symptoms, including yellowing and deformities called witch's broom. Its chemical profile is also altered: naphthodianthrone, flavonoid, amentoflavone, and pseudohypericin levels are reduced; chlorogenic acid levels are increased. Additionally, phytoplasma diseases greatly reduce the essential oil yield of the plant.[42]

Dieback among populations of St John's wort is also caused by fungal anthracnose, such as Colletotrichum gloeosporioides. This fungus causes the stems to lose their bark (girdling) and turn brown, and dries the aboveground parts of the plant. The infection often kills the plant within the first year of its growth, or reduces productivity over a three-year deterioration.[43]

Herbivores edit

Though Hypericum perforatum is generally avoided by mammalian herbivores, a number of insects are dependent on it and its close relatives as a food source. Chrysolina quadrigemina and C. hyperici are two beetle species that feed on plants from the genus Hypericum, including H. perforatum. Chrysolina quadrigemina can be colored metallic blue, purple, green, or bronze and is better adapted to warm and dry climates; Chrysolina hyperici is consistently smaller, metallic green, and tends to live in areas with wetter and cooler conditions.[44] Another Hyericum specialist beetle is Agrilus hyperici, the St John's wort root borer, whose larvae feed on the roots of H. perforatum while the adults feed on the foliage.[45]

A moth, Aplocera plagiata, feeds heavily upon the leaves of H. perforatum as a caterpillar and is commonly known as the common St John's wort inchworm. As adults they are a small moth with gray wings and dark gray bands.[3] Another moth that feeds upon H. perforatum is Euspilapteryx auroguttella. Their caterpillars start by mining the inside of the leaves and later roll the leaves into cigar shapes to feed in greater safety.[46][47] Agonopterix hypericella is another small (17 mm) gray moth that exclusively feeds upon Hypericum.[48][47]

Zeuxidiplosis giardi, the common St. Johnswort gall midge, is a small (3 mm) fly that eats H. perforatum while developing. The larvae feed upon leaf buds, which causes the plant to form a round growth called a gall where the developing insect can feed, is protected, and pupates into a mature adult.[3]

Toxicity edit

Hypericum perforatum is toxic to numerous domestic animals such as cows, sheep, and horses. When these animals come into contact with the plant, usually through grazing, they develop serious symptoms. The first signs are reddening of the skin accompanied by swelling, which is followed by necrosis and sloughing of the skin. Non-pigmented, white skin is most affected by the poisoning, such as the nose and ears of certain breeds of sheep.[49] Young animals are more susceptible to H. perforatum poisoning, and the plant is most toxic in spring (when it is the most palatable to herbivores) and retains its toxic effects when dried in hay.[50] Additionally, affected animals will become highly photosensitive, and exposure to sunlight can exacerbate their symptoms. As such, they should be moved to a dark area; administering of antihistamines or anti-inflammatory medicines may also help alleviate the symptoms.[49]

Invasiveness edit

 
Hypericum perforatum in Belair National Park, South Australia

Although H. perforatum is grown commercially in some regions of southeast Europe, it is listed as a noxious weed in more than twenty countries and has introduced populations in South and North America, India, New Zealand, Australia, and South Africa.[36][41] In pastures, St John's wort acts as both a toxic and invasive weed. It replaces native plant communities and forage vegetation to the extent of making productive land nonviable or becoming an invasive species in natural habitats and ecosystems.[51]

Effective herbicides for control of Hypericum perforatum include 2,4-D, picloram, metsulfuron, and glyphosate.[3] Insect herbivores have also been introduced as biocontrol agents in areas outside their native range. Some of the most widely used are Chrysolina quadrigemina, Chrysolina hyperici, Agrilus hyperici, Aplocera plagiata, and Zeuxidiplosis giardi.[52][3]

Uses edit

Traditional medicine edit

 
Dried Hypericum perforatum for use as an herbal drug called "herba hyperici"

Common St John's wort has been used in herbalism for centuries.[53] It was thought to have medical properties in classical antiquity and was a standard component of ancient concoctions called theriacs, from the Mithridate of Aulus Cornelius Celsus' De Medicina (c. 30 CE) to the Venice treacle of d'Amsterdammer Apotheek in 1686.[54][55] One folk use included the oily extract known as St John's oil, a red, oily liquid extracted from H. perforatum that may have been a treatment for wounds by the Knights Hospitaller, the Order of St John.[56] Another part of the plant that is used is the dried flower structure, which is turned into a product known as "herba hyperici" by crushing.[57]

Medical research edit

Antidepressant edit

Further information: Hyperforin
 
Hyperforin, a phytochemical produced by St John's wort, may be responsible for the plant's antidepressant properties.[58]

Some studies and research reviews have supported the efficacy of St John's wort as a treatment for depression in humans.[53] A 2015 meta-analysis review concluded that it has superior efficacy to placebo in treating depression, is as effective as standard antidepressant pharmaceuticals for treating depression, and has fewer adverse effects than other antidepressants.[59] The authors concluded that it is difficult to assign a place for St John's wort in the treatment of depression owing to limitations in the available evidence base, including large variations in efficacy seen in trials performed in German-speaking countries relative to other countries. A 2008 Cochrane review of 29 clinical trials concluded that it was superior to placebo in patients with major depression, as effective as standard antidepressants and had fewer side-effects.[60] A 2016 review noted that use of St John's wort for mild and moderate depression was better than placebo for improving depression symptoms, and comparable to antidepressant medication.[61] A 2017 meta-analysis found that St John's wort had comparable efficacy and safety to SSRIs for mild-to-moderate depression and a lower discontinuation rate.[62] According to the United States National Center for Complementary and Integrative Health, St John's wort appears to be more effective than placebo and as effective as standard antidepressant medications for mild and moderate depression, and that it is uncertain whether this is true for severe depression or for longer than 12 weeks.[53]

