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)

Recent molecular analysis of in vivo-derived hprt mutant T-lymphocytes cloned from human blood show that mutants occurring at the normal frequency (approximately 5 X 10(-6) in healthy young individuals generally represent independent hprt mutations. Here we report that in an individual with a high mutant frequency (86-620 X 10(-6],92% (61/66) of the mutant clones are descendents of an original mature T-cell precursor that has undergone in vivo clonal expansion. Therefore, these mutants could represent as few as one original hprt mutation. If so, correcting for the clonal expansion yields a revised calculated mutant frequency (Mf) value for this individual that is near the normal range. These hprt mutant clones all showed identically rearranged T-cell receptor (TCR) beta and gamma gene patterns by Southern blot analysis. All the clones were surface marker CD4+, showed no obvious chromosomal aberration, and had no detectable hprt gene structural alteration. This TCR-defined T-cell clone appears to have expanded in the blood of the individual over a 6-month period and persists at high levels after nearly 4 years. This finding illustrates the need to analyze mutants from individuals with high mutant frequencies at the molecular level in order to estimate hprt mutation frequency from the calculated hprt mutant frequency. The possibility that spontaneous hprt mutants might arise in vivo preferentially in dividing cells, and implications of this, are discussed.
Environ Mol Mutagen 1988
PMID:Molecular analyses of in vivo hypoxanthine-guanine phosphoribosyltransferase mutations in human T-lymphocytes: II. Demonstration of a clonal amplification of hprt mutant T-lymphocytes in vivo. 326 8

Ellipticine is a potent clastogen in CHO cells (Bhuyan et al: Cancer Res 32:2538-2544, 1972). The reported mutant frequencies produced by ellipticine at the hprt locus in CHO cells are less than or equal to 50/10(6) survivors (background approximately 2/10(6); survival = 10%) (DeMarini et al: Cancer Res 43:3544-3552, 1983; Singh and Gupta: Cancer Res 43:577-584, 1983; Environ Mutagen 5:871-880, 1983). In the present study, the mutagenic and clastogenic activities of ellipticine were evaluated in L5178Y/TK(+/-)-3.7.2C mouse lymphoma cells. Unlike the results at the hprt locus, ellipticine is a potent mutagen at the tk locus, with as little as 50 ng/ml producing an induced mutant frequency of 142/10(6) survivors (background = 56/10(6); survival = 61%) and 198/10(6) survivors (background = 72/10(6); survival = 50%) in two separate experiments. This same dose of ellipticine induced 44 aberrations per 100 metaphases (background = 5/100 cells). At 400 ng/ml, ellipticine induced over 1,000 mutants/10(6) survivors at approximately 10% survival and produced 242 aberrations/100 cells. Under the test conditions, most of the aberrations were chromosome rather than chromatid events. As expected for a compound acting primarily by a clastogenic mechanism, almost all of the TK-deficient mutants were small colonies. Thus, ellipticine is a potent clastogen in both Chinese hamster cells and in mouse lymphoma cells; however, it is a potent mutagen at only the tk locus and not at the hprt locus. These results support the hypothesis that the location of the target gene affects the ability of the assay to detect both intragenic events and events causing the loss of multiple loci. Thus, a heterozygous locus (like tk) but not a functionally hemizygous locus (like hprt) may permit the more efficient detection of mutagens that act primarily by a clastogenic mechanism.
Environ Mutagen 1987
PMID:Mutagenesis of L5178Y/TK(+/-)-3.7.2C mouse lymphoma cells by the clastogen ellipticine. 381 14

The mutagenic response to ultraviolet light and X-irradiation at a number of well characterized independent genetic loci, viz those conferring resistance to 6-thioguanine, ouabain, emetine, methylglyoxal (bis) guanylhydrazone (MGBG), and 5, 6-dichlororibofuranosyl benzimidazole (DRB), has been determined. Upon exposure of cells to UV light in the range of 70 to 180 ergs/mm2, the frequency of mutants at all of the above genetic loci increased in a linear dose-dependent manner. However, some genetic-locus-specific differences in response to UV light were observed in these studies. In contrast to UV light, exposure of cells to X-rays caused a linear dose-dependent increase in the frequency of mutants at only the thioguanine-resistant (Thgr) locus, which affects the purine salvage pathway enzyme hypoxanthine-guanine phosphoribosyltransferase, that is not essential for growth under these conditions. The other genetic loci that affect essential cellular functions (and hence should detect only specific base substitution types of mutations), however, showed no increase in the frequencies of mutants upon X-irradiation of cells. These results are in accordance with the nature of the genetic lesions which are caused by these agents and the properties of these genetic markers.
Environ Mutagen 1982
PMID:Mutagenic response to ultraviolet light and X-rays at five independent genetic loci in Chinese hamster ovary cells. 714 Jun 73

