Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P00492 (hypoxanthine-guanine phosphoribosyltransferase)
 2,385 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

It has been proposed that DNA methylation is involved in the mechanism of X inactivation, the process by which equivalence of levels of X-linked gene products is achieved in female (XX) and male (XY) mammals. In this study, Southern blots of female and male DNA digested with methylation-sensitive restriction endonucleases and hybridized to various portions of the cloned mouse hprt gene were compared, and sites within the mouse hprt gene were identified that are differentially methylated in female and male cells. The extent to which these sites are methylated when carried on the active and inactive X chromosomes was directly determined in a similar analysis of DNA from clonal cell lines established from a female embryo derived from a mating of two species of mouse, Mus musculus and Mus caroli. The results revealed two regions of differential methylation in the mouse hprt gene. One region, in the first intron of the gene, includes four sites that are completely unmethylated when carried on the active X and extensively methylated when carried on the inactive X. These same sites are extensively demethylated in hprt genes reactivated either spontaneously or after 5-azacytidine treatment. The second region includes several sites in the 3' 20kilobases of the gene extending from exon 3 to exon 9 that show the converse pattern; i.e., they are completely methylated when carried on the active X and completely unmethylated when carried on the inactive X. At least one of these sites does not become methylated after reactivation of the gene. The results of this study, together with the results of previous studies by others of the human hprt gene, indicate that these regions of differential methylation on the active and inactive X are conserved between mammalian species. Furthermore, the data described here are consistent with the idea that at least the sites in the 5' region of the gene play a role in the X inactivation phenomenon and regulation of expression of the mouse hprt gene.
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PMID:Methylation of the mouse hprt gene differs on the active and inactive X chromosomes. 302 38

T-Lymphocyte clones from healthy males and females and from melphalan-treated ovarian carcinoma patients were studied with regard to sporadic chromosomal aberrations and clonal karyotype: 85% of the clones showed a normal, diploid karyotype, and sporadic aberrations were found to occur at about the same low frequency as in short-term lymphocyte cultures. An abnormal karyotype was found in 11 of the 72 clones studied. Loss of an X chromosome, which was the most frequent abnormality in female clones, was verified by densitometry of Southern blots of clonal DNA hybridized with a probe for the X-linked hprt locus. Abnormal karyotype due to chromosomal rearrangement was found in nine clones, and, in five of these, chromosome 12 was involved in the aberration. About 33% of the clones from melphalan-treated patients had an abnormal karyotype, in comparison with about 10% of clones from healthy control subjects. This difference indicated that melphalan treatment may induce stable chromosomal rearrangements that are compatible with cellular proliferation and clonal expansion.
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PMID:Karyotypes of human T-lymphocyte clones. 326 69

Previous work based on the relative tissue content of glucose-6-phosphate dehydrogenase isoenzymes suggested that parathyroid adenomas, like primary hyperplasia, may be multicellular (not clonal) in origin. We have reexamined this issue by using two independent molecular genetic methods. We report tumor-cell-specific restriction-fragment-length alterations involving the parathyroid hormone gene from two human parathyroid adenomas. These abnormal restriction fragments indicate that in each case a clonal proliferation of cells was present and also suggest that DNA alterations involving the parathyroid hormone locus may be important in the tumorigenesis or clonal evolution of some parathyroid adenomas. In addition, we used a restriction-fragment-length polymorphism in an X-linked gene (hypoxanthine phosphoribosyltransferase) to examine the clonality of eight parathyroid adenomas in women. Of these eight adenomas, six had the DNA hybridization pattern of monoclonality, and two had an equivocal pattern. None of five hyperplastic parathyroid glands had a monoclonal pattern. We conclude that some (and perhaps many) single parathyroid adenomas are monoclonal neoplasms. Our observations suggest that there is a fundamental biologic difference between parathyroid adenomas and primary hyperplasia--a difference that could prove useful in distinguishing these entities clinically.
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PMID:Monoclonality and abnormal parathyroid hormone genes in parathyroid adenomas. 334 17