In the United States, St John's wort is considered a dietary supplement by the FDA, and is not regulated by the same standards as a prescription drug.[63] In China, St John's wort combined with Eleutherococcus senticosus is sold as an antidepressant under the name Shūgān Jiěyù Jiāonáng (Chinese: 舒肝解郁胶囊; lit. 'Liver Soothing Depression Relief Capsules'), according to the Pharmacopoeia of the People's Republic of China. The pharmacopoeia states that it is used "for mild to moderate unipolar depression".[64] In some European nations, the use of Hypericum perforatum for medicinal purposes is restricted because of its classification as a drug.[65]

Interactions and side effects edit

St John's wort can interfere (in potentially life-endangering ways) with the effects of prescription and over-the-counter drugs.[53] It mainly does this by increasing CYP3A4 and CYP2C9 enzymes in the liver, leading to faster conversion of drugs.[66] The increase in these enzymes have been found to be caused by high hyperforin content; consumption of St John's wort products with minimal hyperforin causes fewer side effects and less interference.[67] However, the concentration of St John's wort's constituent chemicals (including hyperforin) can vary widely between different products,[68] and their dosage may not be properly marked on packaging.[67] In particular, St John's wort products can reduce the effectiveness of medicines like birth control pills, heart medications, HIV drugs, cancer medications, and some anticoagulants.[53] The most common side effects of St John's wort products are stomach pain, fatigue, and restlessness. Other more rare effects include photosensitivity and skin irritation, breakthrough bleeding when taking oral contraceptives, and decreased effectiveness of immunosuppressants in those who have had organ transplants.[68]

References edit

Citations edit

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Bibliography edit

  • Ernst E (2003). Hypericum: the genus Hypericum. Medicinal and Aromatic Plants—Industrial Profiles. Vol. 31. London: Taylor & Francis. ISBN 9781420023305.
  • WHO (2002). WHO Monographs on Selected Medicinal Plants. Vol. 2. Geneva, Switzerland: World Health Organization. pp. 149–165. ISBN 9241545372.
  • Robson N (2002). "Studies in the genus Hypericum L. (Guttiferae) 4(2). Section 9. Hypericum sensu lato (part 2): subsection 1. Hypericum series 1. Hypericum". Bulletin of the British Museum (Natural History) Botany. 32: 61–123 – via Biodiversity Heritage Library.

