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Uric acid

April 09, 2024

Not to be confused with uronic acid or urea.

Uric acid is a heterocyclic compound of carbon, nitrogen, oxygen, and hydrogen with the formula C5H4N4O3. It forms ions and salts known as urates and acid urates, such as ammonium acid urate. Uric acid is a product of the metabolic breakdown of purine nucleotides, and it is a normal component of urine. High blood concentrations of uric acid can lead to gout and are associated with other medical conditions, including diabetes and the formation of ammonium acid urate kidney stones.

Uric acid

Crystals of urate in polarized light
Names
Preferred IUPAC name
7,9-Dihydro-1H-purine-2,6,8(3H)-trione
Other names
2,6,8-Trioxypurine; 2,6,8-Trihydroxypurine; 2,6,8-Trioxopurine; 1H-Purine-2,6,8-trione
Identifiers
  • 69-93-2 Y
3D model (JSmol)
  • lactam form: Interactive image
  • intermediate form: Interactive image
  • lactim form: Interactive image
  • urate monoanion: Interactive image
3DMet
  • B00094
156158
ChEBI
  • CHEBI:27226 N
ChEMBL
  • ChEMBL792 Y
ChemSpider
  • 1142 Y
DrugBank
  • DB01696 Y
ECHA InfoCard 100.000.655
EC Number
  • 200-720-7
  • 4731
KEGG
  • C00366 N
MeSH Uric+Acid
  • 1175
UNII
  • 268B43MJ25 Y
  • DTXSID3042508
  • InChI=1S/C5H4N4O3/c10-3-1-2(7-4(11)6-1)8-5(12)9-3/h5,12H,(H,9,10)(H,7,8,11) N
    Key: DZGSAURIFGGOJK-UHFFFAOYSA-N N
  • lactam form: O=C1Nc2nc(=O)nc2C(=O)N1
  • intermediate form: Oc0nc(O)nc1c0NC(=O)N1
  • lactim form: Oc0nc(O)nc1c0N=C(O)N1
  • urate monoanion: Oc0nc(O)nc1c0N=C([O-])N1
Properties
C5H4N4O3
Molar mass 168.112 g·mol−1
Appearance White crystals
Melting point 300 °C (572 °F; 573 K)
6 mg/100 mL (at 20 °C)
log P −1.107
Acidity (pKa) 5.6
Basicity (pKb) 8.4
−6.62×10−5 cm3 mol−1
Thermochemistry
166.15 J K−1 mol−1 (at 24.0 °C)
173.2 J K−1 mol−1
−619.69 to −617.93 kJ mol−1
−1921.2 to −1919.56 kJ mol−1
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
N verify (what is YN ?)

Chemistry edit

Uric acid was first isolated from kidney stones in 1776 by Swedish chemist Carl Wilhelm Scheele.[1] In 1882, the Ukrainian chemist Ivan Horbaczewski first synthesized uric acid by melting urea with glycine.[2]

Uric acid displays lactam–lactim tautomerism.[3]). Uric acid crystallizes in the lactam form,[4] with computational chemistry also indicating that tautomer to be the most stable.[5] Uric acid is a diprotic acid with pKa1 = 5.4 and pKa2 = 10.3.[6] Thus at physiological pH, urate predominates in solution.

Tautomers of uric acid and urate
 
 		   pKa1
 		  
Lactam form Lactim form Urate ion

Water solubility edit

In general, the water solubility of uric acid and its alkali metal and alkaline earth salts is rather low. All these salts exhibit greater solubility in hot water than cold, allowing for easy recrystallization. This low solubility is significant for the etiology of gout. The solubility of the acid and its salts in ethanol is very low or negligible. In ethanol/water mixtures, the solubilities are somewhere between the end values for pure ethanol and pure water.

