EC:2.4.2.8 - FACTA Search

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Query: EC:2.4.2.8 (hypoxanthine-guanine phosphoribosyltransferase)
2,527 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Somatic mutation and neoplastic transformation of diploid Syrian hamster embryo cells were examined concomitantly. Mutations induced by benzo[a]pyrene and N-methyl-N'-nitro-N-nitrosoguanidine were quantitated at the hypoxanthine phosphoribosyltransferase and Na(+)/K(+) ATPase loci and compared to phenotypic transformations measured by changes in cellular morphology and colony formation in agar. Both cellular transformations had characteristics distinct from the somatic mutations observed at the two loci. Morphological transformation was observed after a time comparable to that of somatic mutation but at a frequency that was 25- to 540-fold higher. Transformants capable of colony formation in agar were detected at a frequency of 10(-5)-10(-6), but not until 32-75 population doublings after carcinogen treatment. Although this frequency of transformation is comparable to that of somatic mutation, the detection time required is much longer than the optimal expression time of conventionally studied somatic mutations. Neoplastic transformation of hamster embryo cells has been described as a multistep, progressive process. Various phenotypic transformations of cells after carcinogen treatment may represent different stages in this progressive transformation. The results are discussed in this context and the role of mutagenesis in the transition between various stages is considered. Neoplastic transformation may be initiated by a mutational change, but it cannot be described completely by a single gene mutational event involving a dominant, codominant, or X-linked recessive locus. Neoplastic transformation induced by chemical carcinogens is more complex than a single gene mutational process. Thus, this comparative study does not give experimental support to predictions of the carcinogenic potential of chemicals based on a simple extrapolation of the results obtained from conventional somatic mutation assays.
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PMID:Relationship between somatic mutation and neoplastic transformation. 15 Jun

A family is reported where four males have developed hyperuricemia, renal damage and, except for the youngest person affected, gout at an early age. The disease appears to be inherited as an X-linked recessive metabolic error. Clinically the patients have developed classical, tophaceous gout before the age of 25 and have suffered repeated attacks of renal colic. Renal tubular damage with decreased ability to concentrate and acidify urine was seen in a family member of only 16 years of age. Progressive renal failure seems to develop slowly. None in the family has shown neurologic symptoms, and two of the four affected men are apparently of at least average intelligence, two slightly below average. One female carrier has repeatedly passed uric acid stones. Studies of the red blood cell lysate have shown a normal activity of enzyme hypoxanthine phosphoribosyltransferase, and an increased level of adenine phosphoribosyltransferase. Skin fibroblasts from affected family members grew normally in the presence of 8-azaguanine. Administration of azathioprine to the patients did not decrease their serum uric acid levels. This is the first family described with this type of disorder of the purine metabolism.
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PMID:Recessive X-linked hyperuricemia with gout and renal damage, normal activity of hypoxanthine phosphoribosyltransferase and resistance to azaguanine. 42 44

In a population at equilibrium for a sex-linked lethal, one-third of the genes for that lethal must arise anew each generation. Therefore, one-third of all cases of Lesch-Nyhan disease, a severe X-linked recessive lethal disorder, should be new mutants. To test this hypothesis, we have collected 47 families, 20 with a single proband and 27 with multiple affected males in which the patients' mothers and other female relatives had been studied for heterozygosity. Available carrier detection tests identify heterozygous for HPRT deficiency in hair roots and skin fibroblasts. Only four mothers were found not to be carriers. This result deviates significantly from expected (P less than .001). Statistical tests for ascertainment effects indicated absence of bias for multiple proband families but strong bias in favor of families with many heterozygous females. When the analysis was limited to single proband families, the deviation from expected was still significant (P less than .01). The incidence of new mutants among the heterozygous mothers, as determined by the ratio of +/+ to +/- maternal grandmothers, should be one-half (see Appendix). Of all 20 maternal grandmothers studied, five were +/+ and 15 were +/- (P less than .05). Considering only the single proband families, the ratio of 5 +/+ to 8 +/- was not significantly different from expected. In four of the five cases in which the heterozygous mother of an affected individual was a new mutation, the age of her parents was considerably higher than the mean parental age in the population. This raises the possibility of a paternal age effect on X-linked mutations. There appears to be a true deficiency of new mutatnts among males but not among females. Data on additional Lesch-Nyhan families are needed before conclusions regarding a possible higher mutation rate in males can be drawn.
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PMID:The occurrence of new mutants in the X-linked recessive Lesch-Nyhan disease. 126 47