This paper compares erythrocyte nucleotide levels in patients with eight different inherited purine or pyrimidine enzyme defects identified amongst a variety of patients referred predominantly for investigation of severe neurological abnormalities, or immunodeficiency syndromes. Characteristic nucleotide patterns were identified only in the six disorders (four involving purine and two pyrimidine metabolism) where there was clinical evidence of cellular toxicity. They were frequently related to the accumulation of abnormal metabolites in body fluids. These erythrocyte studies have demonstrated the following. 1. ATP depletion is not an invariable feature of adenosine deaminase (ADA) deficiency, but the accumulation of the deoxyribonucleotides dATP, or dGTP, is diagnostic of ADA, or purine nucleoside phosphorylase (PNP) deficiency, respectively. The early accumulation of dATP in foetal blood is a valuable aid to prenatal diagnosis of ADA deficiency. 2. GTP depletion appears to reflect the degree of CNS involvement in hypoxanthine-guanine phosphoribosyltransferase and PNP deficiency, as well as PP-ribose-P synthetase superactivity. Other diagnostic changes involving increased pyrimidine sugars and increased or decreased NAD levels, or ZTP in Lesch Nyhan erythrocytes, show no consistent correlation with the clinical manifestations. 3. These altered nucleotide levels afford a novel means for carrier detection of the X-linked defect associated with aberrant PP-ribose-P synthetase activity, where no other test is yet available. Measurement of erythrocyte nucleotide levels thus provides a simple and rapid aid to diagnosis and may sometimes be essential for determining prognosis, carrier detection, or monitoring therapy. These characteristic 'fingerprints' may give some insight into the mechanism by which the abnormal gene product produces disease. Such grossly altered nucleotide levels could also result in loss of erythrocyte flexibility, increased destruction and hence the anaemia, or other clinical manifestations, observed in some disorders.
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PMID:Altered erythrocyte nucleotide patterns are characteristic of inherited disorders of purine or pyrimidine metabolism. 337 Aug 20

Somatic mutations, either spontaneous or produced by identifiable mutagens, are thought to be important in the aetiology of cancer and in the ageing process. The study of somatic mutations in human cells in vivo has recently been made possible by the development of techniques for enumeration and clonal expansion of lymphocytes mutated at the chromosome X-linked hypoxanthine phosphoribosyl transferase (HPRT) locus. We have studied the molecular basis of in vivo hprt mutations in human lymphocytes and report here that a surprisingly high proportion (57%) involve substantial gene alterations which are not evident cytogenetically. These major gene alterations include deletions, exon amplifications and novel, sometimes amplified, bands on Southern analysis. Such changes emphasize the fluid nature of information in DNA and may be indicative of general mechanisms by which functional gene loss is involved in the aetiology of cancer and the homeostatic failure of ageing.
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PMID:In vivo somatic mutations in human lymphocytes frequently result from major gene alterations. 400 Feb 64

For study of the basis of an X-linked form of gout in man, several clonal lines deficient in hypoxanthine-guanine phosphoribosyltransferase (EC 2.4.2.8) were selected from the human lymphoblast line WI-L2 by spontaneous and mutagen-induced resistance to 10 muM 8-azaguanine. Three groups could be defined: (1) clones with less than 1% of normal enzyme activity, unable to incorporate [(3)H]hypoxanthine detectable by radioautography, unable to tuilize exogenous hypoxanthine as a source of purines, and showing a 2- to 4-fold accelerated rate of production of early intermediates in de novo purine biosynthesis; (2) clones with 56-63% of normal enzyme activity, decreased incorporation per cell of [(3)H]hypoxanthine measured by radioautography, able to utilize exogenous hypoxanthine, and showing 1.2- to 2.8-fold purine overproduction; (3) clones with 10-15% of normal enzyme activity, able to utilize hypoxanthine but not incorporating amounts detectable by radioautography, and showing a 2.3- to 2.5-fold increase in purine biosynthesis. Resistant clones generated by ICR 191 mutagenesis resembled Group 1 clones. Heat inactivation studies in crude extracts from certain clones in Group 2 suggest a structural gene mutation, but no qualitative alteration in enzyme could be detected by starch gel electrophoresis. These phenotypes have persisted over at least 300 generations of nonselective growth, with retention of a diploid karyotype.
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PMID:Expression of purine overproduction in a series of 8-azaguanine-resistant diploid human lymphoblast lines. 452