Solubility of urate salts (grams of water per gram of compound)
Compound Cold water Boiling water
Uric acid 15,000 2,000
Ammonium hydrogen urate 1,600
Lithium hydrogen urate 370 39
Sodium hydrogen urate 1,175 124
Potassium hydrogen urate 790 75
Magnesium dihydrogen diurate 3,750 160
Calcium dihydrogen diurate 603 276
Disodium urate 77
Dipotassium urate 44 35
Calcium urate 1,500 1,440
Strontium urate 4,300 1,790
Barium urate 7,900 2,700

The figures given indicate what mass of water is required to dissolve a unit mass of compound indicated. The lower the number, the more soluble the substance in the said solvent.[7][8][9]

Biochemistry edit

The enzyme xanthine oxidase (XO) catalyzes the formation of uric acid from xanthine and hypoxanthine. XO, which is found in mammals, functions primarily as a dehydrogenase and rarely as an oxidase, despite its name.[10]) Xanthine in turn is produced from other purines. Xanthine oxidase is a large enzyme whose active site consists of the metal molybdenum bound to sulfur and oxygen.[11] Uric acid is released in hypoxic conditions (low oxygen saturation).[12]

Genetic and physiological diversity edit

Primates edit

In humans uric acid (actually hydrogen urate ion) is the final oxidation (breakdown) product of purine metabolism and is excreted in urine, whereas in most other mammals, the enzyme uricase further oxidizes uric acid to allantoin.[13] The loss of uricase in higher primates parallels the similar loss of the ability to synthesize ascorbic acid, leading to the suggestion that urate may partially substitute for ascorbate in such species.[14] Both uric acid and ascorbic acid are strong reducing agents (electron donors) and potent antioxidants. In humans, over half the antioxidant capacity of blood plasma comes from hydrogen urate ion.[15]

Humans edit

The normal concentration range of uric acid (or hydrogen urate ion) in human blood is 25 to 80 mg/L for men and 15 to 60 mg/L for women[16] (but see below for slightly different values). An individual can have serum values as high as 96 mg/L and not have gout.[17] In humans, about 70% of daily uric acid disposal occurs via the kidneys, and in 5–25% of humans, impaired renal (kidney) excretion leads to hyperuricemia.[18] Normal excretion of uric acid in the urine is 270 to 360 mg per day (concentration of 270 to 360 mg/L if one litre of urine is produced per day – higher than the solubility of uric acid because it is in the form of dissolved acid urates), roughly 1% as much as the daily excretion of urea.[19]

Dogs edit

The Dalmatian has a genetic defect in uric acid uptake by the liver and kidneys, resulting in decreased conversion to allantoin, so this breed excretes uric acid, and not allantoin, in the urine.[20]

Birds, reptiles and desert-dwelling mammals edit

In birds and reptiles, and in some desert-dwelling mammals (such as the kangaroo rat), uric acid also is the end product of purine metabolism, but it is excreted in feces as a dry mass. This involves a complex metabolic pathway that is energetically costly in comparison to processing of other nitrogenous wastes such as urea (from the urea cycle) or ammonia, but has the advantages of reducing water loss and preventing dehydration.[21]

Invertebrates edit

Platynereis dumerilii, a marine polychaete worm, uses uric acid as a sexual pheromone. The female of the species releases uric acid into the water during mating, which induces males to release sperm.[22]

Genetics edit

Although foods such as meat and seafood can elevate serum urate levels, genetic variation is a much greater contributor to high serum urate.[23][24] A proportion of people have mutations in the urate transport proteins responsible for the excretion of uric acid by the kidneys. Variants of a number of genes, linked to serum urate, have so far been identified: SLC2A9; ABCG2; SLC17A1; SLC22A11; SLC22A12; SLC16A9; GCKR; LRRC16A; and PDZK1.[25][26][27] GLUT9, encoded by the SLC2A9 gene, is known to transport both uric acid and fructose.[18][28][29]

Myogenic hyperuricemia, as a result of the Purine Nucleotide Cycle running when ATP reservoirs in muscle cells are low, is a common pathophysiologic feature of glycogenoses such as GSD-III, GSD-V and GSD-VII, as they are metabolic myopathies which impair the ability of ATP (energy) production for the muscle cells to use.[30] In these metabolic myopathies, myogenic hyperuricemia is exercise-induced; inosine, hypoxanthine and uric acid increase in plasma after exercise and decrease over hours with rest.[30] Excess AMP (adenosine monophosphate) is converted into uric acid.