February 15, 2024
hypericum, perforatum, john, wort, redirects, here, flower, known, devon, john, wort, chelidonium, majus, commonly, known, john, wort, flowering, plant, family, hypericaceae, perennial, plant, that, grows, meter, tall, with, many, yellow, flowers, that, have, . St John s wort redirects here For the flower known in Devon as St John s wort see Chelidonium majus Hypericum perforatum commonly known as St John s wort is a flowering plant in the family Hypericaceae It is a perennial plant that grows up to one meter tall with many yellow flowers that have clearly visible black glands around their edges long stamens male reproductive organs and three pistils female reproductive organs Probably a hybrid between the closely related H attenuatum and H maculatum that originated in Siberia the species is now found worldwide It is native to temperate regions across Eurasia and North Africa and has been introduced to East Asia Australia New Zealand and parts of North and South America In many areas where it is not native H perforatum is considered a noxious weed It densely covers open areas to the exclusion of native plants and is poor grazing material As such methods for biocontrol have been introduced in an attempt to slow or reverse the spread of the species Hypericum perforatumScientific classificationKingdom PlantaeClade TracheophytesClade AngiospermsClade EudicotsClade RosidsOrder MalpighialesFamily HypericaceaeGenus HypericumSection Hypericum sect HypericumSpecies H perforatumBinomial nameHypericum perforatumL SubspeciesH p ssp perforatum H p ssp songaricum Ledeb ex Rchb N Robson H p ssp veronense Ledeb ex Rchb N Robson H p ssp chinense Schrank H Lindb SynonymsH officinale Gaterau H officinarum Crantz H vulgare Lam The species produces numerous chemical compounds that are highly active These chemicals are harmful to large animals especially sheep and help to deter herbivores from consuming the plant Other chemicals in the plant such as hypericin and hyperforin have various uses in medicine St John s wort has been used in traditional medicine since at least the first century AD often as a cure all or panacea The oil from its glands can be extracted or its above ground parts can be ground into a powder called herba hyperici In modern times its use as an antidepressant has been the focus of numerous studies and clinical trials however the active ingredients can be very harmful or even lethal when taken alongside other medicines Contents 1 Description 1 1 Flowering characteristics 1 2 Similar species 1 3 Phytochemistry 2 Taxonomy 2 1 Phylogeny 2 2 Etymology and common names 2 3 History 2 4 Subdivision 3 Ecology 3 1 Distribution 3 2 Habitat 3 3 Reproduction 3 4 Diseases 3 5 Herbivores 3 5 1 Toxicity 3 6 Invasiveness 4 Uses 4 1 Traditional medicine 4 2 Medical research 4 2 1 Antidepressant 4 2 2 Interactions and side effects 5 References 5 1 Citations 5 2 BibliographyDescription editHypericum perforatum is an herbaceous perennial plant with hairless glabrous stems and leaves 1 The root of each plant is slender and woody with many small fibrous small side roots and also extensive creeping rhizomes 2 The central root grows to a depth of 0 6 1 5 meters into the soil depending on conditions 3 The crown of the root is woody 2 nbsp Stem cross sectionIts stems are erect and branched in the upper section and usually range from 0 3 metres to 1 metre in height 3 The stems are woody near their base and look like they have segmented joints from the scars left behind after the leaves fall off 4 The stems of H perforatum are rusty yellow to rosy in color with two distinct edges and usually have bark that sheds near the base The stems persist through the winter and sprout new growth with flower buds in the following year first year growth does not produce flowers 2 nbsp Leaf showing translucent glands and dark glands near the edgesIt has leaves that attach on opposite sides of the stems without a stalk sessile The leaves vary in shape from being very narrow and almost grass like linear to a rounded oval slightly wider at the base with a rounded tip or not much of a tip elliptic or even narrow with the widest portion towards the end of the leaf like a reversed lance point but still long and narrow oblanceolate 2 The principle leaves range in length from 0 8 to 3 5 centimetres 1 and 0 31 1 6 centimetres in width 2 Leaves borne on the branches subtend the shortened branchlets The leaves are yellow green in color with scattered translucent dots of glandular tissue 5 6 The dots are clearly visible when held up to the light giving the leaves a perforated appearance 7 The edges margins of the leaves usually have scattered black dots often called dark glands though sometimes they will appear away from the edges 2 8 The odor of the plant is faint but aromatic resembling that of resins like balsam The taste of the plant is bitter and acrid 1 Flowering characteristics edit nbsp Blossom showing black colored dark glands at the edges of the petalsThe flowers are conspicuous and showy measuring about 1 5 2 5 cm across and are bright yellow with black dots along the edges of the petals 9 2 10 Each of the flowers normally has five large petals and five smaller leaf like sepals below them The sepals are about 4 5 mm in length green in color are shaped like the head of a spear lanceolate shape with a pointed tip and the same clear and black glands as the leaves The petals are significantly longer 8 12 mm in length and have an oblong shape They completely hide the sepals from the front side of the flower 11 The many bright yellow stamens are united at the base into three bundles 11 The stalk portion of the stamens the filaments vary in length and stick out in every direction from the center of the flower 2 The pollen grains are pale brown to orange in color 12 The flowers are arranged along one side of each flowering stem with two flowers at each node a helicoid cyme at the ends of the upper branches between late spring and early to mid summer 13 Each flowering stem bears many flowers between 25 and 100 and also is quite leafy 11 The fruit of Hypericum perforatum is a capsule 7 8 mm in length containing the seeds in three valved chambers 11 2 Seeds that are separated from the capsules have a much higher germination rate due to an inhibiting factor in the capsule itself 3 The black and lustrous seeds are rough netted with coarse grooves 14 Each seed is about 1 millimeter in size 11 Each plant may produce an average of 15 000 to 34 000 seeds 3 nbsp Full plant nbsp Seedlings nbsp Fruit nbsp Red staining liquid from a flower bud Similar species edit Hypericum maculatum is visually similar to Hypericum perforatum however its stems have four ridges instead of two and are also hollow In addition its leaves have fewer translucent glands and more dark glands H maculatum is native to the Old World but has also been introduced to North