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Query: UNIPROT:P00492 (
hypoxanthine-guanine phosphoribosyltransferase
)
2,385
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The effect of ionizing radiation on methotrexate (MTX) resistance and gene amplification in cultured mammalian cells was investigated. X-irradiation of mouse EMT-6 cells induced cell killing and MTX resistance due to amplification of dihydrofolate reductase (dhfr) gene in a dose-dependent manner. The highest yields of mutant cells were obtained at approximately D37 (the dose at which 37% of the cells survive), where the frequency of MTX-resistant cells was four- to eightfold over that of the unirradiated population. The proportion of MTX-resistant cells among the survivors increased logarithmically with dose, up to a 1000-fold increase over unirradiated cells at 1000 cGy, the highest dose tested. The induced frequency of MTX resistance after X-irradiation was greater than the induced frequency of 8-azaguanine resistance, which indicates deletion of the
hypoxanthine phosphoribosyltransferase
gene. Inhibition of
poly(ADP-ribose) polymerase
by the addition of 3-aminobenzamide before irradiation increased both cell killing and MTX resistance. Metaphase spreads of chromosomes from EMT-6 cells that had been irradiated and subjected to stepwise increases in MTX concentration showed numerous double minutes. Pulsed-field gel electrophoresis of the DNA from cells containing radiation-induced double minutes showed that many copies of the dhfr gene were present on circular DNA molecules of 10(6), 2 x 10(6), and 3 x 10(6) base pairs. These results suggest a relationship between the induction of chromosome aberrations and the induction of gene amplification.
...
PMID:X-ray induction of methotrexate resistance due to dhfr gene amplification. 212 27
The influence of inhibitors of
poly(ADP-ribose) polymerase
such as 3-aminobenzamide (3AB) and benzamide (B) on the spontaneously occurring as well as mutagen induced chromosomal aberrations, sister chromatid exchanges (SCEs) and point mutations has been studied. In addition, we have measured the influence of 3AB on DNA repair following treatment with physical and chemical mutagens. Post treatment of X-irradiated mammalian cells with 3AB increases the frequencies of induced chromosomal aberrations by a factor of 2 to 3. Both acentric fragments and exchanges increase indicating that the presence of 3AB slows down the repair of DNA strand breaks (probably DNA double strand breaks), thus making breaks available for interaction with each other to give rise to exchanges. 3AB, when present in the medium containing bromodeoxyuridine(BrdUrd) during two cell cycles, increases the frequencies of SCEs in Chinese hamster ovary cells (CHO) in a concentration dependent manner leading to about a 10-fold increase at 10 mM concentration. Most 3AB induced SCEs occur during the second cell cycle, in which DNA containing bromouridine (BU) is used as template for replication. BU containing DNA appears to be prone to errors during replication. The extent of increase in the frequencies of SCEs by 3AB is correlated with the amount of BU incorporated in the DNA of the cells. The frequencies of spontaneously occurring DNA single strand breaks in cells grown in BrdUrd containing medium are higher than in the cells grown in normal medium and this increase depends on the amount of BU incorporated in the DNA of these cells. We have studied the extent of increase in the frequencies of SCEs due to 1 mM 3AB in several human cell lines, including those derived from patients suffering from genetic diseases such as ataxia telangiectasia (A-T), Fanconi's anemia (FA), and Huntington's chorea. None of these syndromes showed any increased response when compared to normal cells. 3AB, however, increased the frequencies of spontaneously occurring chromosomal aberrations in A-T and FA cells. 3AB does not influence the frequencies of SCEs induced by UV or mitomycin C (MMC) in CHO cells. However, it increases the frequencies of SCEs induced by ethyl methanesulfonate (EMS) and methyl methanesulfonate (MMS). Under the conditions in which 3AB increases the frequencies of spontaneously occurring as well as induced SCEs, it does not increase the frequencies of point mutations in