AMP → IMP → Inosine → Hypoxanthine → Xanthine → Uric Acid

Clinical significance and research edit

In human blood plasma, the reference range of uric acid is typically 3.4–7.2 mg per 100 mL(200–430 μmol/L) for men, and 2.4–6.1 mg per 100 mL for women (140–360 μmol/L).[31] Uric acid concentrations in blood plasma above and below the normal range are known as, respectively, hyperuricemia and hypouricemia. Likewise, uric acid concentrations in urine above and below normal are known as hyperuricosuria and hypouricosuria. Uric acid levels in saliva may be associated with blood uric acid levels.[32]

High uric acid edit

Hyperuricemia (high levels of uric acid), which induces gout, has various potential origins:

Gout edit

Main article: Gout

A 2011 survey in the United States indicated that 3.9% of the population had gout, whereas 21.4% had hyperuricemia without having symptoms.[40]

Excess blood uric acid (serum urate) can induce gout,[41] a painful condition resulting from needle-like crystals of uric acid termed monosodium urate crystals[42] precipitating in joints, capillaries, skin, and other tissues.[43] Gout can occur where serum uric acid levels are as low as 6 mg per 100 mL (357 μmol/L), but an individual can have serum values as high as 9.6 mg per 100 mL (565 μmol/L) and not have gout.[17]

In humans, purines are metabolized into uric acid, which is then excreted in the urine. Consumption of large amounts of some types of purine-rich foods, particularly meat and seafood, increases gout risk.[44] Purine-rich foods include liver, kidney, and sweetbreads, and certain types of seafood, including anchovies, herring, sardines, mussels, scallops, trout, haddock, mackerel, and tuna.[45] Moderate intake of purine-rich vegetables, however, is not associated with an increased risk of gout.[44]

One treatment for gout in the 19th century was administration of lithium salts;[46] lithium urate is more soluble. Today, inflammation during attacks is more commonly treated with NSAIDs, colchicine, or corticosteroids, and urate levels are managed with allopurinol.[47] Allopurinol, which weakly inhibits xanthine oxidase, is an analog of hypoxanthine that is hydroxylated by xanthine oxidoreductase at the 2-position to give oxipurinol.[48]

Tumor lysis syndrome edit

Tumor lysis syndrome, an emergency condition that may result from blood cancers, produces high uric acid levels in blood when tumor cells release their contents into the blood, either spontaneously or following chemotherapy.[38] Tumor lysis syndrome may lead to acute kidney injury when uric acid crystals are deposited in the kidneys.[38] Treatment includes hyperhydration to dilute and excrete uric acid via urine, rasburicase to reduce levels of poorly soluble uric acid in blood, or allopurinol to inhibit purine catabolism from adding to uric acid levels.[38]

Lesch–Nyhan syndrome edit

Lesch–Nyhan syndrome, a rare inherited disorder, is also associated with high serum uric acid levels.[49] Spasticity, involuntary movement, and cognitive retardation as well as manifestations of gout are seen in this syndrome.[50]

Cardiovascular disease edit

Hyperuricemia is associated with an increase in risk factors for cardiovascular disease.[51] It is also possible that high levels of uric acid may have a causal role in the development of atherosclerotic cardiovascular disease, but this is controversial and the data are conflicting.[52]

Uric acid stone formation edit

 
Comparison of different types of urinary crystals.

Kidney stones can form through deposits of sodium urate microcrystals.[53]

Saturation levels of uric acid in blood may result in one form of kidney stones when the urate crystallizes in the kidney. These uric acid stones are radiolucent, so do not appear on an abdominal plain X-ray.[54] Uric acid crystals can also promote the formation of calcium oxalate stones, acting as "seed crystals".[55]

Diabetes edit

Hyperuricemia is associated with components of metabolic syndrome, including in children.[56][57]

Low uric acid edit

Low uric acid (hypouricemia) can have numerous causes. Low dietary zinc intakes cause lower uric acid levels. This effect can be even more pronounced in women taking oral contraceptive medication.[58] Sevelamer, a drug indicated for prevention of hyperphosphataemia in people with chronic kidney failure, can significantly reduce serum uric acid.[59]

Multiple sclerosis edit

Meta-analysis of 10 case-control studies found that the serum uric acid levels of patients with multiple sclerosis were significantly lower compared to those of healthy controls, possibly indicating a diagnostic biomarker for multiple sclerosis.[60]

Normalizing low uric acid edit

Correcting low or deficient zinc levels can help elevate serum uric acid.[61]

See also edit

References edit

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  60. ^ Wang, L.; Hu, W.; Wang, J.; Qian, W.; Xiao, H. (2016). "Low serum uric acid levels in patients with multiple sclerosis and neuromyelitis optica: An updated meta-analysis". Multiple Sclerosis and Related Disorders. 9: 17–22. doi:10.1016/j.msard.2016.05.008. PMID 27645338.
  61. ^ Umeki, S.; Ohga, R.; Konishi, Y.; Yasuda, T.; Morimoto, K.; Terao, A. (November 1986). "Oral zinc therapy normalizes serum uric acid level in Wilson's disease patients". The American Journal of the Medical Sciences. 292 (5): 289–292. doi:10.1097/00000441-198611000-00007. PMID 3777013. S2CID 39995735.

