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)

The success of chemotherapy of colon tumours is currently limited. We have therefore used the human colon tumour cell line HT-29 to evaluate the cytotoxic effects of various drug combinations. Trimidox (3,4,5-trihydroxybenzamidoxime), a recently patented inhibitor of ribonucleotide reductase was combined with cytosinearabinoside (Ara-C) or 2',2'-difluorodeoxycytidine (DFDC) in order to inhibit both pyrimidine de novo and salvage pathways. Synergistic cytotoxic effects were observed. When HT-29 cells were sequentially treated with trimidox (20 microM for 24 h) and Ara-C (2 microM for 2 h), colony numbers decreased to 71% of the value calculated for additive cytotoxicity. When cells were simultaneously treated with trimidox (10 microM and 15 microM) and DFDC (0.2 nM), synergistic inhibition of colony formation was likewise noted (colony numbers decreased to values as low as 73% or 71% of the values calculated for additive cytotoxicity). On the other hand, we combined tiazofurin, an inhibitor of the guanylate de novo pathway, with allopurinol, which inhibits the guanylate salvage pathway by increasing intracellular hypoxanthine concentrations, leading to inhibition of the enzyme hypoxanthine-guanine phosphoribosyltransferase (HGPRT). Synergistic cytotoxic effects were observed under these conditions too. When cells were treated with 10 microM tiazofurin and 400 microM or 800 microM allopurinol the number of colonies decreased to 69% and 27%, respectively, of the values calculated for additive effects. Our data suggest these drug combinations to be promising options in the treatment of human colon cancer.
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PMID:[Synergistic cytotoxic effects of chemotherapy in colon tumor cells by simultaneous inhibition of de novo and salvage energy metabolism pathways]. 794 93

Colon cancer and an increasing number of other cancers have been found to exhibit instability of DNA microsatellite sequences. Such tumors have been designated as replication errors (RER) tumors. However, as microsatellites are only rarely found within coding regions of the genome, instability of these sequences cannot directly contribute to carcinogenesis. Recently, we have shown RER colon cancers also demonstrate a marked 100-fold increase in mutation rates measured within an expressed gene, hprt, suggesting the mutator phenotype in these tumors extends beyond microsatellite sequences. To determine whether the RER phenotype indeed destabilizes non-repetitive DNA sequences we have sequenced hprt gene mutations recovered from the RER colon cancer cell line RKO. Greater than 10% of hprt mutants proved to be a single 3 bp deletion located in a nonrepetitive ATTAT sequence motif. Additionally, 1-4 bp deletions or insertions were found to be randomly located throughout the hprt gene. Lastly, one third of hprt mutations proved to be transitions or transversions. The microsatellite instability demonstrated in RKO is thus a global mutator phenotype which destabilizes DNA sequences both inside and outside of repetitive sequence elements and which augments base substitutions as well as frameshifts. These findings extend the characteristics of mutations associated with RER tumors and suggest additional mechanisms by which mutator phenotypes may alter oncogenes and tumor suppressor genes.
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PMID:Diverse hypermutability of multiple expressed sequence motifs present in a cancer with microsatellite instability. 862 58

Phosphatidylinositol glycan-A (PIGA) is a gene that encodes an element required for the first step in glycosylphosphatidylinositol (GPI) anchor assembly. Because PIGA is X-located, a single mutation is sufficient to abolish cell surface GPI-anchored protein expression. In this study, we investigated whether mutation of the PIGA gene could be exploited to identify mutator (Mut) phenotypes in cancer. We examined eight Mut colon cancer lines and four non-Mut colon cancers as controls. In every case, flow cytometric analyses of cells sorted for low fluorescence after staining for GPI-linked CD59 and CD55 revealed negative peaks in the Mut lines but not in the controls. Single cell cloning of purged and sorted GPI-anchor- HCT116 cells and sequencing of the PIGA gene in each clone uniformly showed mutations. Pretreatment of the Mut lines with anti-CD55 or anti-CD59 antibodies and complement or with the GPI-anchor-reactive bacterial toxin aerolysin enriched for the GPI-anchor- populations. Expansion of purged GPI-anchor+ cells in the Mut lines and analyses using aerolysin in conjunction with flow cytometry yielded PIGA gene mutation frequencies of 10(-5) to 10(-4), values similar to the mutation frequencies of the hprt gene. This novel approach allows for the detection of as yet undescribed repair or replication defects and in addition to its considerably greater ease of use than existing techniques and in principle would not require the production of cell lines.
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PMID:Glycophosphatidylinositol-anchored protein deficiency as a marker of mutator phenotypes in cancer. 1121 64

The presence of single nucleotide instability, an increase of spontaneous point mutation rates (MR: number of mutations per cell division) without microsatellite instability, was demonstrated previously in two rat mammary carcinoma cell lines. In this study, spontaneous point MRs were analyzed in human breast cancer cell lines by the fluctuation test using the hypoxanthine-guanine phosphoribosyltransferase (hprt) marker gene. MRs obtained for six breast cancer cell lines, MCF-7, ZR-75-1, T-47D, MDA-MB-231, MDA-MB-468, and BT-474, all of which were proficient in G/T mismatch binding and reported to be negative for microsatellite instability, were 7.6, 4.6, 6.3, 2.2, 5.6, and 19 x 10(-7) mutations/hprt/cell division. Those in normal human mammary epithelial cells and in a colon cancer cell line with proficient mismatch repair, SW480, were 1.6 and 1.4 x 10(-7) mutations/hprt/cell division, respectively. These findings showed that single nucleotide instability was also present in five of the six human breast cancer cell lines and strongly indicates it has important roles in human and rat mammary carcinogenesis.
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PMID:The presence of single nucleotide instability in human breast cancer cell lines. 1169 86