hypoxanthine-guanine phosphoribosyltransferase
(
HGPRT
) locus. 3AB does not influence the amount of repair replication following dimethylsulphate (DMS) treatment of human fibroblasts, or UV irradiated human lymphocytes.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:Influence of inhibitors of poly(ADP-ribose) polymerase on DNA repair, chromosomal alterations, and mutations. 631 38
Inhibition of poly(ADP-ribosylation) reduces random genomic integration of transfected DNA and mildly stimulates intrachromosomal homologous recombination in mammalian cells. We investigated the effect of inhibition of poly(ADP-ribosylation) on the efficiency of gene targeting in Chinese hamster ovary (CHO) cell line ATS-49tg. This cell line is hemizygous for a defective adenine phosphoribosyltransferase (aprt) gene and is
hypoxanthine phosphoribosyltransferase
(
hprt
) deficient. Plasmid pAG100 contains a portion of the CHO aprt gene sufficient to correct the defect in ATS-49tg cells via gene targeting; pAG100 also contains an Escherichia coli guanine phosphoribosyltransferase (gpt) gene. Following transfection of ATS-49tg cells with pAG100, selection for gpt-positive transfectants allowed recovery of cells that had randomly integrated pAG100 while selection for aprt-positive cells allowed recovery of cells that had undergone gene targeting at the endogenous aprt locus. Treatment of cells with 3 mM 3-methoxybenzamide (3-MB), an inhibitor of
poly(ADP-ribose) polymerase
, decreased random integration and gene targeting of electroporated pAG100 about 5-fold. In contrast, treatment with 3 mM 3-MB during calcium phosphate transfection could reduce random integration more than 150-fold while reducing gene targeting less than two-fold. Therefore, as much as a 100-fold enrichment for gene targeting was achieved with calcium phosphate transfection.
...
PMID:Enrichment for gene targeting in mammalian cells by inhibition of poly(ADP-ribosylation). 880 16
The relationship between a complete deficiency of the purine enzyme
hypoxanthine-guanine phosphoribosyltransferase
and the neurobehavioural abnormalities in Lesch-Nyhan disease remains an enigma. In vitro studies using lymphoblasts or fibroblasts have evaluated purine and pyrimidine metabolism with conflicting results. This study focused on pyridine nucleotide metabolism in control and Lesch-Nyhan fibroblasts using radiolabelled salvage precursors to couple the extent of uptake with endocellular nucleotide concentrations. The novel finding, highlighted by specific culture conditions, was a marked NAD depletion in Lesch-Nyhan fibroblasts. ATP and GTP were also 50% of the control, as reported in lymphoblasts. A 6-fold greater incorporation of [(14)C]nicotinic acid into nicotinic acid- adenine dinucleotide by Lesch-Nyhan fibroblasts, with no unmetabolized substrate (20% in controls), supported disturbed pyridine metabolism, NAD depletion being related to utilization by
poly(ADP-ribose) polymerase
in DNA repair. Although pyrimidine nucleotide concentrations were similar to controls, Lesch-Nyhan cells showed reduced [(14)C]cytidine/uridine salvage into UDP sugars. Incorporation of [(14)C]uridine into CTP by both was minimal, with more than 50% [(14)C]cytidine metabolized to UTP, indicating that fibroblasts, unlike lymphoblasts, lack active CTP synthetase, but possess cytidine deaminase. Restricted culture conditions may be neccesary to mimic the situation in human brain cells at an early developmental stage. Cell type may be equally important. NAD plus ATP depletion in developing brain could restrict DNA repair, leading to neuronal damage/loss by apoptosis, and, with GTP depletion, affect neurotransmitter synthesis and basal ganglia dopaminergic neuronal systems. Thus aberrant pyridine nucleotide metabolism could play a vital role in the pathophysiology of Lesch-Nyhan disease.
...
PMID:Severe pyridine nucleotide depletion in fibroblasts from Lesch-Nyhan patients. 1199 69
