Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Epidemiologic application of the human in vivo hypoxanthine-guanine phosphoribosyltransferase (hprt) mutation assay requires screening of mutant colonies to differentiate independent from clonal origin. Previously, sibship was defined by Southern blot analysis of T cell receptor gene rearrangements. We report here a more expedient method to determine these rearrangements utilizing the polymerase chain reaction (PCR) and a DNA single-strand conformation polymorphism technique. The results are consistent with those obtained by Southern blotting in that sibship can be defined easily. A major advantage is that cells may be taken directly from the microtiter plate, eliminating the necessity to expand the clones and isolate genomic DNA. Cell lines which have not undergone receptor gene rearrangements cannot serve as PCR templates and do not interfere with this analysis. Furthermore, background from the large number of nonmutant lymphocytes present in the well does not hinder the analysis of the T cell receptor pattern of a mutant. This technique facilitates rapid screening of a large number of clones in a shorter time than Southern blotting, and is useful for the study of in vivo mutation and the clonal expansion of mutants in populations of T cells.
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PMID:Single-strand conformation polymorphisms can be used to detect T cell receptor gene rearrangements: an application to the in vivo hprt mutation assay. 179 41

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

We have determined the molecular basis of hypoxanthine-guanine phosphoribosyltransferase (hprt) mutations that arose in vivo in the T lymphocytes of a normal male subject. In previous studies approximately 16% (23/141) of the mutants from this individual analyzed by Southern blot displayed large structural alterations in hprt. Thirty-two mutants without these large hprt structural alterations produced sufficient hprt cDNA for polymerase chain reaction amplification and DNA sequence analysis. Base substitutions in hprt cDNA resulting in missense mutations and one mRNA splicing aberration (inclusion of intron sequences) were observed in 18/32 of these these mutants; substitutions occurred at both AT and GC base pairs. Small deletions (3/32), a tandem change and a single base insertion were also observed among the hprt cDNAs. Exon skipping and inclusion of hprt intron sequences in the hprt cDNA were observed in an additional 9/32 of the mutants. Analysis of T cell receptor (TCR) gene rearrangements revealed that six of eight mutants with an identical hprt T----A transversion displayed the same TCR rearrangement pattern, indicating that they were clonally related and arose from a single in vivo mutational event.
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PMID:DNA sequence analysis of in vivo hprt mutation in human T lymphocytes. 226 8

This report describes T cell lines derived from a patient with subacute cutaneous lupus after treatment with intravenous pulse cyclophosphamide. We selected for mitotically active, hypoxanthine-guanine phosphoribosyltransferase-deficient (HPRT-) T cells, by culture in a selective medium containing 6-thioguanine. When HPRT- cell lines were derived 6 days after pulse cyclophosphamide (CYC) treatment, they were predominantly CD8+ and T cell receptor (TCR) gamma/delta+, producing interferon-gamma (IFN gamma). Cell lines derived 21 days after CYC treatment were CD4+, TCR alpha/beta+ and produced both IFN gamma and interleukin-4. These results support a possible role for gamma/delta+ T cells in subacute cutaneous lupus and suggest a mechanism for the therapeutic effect of CYC.
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PMID:Characteristics of HPRT-mutant T cell lines in a lupus patient treated with cyclophosphamide. 794 81

T cells from patients who had received chemotherapy for B-lineage acute lymphocytic leukemia were studied to determine whether genetic instability, a principal characteristic of cancer cells, can also occur in nonmalignant cells. Consistent with expectations for a genetic instability phenotype, multiple mutations were detected in the hypoxanthine-guanine phosphoribosyltransferase (HPRT) reporter gene in independently isolated mutant T cells expressing identical rearranged T cell receptor beta (TCRbeta) gene hypervariable regions. These results indicate that cancer treatment can lead to genetic instability in nonmalignant cells in some individuals. They also suggest a mechanistic paradigm for the induction of second malignancies and drug resistance.
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PMID:Emergence of genetic instability in children treated for leukemia. 1077 10