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uric, acid, confused, with, uronic, acid, urea, heterocyclic, compound, carbon, nitrogen, oxygen, hydrogen, with, formula, c5h4n4o3, forms, ions, salts, known, urates, acid, urates, such, ammonium, acid, urate, product, metabolic, breakdown, purine, nucleotide. Not to be confused with uronic acid or urea Uric acid is a heterocyclic compound of carbon nitrogen oxygen and hydrogen with the formula C5H4N4O3 It forms ions and salts known as urates and acid urates such as ammonium acid urate Uric acid is a product of the metabolic breakdown of purine nucleotides and it is a normal component of urine High blood concentrations of uric acid can lead to gout and are associated with other medical conditions including diabetes and the formation of ammonium acid urate kidney stones Uric acid Crystals of urate in polarized lightNamesPreferred IUPAC name 7 9 Dihydro 1H purine 2 6 8 3H trioneOther names 2 6 8 Trioxypurine 2 6 8 Trihydroxypurine 2 6 8 Trioxopurine 1H Purine 2 6 8 trioneIdentifiersCAS Number 69 93 2 Y3D model JSmol lactam form Interactive imageintermediate form Interactive imagelactim form Interactive imageurate monoanion Interactive image3DMet B00094Beilstein Reference 156158ChEBI CHEBI 27226 NChEMBL ChEMBL792 YChemSpider 1142 YDrugBank DB01696 YECHA InfoCard 100 000 655EC Number 200 720 7IUPHAR BPS 4731KEGG C00366 NMeSH Uric AcidPubChem CID 1175UNII 268B43MJ25 YCompTox Dashboard EPA DTXSID3042508InChI InChI 1S C5H4N4O3 c10 3 1 2 7 4 11 6 1 8 5 12 9 3 h5 12H H 9 10 H 7 8 11 NKey DZGSAURIFGGOJK UHFFFAOYSA N NSMILES lactam form O C1Nc2nc O nc2C O N1intermediate form Oc0nc O nc1c0NC O N1lactim form Oc0nc O nc1c0N C O N1urate monoanion Oc0nc O nc1c0N C O N1PropertiesChemical formula C 5H 4N 4O 3Molar mass 168 112 g mol 1Appearance White crystalsMelting point 300 C 572 F 573 K Solubility in water 6 mg 100 mL at 20 C log P 1 107Acidity pKa 5 6Basicity pKb 8 4Magnetic susceptibility x 6 62 10 5 cm3 mol 1ThermochemistryHeat capacity C 166 15 J K 1 mol 1 at 24 0 C Std molarentropy S 298 173 2 J K 1 mol 1Std enthalpy offormation DfH 298 619 69 to 617 93 kJ mol 1Std enthalpy ofcombustion DcH 298 1921 2 to 1919 56 kJ mol 1Except where otherwise noted data are given for materials in their standard state at 25 C 77 F 100 kPa N verify what is Y N Infobox references Contents 1 Chemistry 1 1 Water solubility 2 Biochemistry 3 Genetic and physiological diversity 3 1 Primates 3 1 1 Humans 3 2 Dogs 3 3 Birds reptiles and desert dwelling mammals 3 4 Invertebrates 4 Genetics 5 Clinical significance and research 5 1 High uric acid 5 1 1 Gout 5 1 2 Tumor lysis syndrome 5 1 3 Lesch Nyhan syndrome 5 1 4 Cardiovascular disease 5 1 5 Uric acid stone formation 5 1 6 Diabetes 5 2 Low uric acid 5 2 1 Multiple sclerosis 5 2 2 Normalizing low uric acid 6 See also 7 References 8 External linksChemistry editUric acid was first isolated from kidney stones in 1776 by Swedish chemist Carl Wilhelm Scheele 1 In 1882 the Ukrainian chemist Ivan Horbaczewski first synthesized uric acid by melting urea with glycine 2 Uric acid displays lactam lactim tautomerism 3 Uric acid crystallizes in the lactam form 4 with computational chemistry also indicating that tautomer to be the most stable 5 Uric acid is a diprotic acid with pKa1 5 4 and pKa2 10 3 6 Thus at physiological pH urate predominates in solution Tautomers of uric acid and urate nbsp nbsp nbsp pKa1 nbsp nbsp Lactam form Lactim form Urate ionWater solubility edit In general the water solubility of uric acid and its alkali metal and alkaline earth salts is rather low All these salts exhibit greater solubility in hot water than cold allowing for easy recrystallization This low solubility is significant for the etiology of gout The solubility of the acid and its salts in ethanol is very low or negligible In ethanol water mixtures the solubilities are somewhere between the end values for pure ethanol and pure water Solubility of urate salts grams of water per gram of compound Compound Cold water Boiling waterUric acid 15 000 2 000Ammonium hydrogen urate 1 600Lithium hydrogen urate 370 