America 3 In North America several native species may be confused with Hypericum perforatum Hypericum anagalloides is a low growing creeping plant with rounder leaves and fewer stamens Hypericum boreale is a smaller plant with more delicate flowers Hypericum canadense has smaller flowers with sepals that show between the petals Hypericum concinnum has flowers with petals that bend backward at the tip and also has much narrower gray green leaves Growing in riparian areas along rivers Hypericum ellipticum has wider leaves with a more elliptic shape Hypericum scouleri has leaves that are broader at the base and also thicker All except for H concinnum grow in environments that are generally more moist than where H perforatum is found 3 Phytochemistry edit nbsp Chemical structure of hypericinThe most common active chemicals in Hypericum perforatum are hypericin and pseudohypericin naphthodianthrones and hyperforin a phloroglucinol derivative 13 15 16 It also contains a host of essential oils the bulk of which are sesquiterpenes 13 In the wild the concentrations of any active chemicals can vary widely among individual plants and populations 17 Comparison of selected chemical constituents of Hypericum perforatum 18 19 Compound Conc 18 20 log P PSA pKa Formula MW CYP1A2 Note 1 CYP2C9 Note 2 CYP2D6 Note 2 CYP3A4 Note 2 PGP Note 2 t1 2 20 h Tmax 20 h Cmax 20 mM CSS 20 mM Notes Biological activity Note 3 Phloroglucinols 2 5 Adhyperforin 0 2 1 9 10 13 71 4 8 51 C36H54O4 550 81 Hyperforin 2 4 5 9 7 13 71 4 8 51 C35H52O4 536 78 3 5 16 2 5 4 4 15 235 53 7 Naphthodianthrones 0 03 3 Hypericin 0 003 3 7 5 10 156 6 9 0 2 C30H16O8 504 44 0 3 4 mM 8 5 mM 8 7 mM 2 5 6 5 6 48 0 66 46 Pseudohypericin 0 2 0 23 6 7 1 8 176 7 16 C30H16O9 520 44 24 8 25 4 3 1 4 16 0 6 10 8 Flavonoids 2 12 Amentoflavone 0 01 0 05 3 1 5 1 174 2 39 C30H18O10 538 46 35 nM 24 3 mM 4 8 mM Apigenin 0 1 0 5 2 1 0 56 87 6 63 C15H10O5 270 24 Catechin 2 4 1 8 0 85 110 8 92 C15H14O6 290 27 Epigallocatechin 0 5 1 5 131 8 67 C15H14O6 290 27 1 7 0 4a 1 3 1 6a Hyperoside 0 5 2 1 5 1 7 174 6 17 C21H20O12 464 38 Kaempferol 2 1 0 6 107 6 44 C15H10O6 286 24 Luteolin 2 4 0 65 107 6 3 C15H10O6 286 24 Quercetin 2 4 2 2 1 5 127 6 44 C15H10O7 302 24 7 5 mM b 47 mM b 24 mM b 22 mM b 20 72c 8c Rutin 0 3 1 6 1 2 2 1 266 6 43 C27H30O16 610 52 Phenolic acids 0 1 Caffeic acid 0 1 1 4 0 4 77 8 3 64 C9H8O4 180 16 Chlorogenic acid lt 0 1 0 36 0 43 165 3 33 C16H18O9 354 31 0 0 0 0 Acronyms and symbols Acronym Symbol MeaningMW Molecular weight in g mol 1 PGP P glycoproteint1 2 Elimination half life in hoursTmax Time to peak plasma concentration in hoursCmax Peak plasma concentration in mMCSS Steady state plasma concentration in mMlog P displaystyle log P nbsp Partition coefficient PSA Polar surface area of the molecule in question in square angstroms A2 Obtained from PubChemConc These values pertain to the approximation concentration in of the constituents in the fresh plant material Indicates inhibition of the enzyme in question Indicates an inductive effect on the enzyme in question 0 No effect on the enzyme in question 5 HT 5 hydroxytryptamine synonym for serotonin DA DopamineNE NorepinephrineGABA g aminobutyric acidGlu GlutamateGly GlycineCh Cholinea b c Notes In brackets is the IC50 EC50 value depending on whether it is an inhibitory or inductive action being exhibited respectively a b c d As with last note Values given in brackets are IC50 EC50 depending on whether it is an inhibitory or inductive action the compound displays towards the biologic target in question If it pertains to bacterial growth inhibition the value is MIC50Taxonomy edit nbsp 1913 botanical illustration of H perforatum by Jost Fitschen in Pflanzen der HeimatHypericum perforatum was selected to be the type species around which the genus Hypericum is based because of its wide cosmopolitan distribution it is the most common species of the genus in many of the areas it is found and is one of the most widely known plants among the St John s worts in folklore and medicine 21 The current accepted placement of H perforatum within its genus can be summarized as follows 22 Hypericum Hypericum subg HypericumHypericum sect HypericumHypericum subsect HypericumHypericum ser Senanensia Hypericum ser HypericumH attenuatum H iwate littorale H maculatum H momoseanum H perforatum H scouleri H tetrapterum H tosaense H triquetrifolium H undulatum dd dd dd dd Phylogeny edit Hypericum perforatum has a chromosome count of 2n 32 The likely reason for this is that the species is a hybrid between the very closely related H maculatum subsp immaculatum and H attenuatum which means it inherited sets of chromosomes from both parents and is allopolyploid The two species almost certainly hybridized within Siberia Russia The equation for this hybridization is 21 H maculatum subsp immaculatum 16 H attenuatum 16 2 H perforatum 32 nbsp Hypericum desetangsii is a hybrid between H perforatum and H maculatum It displays intermediate traits of the two species Because of its hybrid origins Hypericum perforatum is one of the few species within its genus that is able to further hybridize with other species specifically those within H ser Hypericum The hybrids that are descended from H perforatum can be triploid 3 sets of chromosomes to hexaploid 6 sets depending on the chromosome count of the second parent species and the ploidy of the specific H perforatum gamete that is fertilized or is fertilizing The triploid offspring exhibit and a mix of traits from the two parents and pass them on to their offspring the tetraploids also have a mix of traits but often do not pass on the traits of both parents the pentaploids are rarely distinguishable from H perforatum Because of this after many generations of hybridization a wide range of traits on a spectrum between the two hybridizing species can be observed in the wild 23 Hybrids involving H perforatum 23 Crossed with Hybrid name Chromosome number a 1 H elegans H perforatum elegans 2n 32 H tetrapterum H medium 2n 24 H maculatum ssp maculatum H desetangsii nssp carinthiacum 2n 24 40H maculatum ssp immaculatum H desetangsii nssp balcanicum 2n 24 40 H maculatum ssp obtusiusculum H desetangsii nssp desetangsii 2n 40 Uncertainty in chromosome number notated by Etymology and common names edit The genus name Hypericum is possibly derived from the Greek words hyper above and eikon picture in reference to the tradition of hanging the plant over religious icons in the home 24 The specific epithet perforatum is Latin and refers to the perforated appearance of the plant s leaves 14 The common name St John s wort comes from the fact that its flowers and buds were commonly harvested at the time of the Midsummer festival which was later Christianized as St John s Feast Day on 24 June It was believed that harvesting the flower at this time made its healing and magical powers more potent The herb would be hung on house and