Clones of skin fibroblasts cultured from the mother of two sons with X-linked hypoxanthine-guanine phosphoribosyl transferase deficiency (Lesch-Nyhan syndrome) were assayed for activity of this enzyme by measurement of the incorporation of (3)H-guanine into guanylic acid as counts per minute per microgram of protein and by autoradiography. The demonstration of two populations of clones, wild-type clones with normal enzyme activity and mutant clones unable to incorporate (3)H-guanine, is evidence that the locus for hypoxanthineguanine phosphoribosyl transferase on one of the X chromosomes is inactive.
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PMID:X-linked hypoxanthine-guanine phosphoribosyl transferase deficiency: heterozygote has two clonal populations. 486 11

The activity of hypoxanthine-guanine phosphoribosyltransferase in unfertilized mouse ova and in mouse embryos at the two-cell stage is proportional to the number of X chromosomes present during oogenesis. This indicates that the enzyme is X-linked in the mouse and that inactivation of the X chromosome does not occur during oogenesis. However, the genetic dosage effect of the X chromosomes is not present after the increase in hypoxanthine-guanine phosphoribosyltransferase activity in the late morula and the blastocyst stages. These results indicate that the X-linked enzyme lacuts is expressed sometimne after fertilization but before the morula stage.
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PMID:Expression of the mammalian X chromosome before and after fertilization. 501 77

Humans with the Lesch-Nyhan syndrome have an X-chromosomal mutant gene that causes severe neurological and developmental abnormalities. The patients are deficient in hypoxanthine-guanine phosphoribosyltransferase, which converts hypoxanthine to inosinic acid, a major precursor of adenine and guanine nucleotides. Paradoxically, the enzyme defect causes hypernormal de novo synthesis of inosinic acid, which manifests itself as excesses of hypoxanthine, xanthine, and uric acid. The first step in the de novo pathway is thought to be rate-limiting, due to feedback repression by adenine and guanine nucleotides. The derepressed rate of purine production in mutants and their failure to thrive could result from reduction in the amounts of nucleotides derived from inosinic acid to levels that are inadequate for normal feedback control and for nucleic acid synthesis needed in growth. Studies with cultured cells, reported here, support the interpretation that mutants are, in effect, nucleotide-deficient. Skin fibroblasts from patients fail to proliferate in media that do not contain supplementary adenine or folic acid, a participant in two stages of purine biosynthesis. The folic acid requirement of mutant cells is at least 50-fold greater than that of normal cells, which can synthesize all the nucleotides needed for growth without exogenous adenine. Both folic acid and adenine supplements are thought to provide mutant cells with the means of making more inosinic acid available for conversion to adenine and guanine nucleotides. It is not clear why the availability of inosinate or its conversion to other nucleotides is impaired. Therapy with adenine or folic acid begun at the time of birth may avert development of the disease in mutant males.The relevant gene is X-linked and shows clonal, single-allele-expression: phenotypically normal and phenotypically mutant clones have been derived from females heterozygous for the mutant gene. The phenotypically mutant heterozygous clones have the same requirement for adenine or folic acid as cells from hemizygous mutant males, an indication that the normal allele is repressed in these clones. The adenine-folic acid requirement of mutant cells provides a method of direct, clonal selection for rare, phenotypically normal cells in mutant populations, which is applicable to the single-active-X problem and other in vitro genetic studies.
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PMID:Purine requirement of cells cultured from humans affected with Lesch-Nyhan syndrome (hypoxanthine-guanine phosphoribosyltransferase deficiency). 525 31

Cultured skin fibroblasts from patients deficient for the enzyme hypoxanthine-guanine phosphoribosyltransferase (PRT) activity show very low but nevertheless significant levels of apparent PRT enzyme despite absence of detectable activity (<0.004% of normal) in erythrocytes of the same patients. In fibroblasts this mutant enzyme is more heat labile than the normal enzyme. These findings indicate that PRT deficiency in this disorder is not due to a deletion mutation of the PRT locus.Individual cultured skin fibroblasts from heterozygote females for PRT deficiency show normal, intermediate, or very low levels of PRT activity. The mosaicism demonstrated in the heterozygotes for this X-linked disorder accounts for the cells with normal and very low activities of PRT. Intermediate activity can best be explained by the phenomenon of metabolic cooperation presumably from the transfer of either PRT enzyme or messenger RNA, from normal to mutant cells.
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PMID:Hypoxanthine-guanine phosphoribosyltransferase deficiency: activity in normal, mutant, and heterozygote-cultured human skin fibroblasts. 526 39


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