39Sodium hydrogen urate 1 175 124Potassium hydrogen urate 790 75Magnesium dihydrogen diurate 3 750 160Calcium dihydrogen diurate 603 276Disodium urate 77 Dipotassium urate 44 35Calcium urate 1 500 1 440Strontium urate 4 300 1 790Barium urate 7 900 2 700The figures given indicate what mass of water is required to dissolve a unit mass of compound indicated The lower the number the more soluble the substance in the said solvent 7 8 9 Biochemistry editThe enzyme xanthine oxidase XO catalyzes the formation of uric acid from xanthine and hypoxanthine XO which is found in mammals functions primarily as a dehydrogenase and rarely as an oxidase despite its name 10 Xanthine in turn is produced from other purines Xanthine oxidase is a large enzyme whose active site consists of the metal molybdenum bound to sulfur and oxygen 11 Uric acid is released in hypoxic conditions low oxygen saturation 12 Genetic and physiological diversity editPrimates edit In humans uric acid actually hydrogen urate ion is the final oxidation breakdown product of purine metabolism and is excreted in urine whereas in most other mammals the enzyme uricase further oxidizes uric acid to allantoin 13 The loss of uricase in higher primates parallels the similar loss of the ability to synthesize ascorbic acid leading to the suggestion that urate may partially substitute for ascorbate in such species 14 Both uric acid and ascorbic acid are strong reducing agents electron donors and potent antioxidants In humans over half the antioxidant capacity of blood plasma comes from hydrogen urate ion 15 Humans edit The normal concentration range of uric acid or hydrogen urate ion in human blood is 25 to 80 mg L for men and 15 to 60 mg L for women 16 but see below for slightly different values An individual can have serum values as high as 96 mg L and not have gout 17 In humans about 70 of daily uric acid disposal occurs via the kidneys and in 5 25 of humans impaired renal kidney excretion leads to hyperuricemia 18 Normal excretion of uric acid in the urine is 270 to 360 mg per day concentration of 270 to 360 mg L if one litre of urine is produced per day higher than the solubility of uric acid because it is in the form of dissolved acid urates roughly 1 as much as the daily excretion of urea 19 Dogs edit The Dalmatian has a genetic defect in uric acid uptake by the liver and kidneys resulting in decreased conversion to allantoin so this breed excretes uric acid and not allantoin in the urine 20 Birds reptiles and desert dwelling mammals edit In birds and reptiles and in some desert dwelling mammals such as the kangaroo rat uric acid also is the end product of purine metabolism but it is excreted in feces as a dry mass This involves a complex metabolic pathway that is energetically costly in comparison to processing of other nitrogenous wastes such as urea from the urea cycle or ammonia but has the advantages of reducing water loss and preventing dehydration 21 Invertebrates edit Platynereis dumerilii a marine polychaete worm uses uric acid as a sexual pheromone The female of the species releases uric acid into the water during mating which induces males to release sperm 22 Genetics editAlthough foods such as meat and seafood can elevate serum urate levels genetic variation is a much greater contributor to high serum urate 23 24 A proportion of people have mutations in the urate transport proteins responsible for the excretion of uric acid by the kidneys Variants of a number of genes linked to serum urate have so far been identified SLC2A9 ABCG2 SLC17A1 SLC22A11 SLC22A12 SLC16A9 GCKR LRRC16A and PDZK1 25 26 27 GLUT9 encoded by the SLC2A9 gene is known to transport both uric acid and fructose 18 28 29 Myogenic hyperuricemia as a result of the Purine Nucleotide Cycle running when ATP reservoirs in muscle cells are low is a common pathophysiologic feature of glycogenoses such as GSD III GSD V and GSD VII as they are metabolic myopathies which impair the ability of ATP energy production for the muscle cells to use 30 In these metabolic myopathies myogenic hyperuricemia is exercise induced inosine