The hypoxanthine-guanine phosphoribosyltransferase (hprt) locus has been widely used as a selectable genetic marker for studies of mammalian cell mutagenesis. We report here the spontaneous mutation spectrum at the hprt locus in 64 independently isolated mutants of Chinese hamster ovary (CHO) cells. All nine hprt exons were simultaneously analyzed via multiplex polymerase chain reaction (PCR) for rapid detection of gene deletions or insertions. Structural point mutations were identified by direct sequence analysis of the PCR amplified cDNA. The molecular nature of RNA splicing errors and insertions was analyzed by solid-phase direct exon sequencing. Single base substitutions were found in 24 mutants (38%), of which 21 were missense and 3 were nonsense mutations. Transversions were about twice as frequent as transitions. Fifteen mutants (23%) had deletions involving either intragenic small fragments (2), single exons (9), or multiple exons (4). The majority of deletion breakpoints (71%) were located in regions surrounding exons 4, 5, and 6. RNA splicing mutations were observed in 15 mutants (23%) and affected exons 3-8; most (6/15) resulted in the loss of exon 7. Two insertion mutants, one with a 209 bp insert in exon 4 and the other with a 88 bp insert accompanied by a 24 bp deletion in exon 6, represent novel mutations reported for the first time in spontaneous mutants of the mammalian hprt gene.
Environ Mol Mutagen 1995
PMID:Molecular nature of spontaneous mutations at the hypoxanthine-guanine phosphoribosyltransferase (hprt) locus in Chinese hamster ovary cells. 755 9

To assess the potential effect of maternal environments on human embryonic/fetal somatic mutation, we measured the frequencies of hypoxanthine-guanine phosphoribosyltransferase (HPRT, hprt gene), mutant T lymphocytes (Mf), and glycophorin A (GPA) variant erythrocytes (Vf) of both allele-loss (phi/N) and allele-loss-and-duplication (N/N) phenotypes in umbilical cord blood. The mean hprt Mf (1.40 +/- 1.11 x 10(-6), N = 66) and GPA Vf (phi/N 4.0 +/- 2.2 x 10(-6), N = 114; N/N 2.7 +/- 2.0 x 10(-6), N = 91) were significantly lower than those previously reported for adult populations. In addition, the hprt Mf was significantly higher than that of a published study of newborn cord blood samples from a geographically distant population (0.64 +/- 0.41 x 10(-6), N = 45, P < 0.01; t test, P < 0.01, Mann-Whitney U test). An examination of the demographic data from these two populations led to the sampling of 10 additional newborns specifically matched to the published study for maternal socioeconomic status. The hprt Mf (0.70 +/- 0.49 x 10(-6)) of this selected population was consistent with the published report and significantly lower than that of our initial population (P < 0.03, t test; P < 0.01, Mann-Whitney U test). These results indicate that there is an environmental effect related to maternal socioeconomic status on the frequency of embryonic/fetal somatic mutations. Molecular analyses of hprt mutants from this cohort with elevated Mf revealed a significant decrease in the relative contribution of gross structural mutations to the overall Mf (25 of 38, 66% vs. 34 of 41, 83%, P = 0.024, chi 2 test), suggesting that the higher Mf resulted from an elevated level of "point" mutations. No individual maternal demographic or environmental factor was identified as contributing more significantly than other any factor to the observed variability in hprt Mf or GPA Vf.
Environ Mol Mutagen 1995
PMID:Sensitivity of somatic mutations in human umbilical cord blood to maternal environments. 758 45

The mutagenic impact of various environmental and therapeutic agents can now be directly assayed in humans by the T-lymphocyte cloning assay. We have previously reported that following radioimmunoglobulin therapy, cancer patients exhibited increased mutant frequency of the hprt locus and an increased yield of large intergenic deletions compared to unexposed controls. Here we report the results of the analysis of 26 independent hprt mutations in nine cancer patients who underwent radioimmunoglobulin therapy. The majority of mutations (52%) had lost exon sequences from the mRNA. The remaining mutations were 20% small deletions and frameshifts and 28% base substitutions. The type of mutations observed were similar to those seen in unexposed controls. The site distribution of the mutations, however, indicates that some sequence contexts may be more sensitive to radiation mutagenesis than others.
Environ Mol Mutagen 1995
PMID:Analysis of point mutations in the hprt gene of cancer patients treated with radioimmunoglobulin therapy. 758 46

Three-week-old Big Blue (BB) B6C3F1 mice were given a single i.p. injection of ENU. Three weeks later, splenic T cells were isolated from each animal by ficoll gradient centrifugation and divided into two samples. One sample was cultured to measure hprt- mutation and the other was used to extract DNA for lacI- analysis. T cells from BB mice exposed to 0, 4.5, 13.5, and 40 mg ENU/kg (9 or 10 animals per group) displayed dose-related increases in the frequency of both hprt- and lacI- mutations. Within each treatment group, the ENU-induced mutation frequency (average observed mutation frequency minus average control frequency) was remarkably similar at the two loci. This suggests that treatments that increase mutation frequency at the endogenous hprt gene also produce similar incremental increases at the BB lacI transgene. However, because of the ten-fold higher spontaneous mutation rate at lacI, the fold-increase over background produced by ENU at this locus was significantly less than the fold-increase produced at hprt. For example, the 4.5 mg ENU/kg treatment produced a 5.2-fold increase above background at hprt (P = 0.001), whereas only a 1.5-fold increase was produced at lacI (P = 0.140). Consequently, mutagenic insults that produce up to a fivefold increase in mutation frequency at an endogenous locus may be difficult to detect at the lacI transgene. Finally, the ENU-induced response at hprt in BB mice was identical to that in generic B6C3F1 mice, suggesting that there are no inherent differences between transgenic and normal mice in their response to this mutagenic agent.
Environ Mol Mutagen 1995
PMID:Relative sensitivity of the endogenous hprt gene and lacI transgene in ENU-treated Big Blue B6C3F1 mice. 764 13

