Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.4.2.8 (hypoxanthine-guanine phosphoribosyltransferase)
 2,527 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Six generations of a Japanese family had gouty arthritis and progressive nephropathy. Data on nine of 51 women (18%) and 15 of 66 men (23%) with either asymptomatic hyperuricaemia, gouty arthritis, or renal insufficiency were obtained. Renal function in four men and one woman with hyperuricaemia or gouty arthritis was also examined. Urinary excretion of uric acid was decreased in all subjects examined, including the young. Erythrocyte phosphoribosylpyrophosphate synthetase and hypoxanthine-guanine phosphoribosyltransferase activities determined in 10 patients were normal. Some patients had been treated with allopurinol to reduce serum uric acid concentrations, but the treatment did not prevent progression of renal impairment. Transmission of the disease in this large family is considered to be autosomal dominant. The data suggest that the disease in this family is the same entity as that described by other workers--that is, familial urate nephropathy. As far as is known this is the largest family with this disease so far reported.
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PMID:Autosomal dominant transmission of gouty arthritis with renal disease in a large Japanese family. 184 94

A three week old boy presented with pneumonia, weight loss, metabolic acidosis and renal failure (serum creatinine 3.1 mg/100 ml, uric acid 11.5 mg/100 ml). Renal biopsy revealed severe crystal nephropathy. Low activity of hypoxanthine-guanine phosphoribosyltransferase (HPRT) in erythrocytes and fibroblasts suggested a partial deficiency of the enzyme. A family study proved the mother to be heterozygous and the maternal grandfather to be hemizygous for HPRT deficiency. The grandfather developed gouty nephropathy and uraemia. The propositus was treated with allopurinol and kept on low purine diet and high fluid intake with sodium bicarbonate. Thereafter GFR gradually improved. At the age of two and a half years, growth and psychomotor development were normal, but ultrasound examination still revealed a dense renal parenchyma. Partial HPRT deficiency is a newly recognised treatable form of renal failure in the newborn.
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PMID:Acute renal failure in an infant with partial deficiency of hypoxanthine-guanine phosphoribosyltransferase. 399 73

We have measured the rate of purine synthesis de novo in blood mononuclear cells in vitro and the activities of the purine salvage enzymes [hypoxanthine phosphoribosyltransferase (HPRT; EC 2.4.2.8), adenine phosphoribosyltransferase (APRT; EC 2.4.2.7)] and ribosephosphate pyrophosphokinase (PP-ribose-P synthetase; EC 2.7.6.1)] and the concentration of phosphoribosylpyrophosphate (PP-ribose-P) in the erythrocytes of affected family members. These subjects belong to families where hyperuricaemia and renal failure occur together early in life, and the genetic transmission follows an autosomal dominant mode of inheritance. We term this syndrome, familial hyperuricaemic nephropathy. No significant differences were detected in either the rates of purine synthesis de novo in vitro between the index patients and the control subjects with respect to the enzyme activities or the PP-ribose-P concentrations. Two groups of controls were used, healthy individuals and patients with a comparable degree of renal failure due to non-immune complex renal disease. Mononuclear cells from patients with Lesch-Nyhan syndrome (congenital HPRT deficiency) showed the expected acceleration of purine synthesis de novo in vitro. The accelerated purine synthesis de novo in vitro associated with phytohaemagglutinin-induced lymphocyte transformation was detectable by the method used. We conclude that familial hyperuricaemic nephropathy is not due to a metabolic lesion which causes accelerated purine synthesis de novo. This suggests that the primary abnormality may be a failure of the renal tubular net excretion of urate.
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PMID:The rate of purine synthesis de nova in blood mononuclear cells in vitro from patients with familial hyperuricaemic nephropathy. 674 92

Information on a familial syndrome of hyperuricemia and renal disease with or without gout was obtained on 33 of 41 blood relatives: Nine had renal disease; abnormalities of the urinary sediments were minimal; serum uric acid levels were elevated in seven and were not measured in two. Hyperuricemia was noted in three additional family members without evidence of renal disease. Goulty arthritis (three patients) did not precede renal disease. One individual had hyperuricosuria. The following erythrocyte purine enzyme levels were normal: adenine phosphoribosyltransferase, hypoxanthine-guanine phosphoribosyltransferase, phosphoribosylpyrophosphate, synthetase, adenosine deaminiase, and purine nucleoside phosphorylase. Renal biopsy specimens showed focal global and segmental sclerosis of glomeruli, occasional hypercellularity, foci of atrophic tubules, chronic interstitial inflammation, and folding and wrinkling of glomerular basement membrane without electron-dense deposits. There were no immunofluorescent abnormalities.
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PMID:Familial hyperuricemia and renal disease. 739 93

We have sequenced and studied the expressed protein of an HPRT mutation characterized by 5-12% residual erythrocyte activity, for which affected males exhibit hyperuricemia, arthritis and renal disease but are without severe neurological involvement. The HPRTMoose Jaw mutation is due to a single C to G transversion at nucleotide 582 relative to initiation of translation corresponding to substitution of aspartate 194 by glutamate. The mutant and wild type proteins were expressed and purified using the bacterial expression vector, pMAL-c2. The Km for hypoxanthine was increased 12-fold from 0.94 +/- 0.26 to 11.5 +/- 1.3 microM for control and mutant respectively. The apparent Km for PP-ribose-P was increased 44-fold from 6.8 +/- 0.6 to 295 +/- 7 microM for control and mutant respectively. Although the kcat of the mutant protein was equivalent to wild type, the catalytic efficiency, kcat/Km, of the purified mutant protein was only 6 and 3% of wild type with hypoxanthine and PP-ribose-P respectively. The mutant protein also exhibited positive cooperativity with PP-ribose-P, having a Hill coefficient of 2.3. The decreased substrate affinities and PP-ribose-P associated cooperativity of HPRTMoose Jaw provide additional evidence for the influence of carboxy-terminal residues of HPRT in specific catalytic functions.
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PMID:Sequence, expression and characterization of HPRTMoose Jaw: a point mutation resulting in cooperativity and decreased substrate affinities. 798 18