stall doors on St John s Feast Day to ward off evil spirits and to safeguard against harm and sickness to people and livestock In other traditions it was burned in bonfires for the protection of crops along with other herbs believed to be magical 25 26 Because of its supposed potency in warding off spirits the plant was also known as fuga daemonum loosely demon flight 27 Many other similarly fanciful names have been used for it including devil s scourge Lord God s wonder plant and witch s herb 28 In medieval Kent it was called herbe Ion Ion in this case referring to John as recorded in the poem The Feate of Gardening 29 Other local names for Hypericum perforatum include balm of the warrior s wound in Somerset penny John in Norfolk rosin rose in Yorkshire and touch and heal in Northern Ireland 26 Locally in the United States it may also be referred to as Tipton weed goatweed or Klamath weed 30 31 In the 21st century any species of the genus Hypericum can be referred to as St John s wort Therefore it is more accurate to call Hypericum perforatum the common St John s wort or perforate St John s wort 27 1 History edit Hypericum perforatum has been known and used since at least the first century Pedanius Dioscorides an early pharmacologist referred to either it or H empetrifolium as akuron 27 The species was first formally described by Carl Linnaeus in the second tome of Species Plantarum in 1753 In it he gave the following brief description that would serve as the foundation for all subsequent identification of the species 32 HYPERICUM floribus trigynis caule ancipiti foliis obtusis pellucido punctatis Hypericum with flowers that have three pistils ancipital stems and obtuse leaves with pointed dots Linnaeus also noted the species habitat in the meadows of Europe and gave a short account of previous mentions of the plant 32 While Linnaeus taxonomic priority for this species is not in question there are a number of botanical synonyms that were published in the early years of formal botanical nomenclature Gaterau published Description des plantes qui croissent aux environs de Montauban in 1789 which described and called the species Hypericum officinale a name now considered to be illegitimate under the principle of priority Likewise the name Hypericum officinarum by Heinrich Johann Nepomuk von Crantz in 1763 also postdated Linnaeus 1753 naming and description and is considered invalid 33 Subdivision edit nbsp H perforatum ssp veronenseHypericum perforatum exhibits a great deal of variability in its appearance across its distribution Thus determining the exact nature of its infraspecific taxa is difficult because of the many intermediate forms that exist 34 H perforatum subspecies perforatum Stjep Vesel is the type form of the species It is distributed from the origin of the species in Siberia west to central Europe and east to northern Mongolia The base changes as the plant grows from round to a broad wedge shape and the seed capsule vittae are present throughout the plant s life cycle and are almost always narrow H perforatum variety angustifolium DC is a variety of the species that is found in drier climates within the range of ssp perforatum It has leaves that look more like those of ssp veronense but they have leaf stalks the glands on the seed capsule are also distinct 34 H perforatum var humile Stranski can be found in parts of the southern Balkans These plants possess smaller more ring shaped leaves and the seed capsules have flattish vesicles on their surface These appear to be adaptations of ssp perforatum in response to the mountainous habitats of the region 35 H perforatum ssp songaricum is likely the most primitive after ssp perforatum Previously described as a variety by Karl Koch Norman Robson elevated the taxon to subspecies in his monograph of the genus The leaves are sessile and have a heart shaped base that partially surrounds the stem 35 H perforatum var gracile has smaller leaves and is found in western Kazakhstan southern Russia and southern Ukraine In the drier areas of this range the variety exhibits a dull grey green color on the underside of its leaves 35 H perforatum ssp veronense can be found in the Caucasus across the Middle East to Tajikistan and along North Africa to Macaronesia These plants have narrower leaves and display diagonal vittae on the seed capsules Where it meets the distribution of ssp perforatum the two subspecies hybridize regularly 35 H perforatum var ellipticum retains the diagonal vittae of the subspecies but the leaves are not as narrow The variety is distributed in areas with greater moisture such as in the mountainous areas of Turkmenistan 35 H perforatum ssp chinense is found across most of China and was introduced into Japan under the synonym H foliosissimum Koidz Both its leaves and flowers are smaller and the flower clusters are smaller and more crowded on the ends of longer branches 35 Ecology editH perforatum is native to temperate parts of Europe and Asia but has spread to temperate regions worldwide as an invasive weed 36 37 Distribution edit nbsp Country level distribution of Hypericum perforatum based on data from the Royal Botanic Gardens KewHypericum perforatum is thought to be native to every nation in Europe and is only absent from the far north such as north European Russia and Svalbard It grows in parts of North Africa and is native to Morocco Algeria Tunisia and Sudan 33 In the Arabian Peninsula it only grows in parts of Saudi Arabia It is present and native to all of the Western Asia phytogeographic region from the Aegean Islands and Turkey to Israel and Palestine in the west to Afghanistan in the east only being absent from the Sinai Peninsula Just to the east of this area it is also native to Pakistan and the western Himalaya region of India 33 In the temperate parts of Asia Hypericum perforatum is mostly absent from Siberia with the exception of western Siberia the Altai Region and the warmest parts of Krasnoyarsk Krai It has also been introduced to Irkutsk and Buryatiya It is a native part of the flora of Central Asia growing in all the former Soviet republics It also is known in almost every part of the Caucasus In China it is native to Xinjiang western China central China and southern China but not to Inner Mongolia Manchuria or Tibet In the far east of Asia it has been introduced to Primorye in Russia Korea and Japan 33 38 In North America it is found in all of the continental US states except for Utah Arizona Florida and Alabama It has also been introduced to the Canadian provinces of British Columbia Manitoba Ontario Quebec and the maritime provinces besides Labrador 39 It has also been introduced to Hawaii Cuba and Haiti 33 In South America it is found in Argentina Chile Uruguay the Juan Fernandez Islands and the more temperate parts of Brazil in the southeast In the southern parts of Africa it has become established in South