hypoxanthine and uric acid increase in plasma after exercise and decrease over hours with rest 30 Excess AMP adenosine monophosphate is converted into uric acid AMP IMP Inosine Hypoxanthine Xanthine Uric AcidClinical significance and research editIn human blood plasma the reference range of uric acid is typically 3 4 7 2 mg per 100 mL 200 430 mmol L for men and 2 4 6 1 mg per 100 mL for women 140 360 mmol L 31 Uric acid concentrations in blood plasma above and below the normal range are known as respectively hyperuricemia and hypouricemia Likewise uric acid concentrations in urine above and below normal are known as hyperuricosuria and hypouricosuria Uric acid levels in saliva may be associated with blood uric acid levels 32 High uric acid edit Hyperuricemia high levels of uric acid which induces gout has various potential origins Diet may be a factor High intake of dietary purine high fructose corn syrup and sucrose can increase levels of uric acid 33 34 Serum uric acid can be elevated by reduced excretion via the kidneys 35 Fasting or rapid weight loss can temporarily elevate uric acid levels 36 Certain drugs such as thiazide diuretics can increase blood uric acid levels by interfering with renal clearance 37 Tumor lysis syndrome a metabolic complication of certain cancers or chemotherapy due to nucleobase and potassium release into the plasma 38 Pseudohypoxia disrupted NADH NAD ratio caused by diabetic hyperglycemia and excessive alcohol consumption 39 Gout edit Main article Gout A 2011 survey in the United States indicated that 3 9 of the population had gout whereas 21 4 had hyperuricemia without having symptoms 40 Excess blood uric acid serum urate can induce gout 41 a painful condition resulting from needle like crystals of uric acid termed monosodium urate crystals 42 precipitating in joints capillaries skin and other tissues 43 Gout can occur where serum uric acid levels are as low as 6 mg per 100 mL 357 mmol L but an individual can have serum values as high as 9 6 mg per 100 mL 565 mmol L and not have gout 17 In humans purines are metabolized into uric acid which is then excreted in the urine Consumption of large amounts of some types of purine rich foods particularly meat and seafood increases gout risk 44 Purine rich foods include liver kidney and sweetbreads and certain types of seafood including anchovies herring sardines mussels scallops trout haddock mackerel and tuna 45 Moderate intake of purine rich vegetables however is not associated with an increased risk of gout 44 One treatment for gout in the 19th century was administration of lithium salts 46 lithium urate is more soluble Today inflammation during attacks is more commonly treated with NSAIDs colchicine or corticosteroids and urate levels are managed with allopurinol 47 Allopurinol which weakly inhibits xanthine oxidase is an analog of hypoxanthine that is hydroxylated by xanthine oxidoreductase at the 2 position to give oxipurinol 48 Tumor lysis syndrome edit Tumor lysis syndrome an emergency condition that may result from blood cancers produces high uric acid levels in blood when tumor cells release their contents into the blood either spontaneously or following chemotherapy 38 Tumor lysis syndrome may lead to acute kidney injury when uric acid crystals are deposited in the kidneys 38 Treatment includes hyperhydration to dilute and excrete uric acid via urine rasburicase to reduce levels of poorly soluble uric acid in blood or allopurinol to inhibit purine catabolism from adding to uric acid levels 38 Lesch Nyhan syndrome edit Lesch Nyhan syndrome a rare inherited disorder is also associated with high serum uric acid levels 49 Spasticity involuntary movement and cognitive retardation as well as manifestations of gout are seen in this syndrome 50 Cardiovascular disease edit Hyperuricemia is associated with an increase in risk factors for cardiovascular disease 51 It is also possible that high levels of uric acid may have a causal role in the development of atherosclerotic cardiovascular disease but this is controversial and the data are conflicting 52 Uric acid stone