Human TK6 lymphoblasts were treated with the acridine derivative ICR-191, and mutants at the hprt locus were isolated. Mutant hprt cDNA was reverse-transcribed from mRNA, amplified by polymerase chain reaction (PCR), and sequenced. Additions of single G:C base pairs (+1 frameshift mutations) in repetitive G:C sequences were found in 82% (32/39) of the mutants. Sixteen of the +1 frameshifts analyzed were located in a single sequence of six consecutive guanine bases in exon 3. The remaining +1 frameshifts occurred at six different GGG sequences (14 mutants) and a single GGGG sequence (2 mutants) in other hprt exons. The repetitive guanine sequences that underwent frameshift mutagenesis were located in both the transcribed and nontranscribed strands of hprt. No single base deletions (-1 frameshift mutations) were observed. Base substitutions were observed in 13% (5/39) of the clones analyzed and occurred at both G:C and A:T bases. Loss of exon 4 from the cDNA was also observed in 5% (2/39) of the mutants. Hprt mutants containing seven consecutive guanines (produced from a +1 frameshift in a GGGGGG sequence) were treated with ICR-191 and wild-type revertants selected in CHAT medium. Revertants were recovered at a frequency of approximately 10(-7) and contained the wild-type sequence (GGGGGG) in all clones analyzed. The observed frequency of ICR-191-induced-1 frameshift reversion in the GGGGGGG sequence was approximately 500-fold lower than the estimated frequency of +1 frameshifts observed in the wild-type GGGGGG sequence following the same ICR-191 treatment. These results suggest that ICR-191 produces predominantly +1 frameshift mutations at the hprt locus in human cells.
Environ Mol Mutagen 1994
PMID:Mutational spectrum of ICR-191 at the hprt locus in human lymphoblastoid cells. 814 7

Mutations arising in vivo in recorder genes of human blood cells provide biomarkers for molecular epidemiology by serving as surrogates for cancer-causing genetic changes. Current markers include mutations of the glycophorin-A (GPA) or hemoglobin (Hb) genes, measured in red blood cells, or mutations of the hypoxanthine-guanine phosphoribosyltransferase (hprt) or HLA genes, measured in T-lymphocytes. Mean mutant frequencies (variant frequencies) for normal young adults are approximately: Hb (4 x 10(-8)) < hprt (5 x 10(-6)) = GPA (10 x 10(-6)) < HLA (30 x 10(-6)). Mutagen-exposed individuals show decided elevations. Molecular mutational spectra are also being defined. For the hprt marker system, about 15% of background mutations are gross structural alterations of the hprt gene (e.g., deletions); the remainder are point mutations (e.g., base substitutions or frameshifts). Ionizing radiations result in dose-related increases in total gene deletions. Large deletions may encompass several megabases as shown by co-deletions of linked markers. Possible hprt spectra for defining radiation and chemical exposures are being sought. In addition to their responsiveness to environmental mutagens/carcinogens, three additional findings suggest that the in vivo recorder mutations are relevant in vivo surrogates for cancer mutations. First, a large fraction of GPA and HLA mutations show exchanges due to homologous recombination, an important mutational event in cancer. Second, hprt mutations arise preferentially in dividing T-cells, which can accumulate additional mutations in the same clone, reminiscent of the multiple hits required in the evolution of malignancy.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:In vivo mutations in human blood cells: biomarkers for molecular epidemiology. 831 11

The occurrence of deletions, coding sequence alterations, and intronic changes leading to aberrant splicing has been characterized among 33 spontaneous HPRT- mutants in TK6 human lymphoblasts. Deletions detectable by multiplex PCR amplification accounted for 45% (15/33) of the mutant collection. Base substitutions represented 30% (10/33) of the total, and were predominated by changes at G:C base pairs. The remaining mutants were distributed among frameshifts (9%, 3/33), small deletions (6%, 2/33), and compound alterations (9%, 3/33). Five mutants (15%) demonstrated aberrant splicing of the hprt transcript. A cluster of 4 deletion/insertion events was identified in hprt exon 6. A nearly perfect 13 bp duplication differed from the original sequence only by an A:T to G:C transition, which was observed as a unique alteration in another HPRT- mutant. A model involving correction of a mismatch in a secondary structure formed by the duplicated sequence may account for these results.
Environ Mol Mutagen 1993
PMID:Spectrum of spontaneous HPRT- mutations in TK6 human lymphoblasts. 840 73

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