Africa Lesotho and Reunion In Australia it is now found in the states of South Australia Tasmania Victoria and Western Australia It has also been introduced to both the North and South Islands of New Zealand 33 Habitat edit The species can be found in a variety of habitats including open woods meadows grasslands steppe riverbanks and stony or grassy hillsides and roadsides It prefers dry habitats or areas with strong drainage 34 The species thrives in areas with at least 760 mm of rainfall per year however its distribution is restricted by temperatures too low for seed germination or seedling survival an absolute minimum of 3 C or an annual average of 9 C 36 Altitudes greater than 1 500 metres 4 900 ft rainfall less than 500 millimetres 20 in and daily mean temperatures greater than 24 C 75 F are also considered limiting thresholds 40 Reproduction edit nbsp Bombus terrestris pollinating the flowers of Hypericum perforatumSt John s wort reproduces both vegetatively and sexually Depending on environmental and climatic conditions and the age of the plant St John s wort will alter the way it grows to promote survival Summer rains are particularly effective in allowing the plant to grow vegetatively following defoliation by insects or grazing 40 St John s wort may also produce viable seeds without fertilization 3 Its seeds can persist for decades while lying dormant underground in an ecosystem s soil seed bank germinating after they are disturbed 41 36 Diseases edit H perforatum is affected by phytoplasma diseases and when infected with Candidatus phytoplasma fraxini it shows visible symptoms including yellowing and deformities called witch s broom Its chemical profile is also altered naphthodianthrone flavonoid amentoflavone and pseudohypericin levels are reduced chlorogenic acid levels are increased Additionally phytoplasma diseases greatly reduce the essential oil yield of the plant 42 Dieback among populations of St John s wort is also caused by fungal anthracnose such as Colletotrichum gloeosporioides This fungus causes the stems to lose their bark girdling and turn brown and dries the aboveground parts of the plant The infection often kills the plant within the first year of its growth or reduces productivity over a three year deterioration 43 Herbivores edit Though Hypericum perforatum is generally avoided by mammalian herbivores a number of insects are dependent on it and its close relatives as a food source Chrysolina quadrigemina and C hyperici are two beetle species that feed on plants from the genus Hypericum including H perforatum Chrysolina quadrigemina can be colored metallic blue purple green or bronze and is better adapted to warm and dry climates Chrysolina hyperici is consistently smaller metallic green and tends to live in areas with wetter and cooler conditions 44 Another Hyericum specialist beetle is Agrilus hyperici the St John s wort root borer whose larvae feed on the roots of H perforatum while the adults feed on the foliage 45 A moth Aplocera plagiata feeds heavily upon the leaves of H perforatum as a caterpillar and is commonly known as the common St John s wort inchworm As adults they are a small moth with gray wings and dark gray bands 3 Another moth that feeds upon H perforatum is Euspilapteryx auroguttella Their caterpillars start by mining the inside of the leaves and later roll the leaves into cigar shapes to feed in greater safety 46 47 Agonopterix hypericella is another small 17 mm gray moth that exclusively feeds upon Hypericum 48 47 Zeuxidiplosis giardi the common St Johnswort gall midge is a small 3 mm fly that eats H perforatum while developing The larvae feed upon leaf buds which causes the plant to form a round growth called a gall where the developing insect can feed is protected and pupates into a mature adult 3 Toxicity edit Hypericum perforatum is toxic to numerous domestic animals such as cows sheep and horses When these animals come into contact with the plant usually through grazing they develop serious symptoms The first signs are reddening of the skin accompanied by swelling which is followed by necrosis and sloughing of the skin Non pigmented white skin is most affected by the poisoning such as the nose and ears of certain breeds of sheep 49 Young animals are more susceptible to H perforatum poisoning and the plant is most toxic in spring when it is the most palatable to herbivores and retains its toxic effects when dried in hay 50 Additionally affected animals will become highly photosensitive and exposure to sunlight can exacerbate their symptoms As such they should be moved to a dark area administering of antihistamines or anti inflammatory medicines may also help alleviate the symptoms 49 Invasiveness edit nbsp Hypericum perforatum in Belair National Park South AustraliaAlthough H perforatum is grown commercially in some regions of southeast Europe it is listed as a noxious weed in more than twenty countries and has introduced populations in South and North America India New Zealand Australia and South Africa 36 41 In pastures St John s wort acts as both a toxic and invasive weed It replaces native plant communities and forage vegetation to the extent of making productive land nonviable or becoming an invasive species in natural habitats and ecosystems 51 Effective herbicides for control of Hypericum perforatum include 2 4 D picloram metsulfuron and glyphosate 3 Insect herbivores have also been introduced as biocontrol agents in areas outside their native range Some of the most widely used are Chrysolina quadrigemina Chrysolina hyperici Agrilus hyperici Aplocera plagiata and Zeuxidiplosis giardi 52 3 Uses editTraditional medicine edit nbsp Dried Hypericum perforatum for use as an herbal drug called herba hyperici Common St John s wort has been used in herbalism for centuries 53 It was thought to have medical properties in classical antiquity and was a standard component of ancient concoctions called theriacs from the Mithridate of Aulus Cornelius Celsus De Medicina c 30 CE to the Venice treacle of d Amsterdammer Apotheek in 1686 54 55 One folk use included the oily extract known as St John s oil a red oily liquid extracted from H perforatum that may have been a treatment for wounds by the Knights Hospitaller the Order of St John 56 Another part of the plant that is used is the dried flower structure which is turned into a product known as herba hyperici by crushing 57 Medical research edit Antidepressant edit Further information Hyperforin nbsp Hyperforin a phytochemical produced by St John s wort may be responsible for the plant s antidepressant properties 58 Some studies and research reviews have supported the efficacy of St John s wort as a treatment for depression in humans 53 A 2015 meta analysis review concluded that it has superior efficacy to placebo in treating depression is as effective as standard antidepressant pharmaceuticals for treating