formation edit nbsp Comparison of different types of urinary crystals Kidney stones can form through deposits of sodium urate microcrystals 53 Saturation levels of uric acid in blood may result in one form of kidney stones when the urate crystallizes in the kidney These uric acid stones are radiolucent so do not appear on an abdominal plain X ray 54 Uric acid crystals can also promote the formation of calcium oxalate stones acting as seed crystals 55 Diabetes edit Hyperuricemia is associated with components of metabolic syndrome including in children 56 57 Low uric acid edit Low uric acid hypouricemia can have numerous causes Low dietary zinc intakes cause lower uric acid levels This effect can be even more pronounced in women taking oral contraceptive medication 58 Sevelamer a drug indicated for prevention of hyperphosphataemia in people with chronic kidney failure can significantly reduce serum uric acid 59 Multiple sclerosis edit Meta analysis of 10 case control studies found that the serum uric acid levels of patients with multiple sclerosis were significantly lower compared to those of healthy controls possibly indicating a diagnostic biomarker for multiple sclerosis 60 Normalizing low uric acid edit Correcting low or deficient zinc levels can help elevate serum uric acid 61 See also editTheacrine or 1 3 7 9 tetramethyluric acid a purine alkaloid found in some teas Uracil purine nucleobase named by Robert Behrend who was attempting to synthesize derivatives of uric acid Metabolic myopathy Purine nucleotide cycleReferences edit Scheele C W 1776 Examen Chemicum Calculi Urinari A chemical examiniation of kidney stones Opuscula 2 73 Horbaczewski J 1882 Synthese der Harnsaure Synthesis of uric acid Monatshefte fur Chemie und Verwandte Teile Anderer Wissenschaften 3 796 797 doi 10 1007 BF01516847 S2CID 92323943 Lieberman M Marks A D Smith C M Marks D B 2007 Marks Essential Medical Biochemistry Philadelphia Lippincott Williams amp Wilkins pp 47 ISBN 978 0 7817 9340 7 Ringertz H 1 March 1966 The molecular and crystal structure of uric acid Acta Crystallographica 20 3 397 403 Bibcode 1966AcCry 20 397R doi 10 1107 S0365110X66000914 Jimenez V Alderete J B November 2005 Theoretical calculations on the tautomerism of uric acid in gas phase and aqueous solution Journal of Molecular Structure THEOCHEM 755 1 3 209 214 doi 10 1016 j theochem 2005 08 001 McCrudden F H 2008 1905 Uric Acid The Chemistry Physiology and Pathology of Uric Acid and the Physiologically Important Purin Bodies with a Discussion of the Metabolism in Gout Charleston SC BiblioBazaar ISBN 978 0 554 61991 0 Weast R C ed 1981 CRC Handbook of Chemistry and Physics 62nd ed Boca Raton FL CRC Press OCLC 7842683 Windholz M ed 1976 Merck Index 9th ed Merck ISBN 978 0 911910 26 1 McCrudden Francis H Uric acid p 58 Ichida K Amaya Y Noda K Minoshima S Hosoya T Sakai O Shimizu N Nishino T November 1993 Cloning of the cDNA encoding human xanthine dehydrogenase oxidase Structural analysis of the protein and chromosomal location of the gene Gene 133 2 279 284 doi 10 1016 0378 1119 93 90652 J PMID 8224915 Hille R 2005 Molybdenum containing hydroxylases Archives of Biochemistry and Biophysics 433 1 107 116 doi 10 1016 j abb 2004 08 012 PMID 15581570 Baillie J K Bates M G Thompson A A Waring W S Partridge R W Schnopp M F Simpson A Gulliver Sloan F Maxwell S R Webb D J May 2007 Endogenous urate production augments plasma antioxidant capacity in healthy lowland subjects exposed to high altitude Chest 131 5 1473 1478 doi 10 1378 chest 06 2235 PMID 17494796 Angstadt C N 4 December 1997 Purine and Pyrimidine Metabolism Purine Catabolism NetBiochem Proctor P November 1970 Similar functions of uric acid and ascorbate in man Nature 228 5274 868 Bibcode 1970Natur 228 868P doi 10 1038 228868a0 PMID 5477017 S2CID 4146946 Maxwell S R J Thomason H Sandler D Leguen C Baxter M A Thorpe G H G Jones A F Barnett A H 1997 Antioxidant status in patients with uncomplicated insulin dependent and non insulin dependent diabetes mellitus European Journal of Clinical Investigation 27 6 484 490 doi 10 1046 j 1365 2362 1997 1390687 