We tested a surrogate selection approach utilizing mutation at a reporter gene [hypoxanthine-guanine phosphoribosyltransferase (hprt)] as a probe for in vivo cell division, for detection of clonal T cell expansion in human T lymphotropic (HTLV-1) carriers. Peripheral blood samples from HTLV-1-infected individuals with HTLV-1-associated myelopathy/tropical spastic paraparesis (HAM/TSP) were tested to determine the hprt mutant frequency (Mf). Wild-type and hprt mutant T cell clones were isolated, and clonal identity determined by multiplex PCR and DNA sequencing of T cell receptor (TCR) variable region beta-chain (TCR BV) and third complementarity determining regions (CDR3). Seven samples from HAM/TSP patients were tested, and Mfs were within the normal range for adults (mean 11.3 x 10(-6), max 22.4 x 10(-6), min 5.6 x 10(-6)). The frequency of HTLV-1 infection in wild-type and hprt mutant T cells from HAM/TSP patients was determined to identify enrichment in the mutant fraction of cells. This analysis was performed on 196 isolates from 6 individuals with HAM/TSP. In each case, there is enrichment for virally infected cells in the hprt mutant fraction of isolates. Ten mutant and eight wild-type isolates from sample LS42A (Mf 8.4 x 10(-6)) were tested for clonality by TCR BV PCR and sequencing. Of the 10 hprt mutants, there were two in vivo-expanded clones (four isolates with two identical TCRs, or 80% unique TCR sequences). These studies may provide new insights into the precise mechanism of HTLV-1 leukemogenesis, and aid in the study of mutator phenotypes generated by a combination of Tax-mediated in vivo expansion and mutagenesis.
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PMID:Hypoxanthine-guanine phosphoribosyltransferase reporter gene mutation for analysis of in vivo clonal amplification in patients with HTLV type 1-associated Myelopathy/Tropical spastic paraparesis. 1108 Aug 21

The X-chromosomal gene for hypoxanthine-guanine phosphoribosyltransferase (HPRT), first recognized through its human germinal mutations, quickly became a useful target for studies of somatic mutations in vitro and in vivo in humans and animals. In this role, HPRT serves as a simple reporter gene. The in vivo mutational studies have concentrated on peripheral blood lymphocytes, for obvious reasons. In vivo mutations in T cells are now used to monitor humans exposed to environmental mutagens with analyses of molecular mutational spectra serving as adjuncts for determining causation. Studies of the distributions of HPRT mutants among T cell receptor (TCR) gene-defined T cell clones in vivo have revealed an unexpected clonality, suggesting that HPRT mutations may be probes for fundamental cellular and biological processes. Use of HPRT in this way has allowed the analyses of V(D)J recombinase mediated mutations as markers of a mutational process with carcinogenic potential, the use of somatic mutations as surrogate markers for the in vivo T cell proliferation that underlies immunological processes, and the discovery and study of mutator phenotypes in non-malignant T cells. In this last application, the role of HPRT is related to its function, as well as to its utility as a reporter of mutation. Most recently, HPRT is finding use in studies of in vivo selection for in vivo mutations arising in either somatic or germinal cells.
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PMID:HPRT mutations in humans: biomarkers for mechanistic studies. 1167 87

