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Alkaptonuria



Alkaptonuria
Classification & external resources
Homogentisic acid
ICD-10 E70.2
ICD-9 270.2
OMIM 203500
DiseasesDB 409
eMedicine ped/64 
MeSH D000474

Alkaptonuria (black urine disease or alcaptonuria) is a rare inherited genetic disorder of tyrosine metabolism. This is an autosomal recessive condition that is due to a defect in the enzyme homogentisate 1,2-dioxygenase (EC 1.13.11.5), which participates in the degradation of tyrosine. As a result, a toxic tyrosine byproduct called homogentisic acid (or alkapton) accumulates in the blood, and is excreted in urine in large amounts(hence -uria). Excessive homogentisic acid causes damage to cartilage (ochronosis, leading to osteoarthritis) and heart valves as well as precipitating as kidney stones. Treatment with nitisinone, which suppresses homogentisic acid production, is being studied.[1] Alkaptonuria is more common in Slovakia and the Dominican Republic than in other countries.[2][3]

Contents

Signs and symptoms

Alkaptonuria itself is asymptomatic, but the sclera of the eyes may be pigmented (often only at a later age)[1] and the skin is darkened in sun-exposed areas as well as around sweat glands; sweat may be coloured brown. Urine may turn brown on standing, especially when left for a period of time (which may alert parents of children using diapers).[citation needed] Kidney stones and stone formation in the prostate (in men) are common, and may occur in more than a quarter of cases.[1]

The main symptoms of alkaptonuria are due to the accumulation of homogentisic acid in tissues. In the joints this leads to cartilage damage, specifically in the spine and leading to low back pain at a young age in most cases, but also of the hip and shoulder. Joint replacement surgery (hip and schoulder) is often necessary at a relatively young age.[1]

Valvular heart disease, mainly calcification and regurgitation of the aortic and mitral valves, may occur, and in severe and progressive cases valve replacement may be necessary. Coronary artery disease may be accelerated in alkaptonuria.[1]

A distinctive characteristic of alkaptonuria is that ear wax exposed to air turns red or black (depending on diet) after several hours because of the accumulation of homogentisic acid.[citation needed]

Diagnosis

The diagnosis of alkaptonuria needs to be suspected before diagnostic testing can be performed, using paper chromatography and thin layer chromatography. Both blood plasma and urine can be used for diagnosis. In healthy subjects, homogentisic acid is absent in both blood and plasma. In alkaptonuria, plasma levels are 6.6 micrograms/ml on average, and urine levels are on average 3.12 mmol/mmol of creatinine.[1]

Pathophysiology

Homogentisic acid is a natural intermediary of the metabolism of tyrosine, an amino acid. Hepatic Homogentisate 1,2-dioxygenase (coded by the HGD gene) metabolises homogentisic acid into 4-maleylacetoacetate. Alkaptonuria arises in people who have inherited two abnormal HGD genes from both parents. Numerous different HGD mutations have been identified.[1]

In a patient who underwent a liver transplant for an unrelated problem, alkaptonuria resolved and joint disease stabilised after the transplant, confirming that the liver is the main site of homogentisic acid production in alkaptonuria.[4]

Treatment

No treatment modality has been unequivocally demonstrated to reduce the complications of alkaptonuria. Commonly recommended treatments include dietary restriction of phenylalanine and tyrosine and large doses of ascorbic acid (vitamin C). Dietary restriction may be effective in children, but benefits in adults have not been demonstrated.[5]

The insecticide nitisinone inhibits 4-hydroxyphenylpyruvate dioxygenase, the enzyme that generates homogentisic acid from 4-hydroxyphenylpyruvic acid. This reduces homogentisic acid, but may lead to accumulation of tyrosine or other intermediaries. The main side-effect is irritation of the cornea, and there is a concern that it will cause the symptoms of hereditary tyrosinaemia type III.[6] Further studies are being conducted.[7]