We report the identification of a female patient with the X-linked recessive Lesch-Nyhan syndrome (hypoxanthine phosphoribosyltransferase [HPRT] deficiency). Cytogenetic and carrier studies revealed structurally normal chromosomes for this patient and her parents and demonstrated that this mutation arose through a de novo gametic event. Comparison of this patient's DNA with the DNA of her parents revealed that a microdeletion, which occurred within a maternal gamete and involved the entire HPRT gene, was partially responsible for the disease in this patient. Somatic cell hybrids, generated to separate maternal and paternal X chromosomes, showed that expression of two additional X-linked enzymes, phosphoglycerate kinase and glucose-6-phosphate dehydrogenase, were expressed only in cells that contained the maternal X chromosome, suggesting the presence of a functionally inactive paternal X chromosome. Furthermore, comparison of methylation patterns within a region of the HPRT gene known to be important in gene regulation revealed differences between DNA from the father and the patient, in keeping with an active HPRT locus in the father and an inactive HPRT locus in the patient. Together these data indicate that nonrandom inactivation of the cytogenetically normal paternal X chromosome and a microdeletion of the HPRT gene on an active maternal X chromosome were responsible for the absence of HPRT in this patient.
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PMID:Molecular analysis of a female Lesch-Nyhan patient. 276 Feb 9

The classical Lesch-Nyhan syndrome has the deficiency of hypoxanthine-guanine phosphoribosyltransferase (HGPRT) activity as the result of mutation in the structural gene for the enzyme located on the X chromosome and is believed to be of X-linked recessive or sex-linked mode of inheritance. This is the first report of a girl who showed typical clinical features and biochemical characteristics of the classical Lesch-Nyhan syndrome. Her mother was not a heterozygote for a deficiency of HGPRT. Possible genetic mechanisms responsible for this case were discussed.
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PMID:A female case of the Leach-Nyhan syndrome. 711 49

In an effort to further understand the pathogenesis of Lesch-Nyhan syndrome, an X-linked recessive disease of purine metabolism associated with a deficiency of hypoxanthine-guanine phosphoribosyltransferase, we have analyzed the amino acids in autopsy brain material obtained from five patients and six controls. The amino acids glycine and glutamine serve as substrates for the synthesis of purines in man. Amino acids were measured in the occipital cortex, limbic cortical area, cerebellar cortex, hippocampus and putamen. In general the amino acids were usually lower in concentration in brain material from affected individuals. Most dramatically decreased were threonine, serine, valine, isoleucine, lysine and arginine. Only glutamine and urea were higher than controls. Glutamate, gamma-aminobutyrate and cystathionine were essentially unaffected. The data reported here do not support a role for increased glycine in the pathogenesis of this disease as implied by findings previously reported in cultured cell lines (Skaper and Seegmiller 1976, 1977). The current findings suggest that individuals with Lesch-Nyhan syndrome have a generally lower concentration of free amino acids in brain. This decrease may be involved in the etiology of the disease or the decrease may be a result of the generally malnourished state of these individuals. These results imply that affected patients have a limited supply of amino acid precursors available for the synthesis of either proteins or neurotransmitters that the brain requires for normal function. Thus, the low amino acid pools could be an important factor in the brain dysfunction observed in patients with Lesch-Nyhan syndrome.
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PMID:Decreased amino acids in various brain areas of patients with Lesch-Nyhan syndrome. 713 31

Lesch-Nyhan syndrome is an X-linked recessive disorder caused by molecular defects within the HPRT gene. Deletional forms of this syndrome, most of which are inherited, account for 15% of the cases. In addition, a large percentage of cases are due to de novo point mutations. We have used complementary fluorescence-based PCR assays to analyse disease-causing mutations in three unrelated families: (1) inheritance of dye-labelled PCR products of linked polymorphic loci mapping within and flanking the HPRT gene; (2) dye-labelled exon dosage analysis and (3) automated fluorescence-based DNA sequence analysis. Our results using fluorescent, dye-tagged PCR products show that inheritance of two polymorphic small tandem repeats, HPRTB [AGAT]n, mapping within intron 3 of the HPRT gene, and the CA-repeat at DXS294 can be used to establish linkage to the disease. In addition, we modified a previously described PCR protocol to use fluorescent dye-labelled oligoprimers and an ABI Gene Scanner in order to rapidly quantitate deletional forms of Lesch-Nyhan syndrome. Quantitative PCR analysis of individual exons followed by dosage analysis confirmed a deletion encompassing exon 9. A similar approach was used to confirm a previously described HPRT gene duplication involving exons 2 and 3. In this analysis, we co-amplified the HPRTB [AGAT]n and HUMARA [AGC]n repeats and confirmed increased exon dosage in carriers for the duplication. DNA sequence analysis remains the method of choice for delineating new disease-causing mutations, most of which are non-deletional forms of Lesch-Nyhan syndrome. We have also used a cycle-sequencing strategy employing dye-labelled dideoxy terminators and a laser-activated, fluorescence-emission DNA sequencer in order to define carrier status in 10 family members at risk for Lesch-Nyhan syndrome due to a splice donor mutation in intron 7. Our DNA sequence analyses corroborate small tandem repeat (STR) inheritance patterns in this family. Multiple fluorescence-based strategies should facilitate rapid diagnosis of the various Lesch-Nyhan disease-causing mutations.
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PMID:Fluorescent approaches to diagnosis of Lesch-Nyhan syndrome and quantitative analysis of carrier status. 823 48