depression and has fewer adverse effects than other antidepressants 59 The authors concluded that it is difficult to assign a place for St John s wort in the treatment of depression owing to limitations in the available evidence base including large variations in efficacy seen in trials performed in German speaking countries relative to other countries A 2008 Cochrane review of 29 clinical trials concluded that it was superior to placebo in patients with major depression as effective as standard antidepressants and had fewer side effects 60 A 2016 review noted that use of St John s wort for mild and moderate depression was better than placebo for improving depression symptoms and comparable to antidepressant medication 61 A 2017 meta analysis found that St John s wort had comparable efficacy and safety to SSRIs for mild to moderate depression and a lower discontinuation rate 62 According to the United States National Center for Complementary and Integrative Health St John s wort appears to be more effective than placebo and as effective as standard antidepressant medications for mild and moderate depression and that it is uncertain whether this is true for severe depression or for longer than 12 weeks 53 In the United States St John s wort is considered a dietary supplement by the FDA and is not regulated by the same standards as a prescription drug 63 In China St John s wort combined with Eleutherococcus senticosus is sold as an antidepressant under the name Shugan Jieyu Jiaonang Chinese 舒肝解郁胶囊 lit Liver Soothing Depression Relief Capsules according to the Pharmacopoeia of the People s Republic of China The pharmacopoeia states that it is used for mild to moderate unipolar depression 64 In some European nations the use of Hypericum perforatum for medicinal purposes is restricted because of its classification as a drug 65 Interactions and side effects edit St John s wort can interfere in potentially life endangering ways with the effects of prescription and over the counter drugs 53 It mainly does this by increasing CYP3A4 and CYP2C9 enzymes in the liver leading to faster conversion of drugs 66 The increase in these enzymes have been found to be caused by high hyperforin content consumption of St John s wort products with minimal hyperforin causes fewer side effects and less interference 67 However the concentration of St John s wort s constituent chemicals including hyperforin can vary widely between different products 68 and their dosage may not be properly marked on packaging 67 In particular St John s wort products can reduce the effectiveness of medicines like birth control pills heart medications HIV drugs cancer medications and some anticoagulants 53 The most common side effects of St John s wort products are stomach pain fatigue and restlessness Other more rare effects include photosensitivity and skin irritation breakthrough bleeding when taking oral contraceptives and decreased effectiveness of immunosuppressants in those who have had organ transplants 68 References editCitations edit a b c d WHO 2002 WHO Monographs on Selected Medicinal Plants 2 2002 V 357 S graph Darst Geneva Switzerland World Health Organization pp 149 165 ISBN 9241545372 Retrieved 28 July 2023 a b c d e f g h i Gillett JM 1981 The St John s Worts of Canada Guttiferae Ottawa Canada National Museums of Canada National Museum of Natural Sciences pp 25 26 ISBN 978 0 660 10323 5 Retrieved 27 July 2023 a b c d e f g h i j k Winston R Randall CB Schwarzlander M Reardon R 2010 Biology and Biological Control of Common St Johnswort Morgantown West Virginia U S Dept of Agriculture Forest Service FHTET Retrieved 2 August 2023 James L Stubbendieck Stephan L Hatch L M Landholt 2003 North American Wildland Plants A Field Guide illustrated ed University of Nebraska Press p 323 ISBN 978 0 8032 9306 9 Soelberg J Jorgensen LB Jager AK 26 January 2007 Hyperforin Accumulates in the Translucent Glands of Hypericum perforatum Annals of Botany 99 6 1097 1100 doi 10 1093 aob mcm057 PMC 3243575 PMID 17468113 Ciccarelli D October 2001 Translucent Glands and Secretory Canals in Hypericum perforatum L Hypericaceae Morphological Anatomical and Histochemical Studies During the Course of Ontogenesis PDF Annals of Botany 88 4 637 644 doi 10 1006 ANBO 2001 1514 Retrieved 28 July 2023 Fritsch FE Salisbury EJ 1920 An Introduction to the Structure and Reproduction of Plants London G Bell and Sons Ltd p 151 Retrieved 28 July 2023 Zobayed SM Afreen F Goto E Kozai T 1 October 2006 Plant Environment Interactions Accumulation of Hypericin in Dark Glands of Hypericum perforatum Annals of Botany 98 4 793 804 doi 10 1093 aob mcl169 PMC 2806163 PMID 16891333 Chen S Hamer D 2003 Common St John s Wort A Field Guide to Non Native Species of Eastern Massachusetts Brandeis University Retrieved 29 July 2023 Stace CA 2010 New Flora of the British Isles Third ed Cambridge U K Cambridge University Press p 339 ISBN 978 0 521 70772 5 a b c d e Hypericum perforatum subsp perforatum The Jepson Herbarium University of California Berkeley 2023 Retrieved 29 July 2023 Hypericum perforatum Pollen Atlas Retrieved 27 September 2023 a b c Mehta S 18 December 2012 Pharmacognosy of St John s Wort Pharmaxchange info Retrieved 16 February 2014 a b Merrit Lyndon Fernald 1970 R C Rollins ed Gray s Manual of Botany Eighth Centennial Illustrated ed D Van Nostrand Company p 1010 ISBN 978 0 442 22250 5 Umek A Kreft S Kartnig T Heydel B 1999 Quantitative phytochemical analyses of six hypericum species growing in slovenia Planta Med 65 4 388 90 doi 10 1055 s 2006 960798 PMID 17260265 S2CID 260248637 Tatsis EC Boeren S Exarchou V Troganis AN Vervoort J Gerothanassis IP 2007 Identification of the major constituents of Hypericum perforatum by LC SPE NMR and or LC MS Phytochemistry 68 3 383 93 Bibcode 2007PChem 68 383T doi 10 1016 j phytochem 2006 11 026 PMID 17196625 S2CID 28120366 Ernst 2003 p 65 a b Barnes J Anderson L A Phillipson J D 2007 1996 Herbal Medicines PDF 3rd ed London UK Pharmaceutical Press ISBN 978 0 85369 623 0 Archived from the original PDF on 1 July 2018 Retrieved 7 February 2015 St John s wort Natural Standard Cambridge MA Retrieved 13 December 2013 a b c d e Anzenbacher P Zanger UM eds 2012 Metabolism of Drugs and Other Xenobiotics Weinheim Germany Wiley VCH doi 10 1002 9783527630905 ISBN 978 3 527 63090 5 a b Ernst 2003 p 19 Robson 2002 p 62 a b Robson 2002 p 64 Coombes AJ 2012 The A to Z of plant names a quick reference guide to 4000 garden plants Portland Oregon Timber Press Inc p 172 ISBN 978 1 60469 196 2 Trickey Bapty C 2001 Martyrs and miracles New York Testament Books p 132 ISBN 9780517164037 Retrieved 26 July 2023 a b Grigson G 1960 The Englishman s Flora 2nd ed London Phoenix House Ltd pp 75 79 Retrieved 10 August 2023 a b c Ernst 2003 p 2 World Health Organization p 149 Cecil E 1896 A history of Gardening in England London Bernard Quaritch pp 71 72 Retrieved 26 July 