x PMID 9229228 S2CID 11773699 Braunwald E ed 1987 Harrison s Principles of Internal Medicine 11th ed New York McGraw Hill p A 3 ISBN 978 0 07 079454 2 a b Tausche A K Unger S Richter K et al May 2006 Hyperurikamie und Gicht Hyperuricemia and gout diagnosis and therapy Der Internist in German 47 5 509 521 doi 10 1007 s00108 006 1578 y PMID 16586130 S2CID 11480796 a b Vitart V Rudan I Hayward C et al April 2008 SLC2A9 is a newly identified urate transporter influencing serum urate concentration urate excretion and gout Nature Genetics 40 4 437 442 doi 10 1038 ng 106 PMID 18327257 S2CID 6720464 Kaur P Bhatt H 2022 Hyperuricosuria StatPearls StatPearls PMID 32965872 Friedman M amp Byers S O 1 September 1948 Observations concerning the causes of the excess excretion of uric acid in the 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Kolz M Johnson T et al June 2009 Allison David B ed Meta analysis of 28 141 individuals identifies common variants within five new loci that influence uric acid concentrations PLOS Genet 5 6 e1000504 doi 10 1371 journal pgen 1000504 PMC 2683940 PMID 19503597 Kottgen A et al February 2013 Genome wide association analyses identify 18 new loci associated with serum urate concentrations PDF Nature Genetics 45 2 145 154 doi 10 1038 ng 2500 PMC 3663712 PMID 23263486 Doring A Gieger C Mehta D et al April 2008 SLC2A9 influences uric acid concentrations with pronounced sex specific effects Nature Genetics 40 4 430 436 doi 10 1038 ng 107 PMID 18327256 S2CID 29751482 Mandal Asim K Mount David B February 2015 The molecular physiology of uric acid homeostasis Annual Review of Physiology 77 323 345 doi 10 1146 annurev physiol 021113 170343 PMID 25422986 a b Mineo Ikuo Kono Norio Hara Naoko Shimizu Takao Yamada Yuya Kawachi Masanori Kiyokawa Hiroaki Wang Yan Lin Tarui Seiichiro 1987 Myogenic 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2005 Kinetic Model of Oxidation Catalyzed by Xanthine Oxidase The Final Enzyme in Degradation of Purine Nucleosides and Nucleotides Nucleic Acids 24 5 7 465 469 doi 10 1081 ncn 200060006 PMID 16247972 S2CID 42906456 Worcester E M Coe F L 2008 Nephrolithiasis Primary Care Clinics in Office Practice 35 2 369 391 doi 10 1016 j pop 2008 01 005 PMC 2518455 PMID 18486720 Pak C Y September 2008 Medical stone management 35 years of advances The Journal of Urology 180 3 813 819 doi 10 1016 j juro 2008 05 048 PMID 18635234 De Oliveira E P et al 2012 High plasma uric acid concentration Causes and consequences Diabetology amp Metabolic Syndrome 4 12 doi 10 1186 1758 5996 4 12 PMC 3359272 PMID 22475652 Wang J Y et al 2012 Predictive value of serum uric acid levels for the diagnosis of metabolic syndrome in adolescents The Journal of Pediatrics 161 4 753 6 e2 doi 10 1016 j jpeds 2012 03 036 PMID 22575243 Hess F M King J C Margen S 1 December 1977 Effect of low zinc intake and oral contraceptive agents on nitrogen utilization and clinical findings in young women The Journal of Nutrition 107 12 2219 2227 doi 10 1093 jn 107 12 2219 PMID 925768 Garg J P Chasan Taber S Blair A et al January 2005 Effects of sevelamer and calcium based phosphate binders on uric acid concentrations in patients undergoing hemodialysis a randomized clinical trial Arthritis and Rheumatism 52 1 290 295 doi 10 1002 art 20781 PMID 15641045 Wang L Hu W Wang J Qian W Xiao H 2016 Low serum uric acid levels in patients with multiple sclerosis and neuromyelitis optica An updated meta analysis Multiple Sclerosis and Related Disorders 9 17 22 doi 10 1016 j msard 2016 05 008 PMID 27645338 Umeki S Ohga R Konishi Y Yasuda T Morimoto K Terao A November 1986 Oral zinc therapy normalizes serum uric acid level in Wilson s disease patients The American Journal of the Medical Sciences 292 5 289 292 doi 10 1097 00000441 198611000 00007 PMID 3777013 S2CID 39995735 External links edit nbsp Wikimedia Commons has media related to Uric acid Uric acid blood test MedlinePlus Retrieved from https en wikipedia org w index php title Uric acid amp oldid 1212560431 Gout, wikipedia, wiki, book, books, library,

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