Although gout and hyperuricaemia are usually thought of as conditions of indulgent male middle age, in addition to the well-known uricosuria of the newborn, there is much of importance for the paediatric nephrologist in this field. Children and infants may present chronically with stones or acutely with renal failure from crystal nephropathy, as a result of inherited deficiencies of the purine salvage enzymes hypoxanthine-guanine phosphoribosyltransferase (HPRT) and adenine phosphoribosyltransferase (APRT) or of the catabolic enzyme xanthine dehydrogenase (XDH). Genetic purine overproduction in phosphoribosylpyrophosphate synthetase superactivity, or secondary to glycogen storage disease, can also present in infancy with renal complications. Children with APRT deficiency may be difficult to distinguish from those with HPRT deficiency because the insoluble product excreted, 2,8-dihydroxyadenine (2,8-DHA), is chemically very similar to uric acid. Moreover, because of the high uric acid clearance prior to puberty, hyperuricosuria rather than hyperuricaemia may provide the only clue to purine overproduction in childhood. Hyperuricaemic renal failure may be seen also in treated childhood leukaemia and lymphoma, and iatrogenic xanthine nephropathy is a potential complication of allopurinol therapy in these conditions. The latter is also an under-recognised complication of treatment in the Lesch-Nyhan syndrome or partial HPRT deficiency. The possibility of renal complications in these three situations is enhanced by infection, the use of uricosuric antibiotics and dehydration consequent upon fever, vomiting or diarrhoea. Disorders of urate transport in the renal tubule may also present in childhood. A kindred with X-linked hereditary nephrolithiasis, renal urate wasting and renal failure has been identified, but in general, the various rare types of net tubular wasting of urate into the urine are recessive and relatively benign, being found incidentally or presenting as colic from crystalluria. However, the opposite condition of a dominantly inherited increase in net urate reabsorption is far from benign, presenting as familial renal failure, with hyperuricaemia either preceding renal dysfunction or disproportionate to it. Paediatricians need to be aware of the lower plasma urate concentrations in children compared with adults when assessing plasma urate concentrations in childhood and infancy, so that early hyperuricosuria is not missed. This is of importance because most of the conditions mentioned above can be treated successfully using carefully controlled doses of allopurinol or means to render urate more soluble in the urine. Xanthine and 2,8-DHA are extremely insoluble at any pH. Whilst 2,8-DHA formation can also be controlled by allopurinol, alkali is contraindicated. A high fluid, low purine intake is the only possible therapy for XDH deficiency.
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PMID:Gout, uric acid and purine metabolism in paediatric nephrology. 843 71

We studied purine metabolism in gouty patients from three categories: primary gout, familial juvenile hyperuricaemic nephropathy (FJHN) and partial HPRT deficiency.
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PMID:How should we treat tophaceous gout in patients with allopurinol hypersensitivity? 959 24

Hyperuricemia and secondary urate nephropathy are uncommon in the paediatric setting outside of tumour lysis syndrome. We describe the case of a 12-year-old boy who presented at 3 years of age with acute renal failure. The cause of this remained unknown until the development of uric acid renal calculi 9 years later. This, and the availability of the previously unknown family history, provided the subsequent diagnosis of partial hypoxanthine-guanine phosphoribosyltransferase (HPRT) deficiency. Detailed family history is important for early detection of this heterogeneous group of disorders. Early treatment may minimise long-term renal morbidity and mortality from renal insufficiency.
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PMID:Partial hypoxanthine-guanine phosphoribosyltransferase deficiency presenting as acute renal failure. 1624 Jan 58

A 24-year-old male with end-stage renal disease (ESRD) and disproportionately high uric acid plasma concentration was admitted to our unit. After studying the patient's medical history, as well as that of the entire family, hyperuricemia was discovered in his brother, while microscopic examination of his brother's and mother's urine revealed abundant uric acid crystals. After performing purine metabolic studies, it was determined that the two siblings suffered from partial hypoxanthine-guanine phosphoribosyltransferase (HPRT) deficiency (Kelley-Seegmiller syndrome). This report highlights the importance of clinical awareness and a thorough examination of the patient's medical history for establishing an early diagnosis and commencing treatment for such rare inherited metabolic disorders to prevent renal failure.
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PMID:HPRT deficiency as the cause of ESRD in a 24-year-old patient: a very rare presentation of the disorder. 1624 52

Hyperuricemia (serum urate level >7 mg/dL) is caused by accelerated generation of uric acid and/or impaired excretion in the kidney. It is classified into three types (overproduction, underexcretion and mixed types). The typical cases with the type of uric acid overproduction are hypoxanthine guanine phosphoribosyl transferase deficiency due to HPRT gene abnormality, excessive consumption of purine-rich diet, and cytolysis induced by chemotherapy for blood neoplasm, those with the type of underexcretion are familial juvenile hyperuricemic nephropathy due to uromodulin gene abnormality and abrupt body weight loss due to low calorie diet, and those with the mixed type are glucose 6-phosphatase deficiency due to glucose 6-phosphatase gene abnormality and excessive consumption of alcohol beverages.
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PMID:[Definition and classification of hyperuricemia]. 1840 7


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