2023 Charles Vancouver Piper Rolla Kent Beattie 1915 Flora of the Northwest Coast Press of the New era printing Company p 240 Hypericum perforatum Plant Finder St Louis Missouri Missouri Botanical Garden Retrieved 1 August 2023 a b Linne C Salvius L 1753 Species plantarum Holmiae Impensis Laurentii Salvii p 785 doi 10 5962 bhl title 669 a b c d e f Hypericum perforatum L Plants of the World Online Royal Botanic Gardens Kew Retrieved 1 August 2023 a b c Robson 2002 p 88 a b c d e f Robson 2002 p 89 a b c d Ian Popay 22 June 2015 Hypericum perforatum St John s wort CABI Retrieved 2 December 2018 Hypericum perforatum L Retrieved 19 August 2015 Registry Migration Gbif Org 2022 Hypericum perforatum L GBIF Secretariat Global Biodiversity Information Facility doi 10 15468 39omei Retrieved 1 August 2023 Hypericum perforatum USDA Natural Resources Conservation Service PLANTS Profile 1 August 2023 a b Ramawat Kishan Gopal Bioactive Molecules and Medicinal Plants Springer Science amp Business Media 2008 p 152 ISBN 978 3 540 74603 4 a b SPECIES Hypericum perforatum PDF Fire Effects Information System Marcone C Bellardi M Bertaccini A 2016 Phytoplasma diseases of medicinal and aromatic plants Journal of Plant Pathology 98 3 379 404 doi 10 4454 JPP V98I3 060 JSTOR 44280481 Ernst 2003 pp 23 41 Harris P Peschkin DP 1974 Biologcal Control of St Johns Wort Canada Agriculture Ottawa Canada Canada Department of Agriculture 19 1 13 15 Copping L ed 2004 The manual of biocontrol agents a world compendium Third ed Alton Hampshire United Kingdom British Crop Protection Council pp 270 271 ISBN 1 901396 35 5 Retrieved 2 August 2023 bladmineerders nl bladmineerders nl Archived from the original on 4 March 2016 Retrieved 18 January 2019 a b Shield R 1856 Practical Hints Respecting Moths and Butterflies With Notices of Their Localities Forming a Calendar of Entomological Operations Throughout the Year in Pursuit of Lepidoptera London John Van Voorst pp 7 42 59 83 101 Retrieved 10 August 2023 Agonopterix hypericella Insecta Lepidoptera Depressariidae Svenska Fjarilar Naturhistoriska Riksmuseet Retrieved 10 August 2023 a b Guide to Poisonous Plants College of Veterinary Medicine and Biomedical Sciences Colorado State University poisonousplants cvmbs colostate edu Retrieved 23 September 2023 Protect Your Horses and Livestock From Toxic Plants PDF Washington State Noxious Weed Control Board 2017 p 49 St John s wort Hypericum perforatum North West Weeds Archived from the original on 31 March 2016 Retrieved 19 October 2015 Harper JL 2010 Population Biology of Plants Blackburn Press ISBN 978 1 932846 24 9 page needed a b c d e St John s Wort National Center for Complementary and Integrative Health US National Institutes of Health October 2020 Retrieved 3 September 2023 Mayor A 1 January 2019 Wexler P ed Chapter 11 Mithridates of Pontus and His Universal Antidote Toxicology in Antiquity Second Edition History of Toxicology and Environmental Health Academic Press pp 161 174 doi 10 1016 b978 0 12 815339 0 00011 1 ISBN 978 0 12 815339 0 retrieved 27 September 2023 Karamanou M Androutsos G 1 January 2019 Wexler P ed Chapter 12 Theriaca Magna The Glorious Cure All Remedy Toxicology in Antiquity Second Edition History of Toxicology and Environmental Health Academic Press pp 175 184 doi 10 1016 b978 0 12 815339 0 00012 3 ISBN 978 0 12 815339 0 retrieved 27 September 2023 Suntar IP Akkol EK Yilmazer D et al 2010 Investigations on the in vivo wound healing potential of Hypericum perforatum L Journal of Ethnopharmacology 127 2 468 77 doi 10 1016 j jep 2009 10 011 PMID 19833187 World Health Organization pp 149 151 Gaid M Biedermann E Fuller J et al 1 May 2018 Biotechnological production of hyperforin for pharmaceutical formulation European Journal of Pharmaceutics and Biopharmaceutics Innovative Processes for Bio Pharmaceuticals and Poorly Water Soluble API 126 10 26 doi 10 1016 j ejpb 2017 03 024 ISSN 0939 6411 PMID 28377273 S2CID 4701643 Linde K Kriston L Rucker G Jamila S Schumann I Meissner K Sigterman K Schneider A February 2015 Efficacy and acceptability of pharmacological treatments for depressive disorders in primary care systematic review and network meta analysis Annals of Family Medicine 13 1 69 79 doi 10 1370 afm 1687 PMC 4291268 PMID 25583895 Linde K Berner MM Kriston L 2008 Linde K ed St John s wort for major depression Cochrane Database Syst Rev 2008 4 CD000448 doi 10 1002 14651858 CD000448 pub3 PMC 7032678 PMID 18843608 Apaydin EA Maher AR Shanman R et al 2016 A systematic review of St John s wort for major depressive disorder Syst Rev 5 1 148 doi 10 1186 s13643 016 0325 2 PMC 5010734 PMID 27589952 Ng QX Venkatanarayanan N Ho CY March 2017 Clinical use of Hypericum perforatum St John s wort in depression A meta analysis Journal of Affective Disorders 210 211 221 doi 10 1016 j jad 2016 12 048 PMID 28064110 Peterson B Nguyen H 2023 St John s Wort StatPearls Treasure Island FL StatPearls Publishing PMID 32491397 retrieved 4 August 2023 舒肝解郁胶囊 中国药典 药品标准 法规在线查询 Shugan Jieyu Capsules Chinese Pharmacopoeia drug standards and regulations db ouryao com in Chinese 2020 Retrieved 26 November 2022 Nicolussi S Drewe J Butterweck V Meyer zu Schwabedissen HE 2020 Clinical relevance of St John s wort drug interactions revisited British Journal of Pharmacology 177 6 1212 1226 doi 10 1111 bph 14936 ISSN 0007 1188 PMC 7056460 PMID 31742659 Komoroski BJ Zhang S Cai H Hutzler JM et al 2004 Induction and inhibition of cytochromes P450 by the St John s wort constituent hyperforin in human hepatocyte cultures Drug Metabolism and Disposition The Biological Fate of Chemicals 32 5 512 518 doi 10 1124 dmd 32 5 512 ISSN 0090 9556 PMID 15100173 a b Chrubasik Hausmann S Vlachojannis J McLachlan AJ 9 December 2018 Understanding drug interactions with St John s wort Hypericum perforatum L impact of hyperforin content Journal of Pharmacy and Pharmacology 71 1 129 138 doi 10 1111 jphp 12858 ISSN 2042 7158 PMID 29411879 S2CID 46807341 a b Nicolussi S Drewe J Butterweck V Meyer H 19 November 2019 Clinical relevance of St John s wort drug interactions revisited British Journal of Pharmacology 177 6 1212 1226 doi 10 1111 bph 14936 PMC 7056460 PMID 31742659 Bibliography edit Ernst E 2003 Hypericum the genusHypericum Medicinal and Aromatic Plants Industrial Profiles Vol 31 London Taylor amp Francis ISBN 9781420023305 WHO 2002 WHO Monographs on Selected Medicinal Plants Vol 2 Geneva Switzerland World Health Organization pp 149 165 ISBN 9241545372 Robson N 2002 Studies in the genus Hypericum L Guttiferae 4 2 Section 9 Hypericum sensu lato part 2 subsection 1 Hypericum series 1 Hypericum Bulletin of the British Museum Natural History Botany 32 61 123 via Biodiversity Heritage Library Retrieved from https en wikipedia org w index php title Hypericum perforatum amp oldid 1201883066, wikipedia, wiki, book, books, library,

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