Epidemiology

In Slovakia the disease occurs in 1:19,000 people. In other ethnic groups, the normal prevalence is between 1:100,000 and 1:250,000.[2]

History

Alkaptonuria was one of the four diseases described by Sir Archibald Edward Garrod, as being the result of the accumulation of intermediates due to metabolic deficiencies. He linked ochronosis with the accumulation of alkaptans in 1902,[8] and his views on the subject, including its mode of heritance, were summarised in a 1908 Croonian lecture at the Royal College of Physicians.[9] The defect was narrowed down to homogentisic acid oxidase deficiency in a study published in 1958.[10] The genetic basis was elucidated in 1996, when HGO mutations were demonstrated.[11]

A 1977 study showed that an ochronotic Egyptian mummy had probably suffered from alkaptonuria.[12]

See also

References

  1. ^ a b c d e f g Phornphutkul C, Introne WJ, Perry MB, et al (2002). "Natural history of alkaptonuria". New England Journal Medicine 347 (26): 2111–21. doi:10.1056/NEJMoa021736. PMID 12501223.
  2. ^ a b Zatková A, de Bernabé DB, Poláková H, et al (2000). "High frequency of alkaptonuria in Slovakia: evidence for the appearance of multiple mutations in HGO involving different mutational hot spots". American Journal of Human Genetics 67 (5): 1333–9. PMID 11017803.
  3. ^ Milch, Robert Austin (April 1961). "Studies of Alcaptonuria: A Genetic Study of 58 Cases Occurring in Eight Generations of Seven Inter-related Dominican Kindreds". Arthritis & Rheumatism 4 (2): 131-136. doi:10.1002/art.1780040202.
  4. ^ Kobak AC, Oder G, Kobak S, Argin M, Inal V (2005). "Ochronotic arthropathy: disappearance of alkaptonuria after liver transplantation for hepatitis B-related cirrhosis". Journal of Clinical Rheumatology 11 (6): 323–5. PMID 16371803.
  5. ^ de Haas V, Carbasius Weber EC, de Klerk JB, et al (1998). "The success of dietary protein restriction in alkaptonuria patients is age-dependent". Journal of Inherited Metabolic Disease 21 (8): 791–8. PMID 9870204.
  6. ^ Suwannarat P, O'Brien K, Perry MB, et al (2005). "Use of nitisinone in patients with alkaptonuria". Metabolism: Clinical and Experimental 54 (6): 719–28. doi:10.1016/j.metabol.2004.12.017. PMID 15931605.
  7. ^ Clinical trial NCT00107783
  8. ^ Garrod AE (1902). "The incidence of alkaptonuria: a study in clinical individuality". Lancet 2: 1616−1620. Reproduced in Yale Journal of Biology and Medicine 75:221-31 (2002). PMID 12784973.
  9. ^ Garrod AE (1908). "The Croonian lectures on inborn errors of metabolism: lecture II: alkaptonuria". Lancet 2: 73–79.
  10. ^ La Du BN, Zannoni VG, Laster L, Seegmiller JE (1958). "The nature of the defect in tyrosine metabolism in alcaptonuria". Journal of Biological Chemistry 230 (1): 251–60. PMID 13502394.
  11. ^ Fernández-Cañón JM, Granadino B, Beltrán-Valero de Bernabé D, et al (1996). "The molecular basis of alkaptonuria". Nature Genetics 14 (1): 19-24. doi:10.1038/ng0996-19. PMID 8782815.
  12. ^ Stenn FF, Milgram JW, Lee SL, Weigand RJ, Veis A (1977). "Biochemical identification of homogentisic acid pigment in an ochronotic egyptian mummy". Science 197 (4303): 566–8. PMID 327549.
 
This article is licensed under the GNU Free Documentation License. It uses material from the Wikipedia article "Alkaptonuria". A list of authors is available in Wikipedia.
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