UNIPROT:P00492 - FACTA Search

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Query: UNIPROT:P00492 (hypoxanthine-guanine phosphoribosyltransferase)
2,385 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Skin biopsies from the mother of a classical case of the Lesch-Nyhan syndrome grew only wild type fibroblasts. This suggested that she is not a heterozygous carrier of the mutant X-linked structural gene which causes the syndrome, and that a fresh mutation caused the disorder in her son. Evidence of mosaicism was sought in skin fibroblasts, hair follicles, jejunal mucosa, cultured bone marrow cells and phytohaemagglutinin (PHA) stimulated lymphocytes from known hemizygotes and heterozygotes for the so-called complete, and partial deficiencies of hypoxanthine guanine phosphoribosyltransferase (HGPRT). These studies were designed to determine the genetic status of the mother of the propositus and to determine if the genetic diagnosis could be improved by the simultaneous study of this wider range of tissues. The results are compatible with the mother of the propositus being a non carrier of a mutant gene causing the Lesch-Nyhan syndrome in her son. Only the study of cultured skin fibroblasts, and of the enzyme levels in hair follicles, contributed diagnostically useful information in this case.
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PMID:The diagnosis of the carrier state for the Lesch--Nyhan syndrome. 117 10

Lesch-Nyhan syndrome caused by a complete deficiency of hypoxanthine guanine phosphoribosyltransferase (HPRT) is the result of a heterogeneous group of germ line mutations. Identification of each mutant gene provides valuable information as to the type of mutation that occurs spontaneously. We report here a newly identified HPRT mutation in a Japanese patient with Lesch-Nyhan syndrome. This gene, designated HPRT Tokyo, had a single nucleotide change from G to A, as identified by sequencing cDNA amplified by the polymerase chain reaction. Allele specific oligonucleotide hybridization analysis using amplified genomic DNA showed that the mutant gene was transmitted from the maternal germ line. This mutation would lead to an amino acid substitution of Asp for Gly at the amino acid position 140 located within the putative 5-phosphoribosyl-1-pyrophosphate (PRPP) binding region. Missense mutations in human HPRT deficient patients thus far reported tend to accumulate in this functionally active region. However, a comparison of the data suggested that both missense and synonymous mutations can occur at any coding sequence of the human germ line HPRT gene, but that a limited percentage of all the missense mutations cause disease. The probability that a mutation will cause disease tends to be higher when the missense mutation is within a functionally important sequence.
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PMID:A germ line mutation within the coding sequence for the putative 5-phosphoribosyl-1-pyrophosphate binding site of hypoxanthine-guanine phosphoribosyltransferase (HPRT) in a Lesch-Nyhan patient: missense mutations within a functionally important region probably cause disease. 128 99

Five independent mutations in the hypoxanthine guanine phosphoribosyltransferase (HPRT) gene were identified in a partially HPRT deficient patient with gout and in four Lesch-Nyhan patients. Using the polymerase chain reaction (PCR) technique coupled with direct sequencing, the nucleotide sequences of the entire HPRT coding region amplified from the cDNA and also of each exon amplified form the genomic DNA were analyzed. Three independent point mutations in the coding region were detected in the partially HPRT deficient patient (Case 1) and in two Lesch-Nyhan patients (Case 2 and 3), resulting in single amino acid substitutions. The family study of Case 3, utilizing a PvuII restriction site created in the mutant gene, indicated that the mother was a heterozygote, and a sister and a fetal brother had inherited the normal HPRT gene from the mother. In two other mutants causing Lesch-Nyhan syndrome, a portion of the HPRT gene was deleted, and RNA splicing was missing in both mutants. A 4-bp deletion at the 5' end of exon 4 resulted in formation of three different types of abnormal mRNA (Case 4). The other mutant (Case 5) produced abnormal mRNA including 26 bp of intron 8 instead of the deleted 58 bp at the 5' end of exon 9, because of a 74-bp deletion from intron 8 to exon 9.
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PMID:Molecular analysis of five independent Japanese mutant genes responsible for hypoxanthine guanine phosphoribosyltransferase (HPRT) deficiency. 148 94