The hypoxanthine phosphoribosyltransferase (HPRT) locus is a constitutively expressed housekeeping gene characterized by a notably higher level of expression in the mammalian brain. The enzyme it encodes is key to purine salvage in humans and is the basis for the X-linked recessive disorder, Lesch-Nyhan syndrome (LNS). Methylation in the promoter plays a critical, if not fully understood, role in transcriptional silencing of the locus on the inactive chromosome, possibly by conferring structural stability. In vivo footprinting assays of the promoter region have shown protein interaction with multiple Spl-binding sites, a possible AP2 site, and a potentially novel binding site. In vitro studies of HPRT promoter deletion constructs have identified a minimal promoter element necessary for maximal transcription and a position-dependent, orientation-independent repressor element (HPRT-NE) that functions on heterologous promoters. Regulatory intron elements have also been observed. Studies on transgenic mice bearing HPRT promoter constructs have shown that the minimal promoter element is insufficient for in vivo expression and that HPRT-NE is responsible for conferring neuronal specificity. HPRT-mice possess metabolic defects similar to LNS patients, but fail to develop human behavioral abnormalities, perhaps because of species differences in purine metabolism. A neuronal-specific protein complex appears to be necessary for activator function of HPRT-NE, while a ubiquitously expressed complex may be responsible for repression. Sequence analysis Indicates that the latter complex may depend on the multifunctional transcription factor YY1 for binding. A fuller understanding of HPRT gene regulation will hopefully provide insight into the transcriptional mechanisms controlling the expression of housekeeping and brain-specific genes.
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PMID:Regulation of the hypoxanthine phosphoribosyltransferase gene: in vitro and in vivo approaches. 865 Feb 48

Lesch-Nyhan (LN) disease is a severe X-linked recessive neurological disorder associated with a loss of hypoxanthine guanine phosphoribosyltransferase activity (HPRT, EC 2.4.2.8). We have studied the second example of a female patient with LN disease. The molecular basis of HPRT deficiency in this patient was a previously undescribed nucleotide substitution in exon 6. In this gene, designated HPRT PARIS, a single nucleotide substitution from T to G at base position 558 changed a tyrosine (TAT) to a codon STOP (TAG) (Y153X). Analysis of the mother revealed a normal sequence of the HPRT cDNA and demonstrated that this mutation arose through a de novo gametic event. Allele-specific amplification of exon 6 from the patient's genomic DNA confirmed the single base substitution and showed that the patient was heterozygous for this mutation. Investigation of X-chromosomal inactivation by comparison of methylation patterns of patient's DNA isolated from fibroblasts, T lymphocytes, and polymorphonuclear cells digested with PstI and BstXI, with or without HpaII, and hybridized with M27 beta probe indicated a nonrandom pattern of X-chromosomal inactivation in which there was preferential inactivation of the maternal allele. The data indicate that nonrandom X-inactivation leading to selective inactivation of the maternal gene and a de novo point mutation in the paternal gene were responsible for the lack of HPRT activity in this patient.
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PMID:Novel nonsense mutation in the hypoxanthine guanine phosphoribosyltransferase gene and nonrandom X-inactivation causing Lesch-Nyhan syndrome in a female patient. 866 1

DNA markers on the X chromosome were used to map the locus for an unusual form of X-linked recessive hereditary motor and sensory neuropathy with associated deafness and mental retardation in a three-generation family that was originally reported by Cowchock et al. (Am, J. Hum. Genet. 35: 85A, 1993; Am. J. Med. Genet. 20: 307-315, 1985). This family included seven affected males, three obligate carrier females, and four unaffected males. The patients were severely affected within the first few years of life with distal weakness, muscle atrophy, sensory loss, areflexia, pes cavus, and hammer toes. Five of the seven affected males showed associated deafness, and three of these five individuals also presented with mental retardation or social developmental delay. Motor nerve conduction velocities in affected males were normal to mildly delayed, and sensory conduction was markedly abnormal. Heterozygous females were asymptomatic. Close linkage to the Xg blood group locus (Xp22) and the PGK locus (Xq13) was previously excluded in this family, while weak linkage of the disease gene to DXYS1 (XQ21.3) was suggested. Our current linkage studies and haplotype analysis of 19 microsatellite markers on the long arm of the X chromosome demonstrate that DXS425 (Xq24) and HPRT (Xq26.1) are flanking markers and that the disease gene is closely linked to the markers DXS1122, DXS994, DXS737, DXS1206, and DXS1047.
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PMID:A locus for axonal motor-sensory neuropathy with deafness and mental retardation maps to Xq24-q26. 866 89

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