There is continued controversy as to the sequential steps and mechanism(s) responsible for the in vivo acquisition of multiple mutations during neoplastic transformation. We investigated the in vivo clonality and mutational spectra of hypoxanthine-guanine phosphoribosyltransferase (HPRT) mutations in T cells from children with acute lymphocytic leukemia (ALL) to gain insight into the mutagenic mechanisms associated with leukemogenesis. We observed several instances of multiple, independent HPRT mutations accumulating in vivo in T cell receptor (TCR) gene defined clones that had undergone extensive pre- and/or post-thymic expansion following chemotherapy. In addition, we also detected the accumulation of multiple unique single mutations within distinct expanding post-thymic T cell clones. This pattern of clonally restricted hypermutability is compatible with extensive cell proliferation and selection alone without postulating genomic instability. These observations provide a paradigm for a continuum of cellular events that eventually results in the clonal accumulation of mutations in selected populations of cells in vivo and may provide insight into the primary genetic events associated with leukemogenesis, as well as the development of second malignancies and drug resistance following chemotherapy.
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PMID:Accumulation of somatic mutations in proliferating T cell clones from children treated for leukemia. 1175 11

Paroxysmal nocturnal haemoglobinuria (PNH) results from acquired mutations in the PIG-A gene of an haematopoietic stem cell, leading to defective biosynthesis of glycosylphosphatidylinositol (GPI) anchors and deficient expression of GPI-anchored proteins on the surface of the cell's progeny. Some laboratory and clinical findings have suggested genomic instability to be intrinsic in PNH; this possibility has been supported by mutation analysis of hypoxanthine-guanine phosphoribosyltransferase (HPRT) gene abnormalities. However, the HPRT assay examines lymphocytes in peripheral blood (PB), and T cells may be related to the pathophysiology of PNH. We analysed the molecular and functional features of HPRT mutants in PB mononuclear cells from eleven PNH patients. CD8 T cells predominated in these samples; approximately half of the CD8 cells lacked GPI-anchored protein expression, while only a small proportion of CD4 cells appeared to derive from the PNH clone. The HPRT mutant frequency (Mf) in T lymphocytes from PNH patients was significantly higher than in healthy controls. The majority of the mutant T lymphocyte clones were of CD4 phenotype, and they had phenotypically normal GPI-anchored protein expression. In PNH patients, the majority of HPRT mutant clones were contained within the Vbeta2 T cell receptor (TCR) subfamily, which was oligoclonal by complementarity-determining region three (CDR3) size analysis. Our results are more consistent with detection of uniform populations of expanded T cell clones, which presumably acquired HPRT mutations during antigen-driven cell proliferation, and not due to an increased Mf in PNH. HPRT mutant analysis does not support underlying genomic instability in PNH.
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PMID:Frequent HPRT mutations in paroxysmal nocturnal haemoglobinuria reflect T cell clonal expansion, not genomic instability. 1508 21

The development of risk-directed treatment protocols over the last 25 years has resulted in an increase in the survival rates of children treated for cancer. As a consequence, there is a growing population of pediatric cancer survivors in which the long-term genotoxic effects of chemotherapy is unknown. We previously reported that children treated for acute lymphocytic leukemia have significantly elevated somatic mutant frequencies at the hypoxanthine-guanine phosphoribosyltransferase (HPRT) gene in their peripheral T cells. To understand the molecular etiology of the increase in mutant frequencies following chemotherapy, we investigated the HPRT mutation spectra and the extent of clonal proliferation in 562 HPRT T cell mutant isolates of 87 blood samples from 47 subjects at diagnosis, during chemotherapy, and postchemotherapy. We observed a significant increase in the proportion of CpG transitions following treatment (13.6-23.3%) compared with healthy controls (4.0%) and a significant decrease in V(D)J-mediated deletions following treatment (0-6.8%) compared with healthy controls (17.0%). There was also a significant change in the class type percentage of V(D)J-mediated HPRT deletions following treatment. In addition, there was a >5-fold increase in T cell receptor gene usage-defined mean clonal proliferation from diagnosis compared with the completion of chemotherapeutic intervention. These data indicate that unique genetic alterations and extensive clonal proliferation are occurring in children following treatment for acute lymphocytic leukemia that may influence long-term risks for multifactorial diseases, including secondary cancers.
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PMID:Analysis of genetic alterations and clonal proliferation in children treated for acute lymphocytic leukemia. 1695 Nov 56


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