In order to explain features of severe hypoxanthine guanine phosphoribosyltransferase (HPRT) deficiency, the Lesch-Nyhan syndrome, a continuous supply of substrate, hypoxanthine, for the enzyme must be generated. This supply must be increased in association with increased ATP turnover. We have shown that ATP turnover continuously supplies hypoxanthine for recycling by the enzyme HPRT and that this supply increases curvilinearly with increasing ATP turnover. The effects of increasing exercise on ATP turnover were examined using a Latin square experimental design. The outputs of hypoxanthine, xanthine, urate and creatinine were measured. The data were then examined statistically.
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PMID:The pathogenesis of the Lesch-Nyhan syndrome: ATP use is positively related to hypoxanthine supply to hypoxanthine guanine phosphoribosyltransferase. 188 5

The hprt (hypoxanthine guanine phosphoribosyltransferase) T cell cloning assay was used to detect in vivo mutations in T lymphocytes of individuals receiving radioimmunoglobulin therapy (RIT). A total of 28 patients receiving 131I and/or 90Y-labeled antiferritin antibodies was studied. Mutant frequencies for patients were clearly much higher than for historic non-treated controls (median 68.0 X 10(-6) for patients versus a median of 6.8 X 10(-6) for 115 controls). There was a good correlation of mutant frequency with initial activity of RIT (rlinear = 0.68, rquadratic = 0.76; P less than 0.05) although the correlation of mutant frequency with total activity after several rounds of treatment was poor (R = 0.18). Molecular studies of the hprt mutants demonstrated that a much higher proportion of mutations occurring in RIT treated patients had gross structural alterations of the hprt gene (33%) than did mutations occurring in controls (15%). There was a good correlation (r = 0.72) of mutants with gross alterations and total RIT activity. T cell receptor gene studies demonstrated that most of the mutants (92%) represented independent in vivo mutations, which is similar to previous findings with background mutations in non-irradiated individuals. These studies demonstrate the usefulness of the hprt T cell cloning assay for studies of in vivo human somatic cell gene mutations resulting from ionizing radiation.
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PMID:Molecular analysis of in vivo hprt mutations in human T lymphocytes. V. Effects of total body irradiation secondary to radioimmunoglobulin therapy (RIT) 217 31

A previously undescribed nucleotide substitution at codon 51 (CGA to TGA) has been identified using the polymerase chain reaction technique in hypoxanthine guanine phosphoribosyltransferase (HPRT) cDNA; this is the first molecular evidence for a point mutation in a Japanese patient with Lesch-Nyhan syndrome. The present mutation is the 19th nucleotide substitution identified as a germ-line mutation at this locus and the second mutation generating a stop codon. The position of the nucleotide substitution is exactly the same as a previously described mutation HPRTToronto, indicating for the first time that nucleotide substitutions at the same position in the sequence of HPRT can generate different mutant alleles, one causing a partial deficiency and the other a complete deficiency. Although the type of nucleotide substitution is different between the two cases, a single base position has twice become the target of a mutation. However, the calculation of the probability of finding substitution mutations at the same base position in the coding region of hprt indicates that there is no evidence for the presence of a hot spot for substitution mutations in the human hprt germ line.
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PMID:Hypoxanthine guanine phosphoribosyltransferase deficiency: nucleotide substitution causing Lesch-Nyhan syndrome identified for the first time among Japanese. 232 82

Purine metabolism in the Lesch-Nyhan syndrome has been re-examined in 10 patients. Hypoxanthine and xanthine concentrations in plasma and CSF and urinary excretion have been studied, on and off allopurinol treatment, using high performance liquid chromatographic methods. Accumulation of the substrate, hypoxanthine, of the missing hypoxanthine guanine phosphoribosyltransferase (HPRT) enzyme, is more marked in urine and in CSF than in plasma. The greater increase in CSF is consistent with the most metabolically active tissue, brain, showing the most marked functional changes. The function of HPRT seems to be the recycling of hypoxanthine which is released from tissues in increasing quantities as energy use, ATP 'turnover', in the tissue increases. The existing screening method for HPRT deficiency, the ratio of the urinary concentration of urate to that of creatinine, shows overlap between the values in severe HPRT deficiency and in controls; this overlap is not found with a urinary hypoxanthine/creatinine molar concentration ratio.
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PMID:Lesch-Nyhan syndrome and its pathogenesis: purine concentrations in plasma and urine with metabolite profiles in CSF. 314 65

The molecular basis for complete hypoxanthine guanine phosphoribosyltransferase (HPRT) deficiency has been determined in a patient with Lesch-Nyhan syndrome. A B-lymphoblastoid cell line derived from this patient expresses normal amounts of HPRT mRNA yet no detectable immunoreactive protein as determined by radioimmunoassay. These findings suggest either a decreased rate of translation or accelerated degradation due to enhanced proteolytic susceptibility. cDNAs synthesized from this patient's RNA have a single nucleotide (nt) substitution, a C----A transversion at nt 222. RNase A cleavage analysis confirms the presence of a mutation at this position within mRNA isolated from lymphoblasts from patient A.C. This transversion predicts a phenylalanine to leucine replacement at amino acid position 73 in the translated protein. We have designated this mutant HPRTFlint. The mutation in HPRTFlint disrupts a strongly conserved region among PRTases from Escherichia coli, rodents and man, suggesting an important role for this region for the normal function of HPRT. Since it is unlikely that this amino acid substitution alters the translational rate, we hypothesize that disruption of the secondary structure within this region renders HPRTFlint more susceptible to proteolysis.
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PMID:Genetic basis of hypoxanthine guanine phosphoribosyltransferase deficiency in a patient with the Lesch-Nyhan syndrome (HPRTFlint). 338 38

Erythrocyte assays for hypoxanthine guanine phosphoribosyltransferase (HGPRT) activity performed on two male half-siblings with hyperuricemia, produced results consistent with classic Lesch-Nyhan syndrome. Due to the absence of neurologic abnormalities, cognitive deficits, or self-mutilation, HGPRT activity was measured by intact fibroblast assay which revealed partial enzyme deficiency. The presence of an unstable mutant enzyme may have led to the discrepancy between the erythrocyte and fibroblast studies. This discrepancy emphasizes the difficulty in assaying this enzyme solely utilizing red blood cell studies to determine a patient's course. In order to provide an accurate prognosis and relevant genetic counseling, measurement of this enzyme utilizing intact fibroblasts is critical after establishing a diagnosis of HGPRT deficiency in a hyperuricemic male lacking typical clinical manifestations of Lesch-Nyhan syndrome, but having enzyme activity of erythrocytes consistent with the diagnosis.
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PMID:Clinical correlations in partial hypoxanthine guanine phosphoribosyltransferase deficiency. 350 3

6-Thio-3-deazaguanine (TDG), a relatively new purine antimetabolite, exhibits significant antitumor activity against a variety of experimental animal tumor models including C3H mammary adenocarcinoma, Lewis lung carcinoma, adenocarcinoma 755, and leukemias L1210 and P388. However, the drug was ineffective against 3-deazaguanine-resistant L1210 (both in vitro and in vivo) and CEM cells (in vitro). The resistant cells appear to lack HGPRTase activity because the extracts from these cell lines failed to convert hypoxanthine to IMP. These data indicate that TDG needs to be activated by hypoxanthine guanine phosphoribosyltransferase prior to its growth inhibitory effects. Cytotoxicity of TDG was completely reversed by hypoxanthine and inosine. TDG inhibited the synthesis of DNA and RNA equally and effectively, whereas the inhibition of protein synthesis required a prolonged drug exposure and appears to be a consequence of the inhibition of DNA and RNA synthesis. Data from these studies suggest that TDG is an effective antitumor agent, and its spectrum of antitumor activity and mechanism of action appears to be different from that of 3-deazaguanine.
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PMID:Antitumor activity and mechanism of action of 6-thio-3-deazaguanine. 381 77

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