Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.4.2.8 (hypoxanthine-guanine phosphoribosyltransferase)
 2,527 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In yeast, mutations induced by UV radiation are dependent on the function of the Rev1 gene product, a Y-family DNA polymerase that assists in translesion replication with potentially mutagenic consequences. Human REV1 has been cloned, but its role in mutagenesis and carcinogenesis remains obscure. To examine the role of REV1 in UV mutagenesis in human cells and to evaluate its potential as a therapeutic target to prevent such mutations, we developed a ribozyme that cleaves human REV1 mRNA in vitro. Stable expression of the ribozyme in human cells reduced the target REV1 mRNA up to 90%. We examined the cytotoxic and mutagenic response to UV of seven independent clones that had reduced levels of endogenous REV1 mRNA. In each case, the clonogenic survival after UV was not different from that of the parental cell strains. In contrast, the UV-induced mutant frequencies at the endogenous HPRT locus were reduced up to 75% in cells with reduced levels of REV1 mRNA. The data support the idea that targeting the mutagenic translesion DNA replication pathway can greatly reduce the frequency of induced mutations.
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PMID:Ribozyme-mediated REV1 inhibition reduces the frequency of UV-induced mutations in the human HPRT gene. 1293 Sep 47

The REV1 gene encodes a Y-family DNA polymerase that has been postulated to have both catalytic and structural functions in translesion replication past UV photoproducts in mammalian cells. To examine if REV1 is implicated in DNA damage tolerance mechanisms after exposure of human cells to a chemical carcinogen, we generated a plasmid expressing REV1 protein fused at its C-terminus with green fluorescent protein (GFP). In transient transfection experiments, virtually all of the transfected cells had a diffuse nuclear pattern in the absence of carcinogen exposure. In contrast, in cells exposed to benzo[a]pyrenediolepoxide, the fusion protein accumulated in a focal pattern in the nucleus in 25% of the cells, and co-localized with PCNA. These data support the idea that REV1 is present at stalled replication forks. We also examined the mutagenic response at the HPRT locus of human cells that had greatly reduced levels of REV1 mRNA due to the stable expression of gene-specific ribozymes, and compared them to wild-type cells. The mutant frequency was greatly reduced in the ribozyme-expressing cells. These data indicate that REV1 is implicated in the mutagenic DNA damage tolerance response to BPDE and support the development of strategies to target this protein to prevent such mutations.
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PMID:REV1 accumulates in DNA damage-induced nuclear foci in human cells and is implicated in mutagenesis by benzo[a]pyrenediolepoxide. 1552 96

REV1 protein is a mutagenic DNA damage tolerance (DDT) mediator and encodes two ubiquitin-binding motifs (i.e., UBM1 and UBM2) that are essential for the DDT function. REV1 interacts with K164-monoubiquitinated PCNA (UbPCNA) in cells upon DNA-damaging stress. By using AlphaScreen assays to detect inhibition of REV1 and UbPCNA protein interactions along with an NMR-based strategy, we identified small-molecule compounds that inhibit the REV1/UbPCNA interaction and that directly bind to REV1 UBM2. In cells, one of the compound prevented recruitment of REV1 to PCNA foci on chromatin upon cisplatin treatment, delayed removal of UV-induced cyclopyrimidine dimers from nuclei, prevented UV-induced mutation of HPRT gene, and diminished clonogenic survival of cells that were challenged by cyclophosphamide or cisplatin. This study demonstrates the potential utility of a small-molecule REV1 UBM2 inhibitor for preventing DDT.
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PMID:Small-molecules that bind to the ubiquitin-binding motif of REV1 inhibit REV1 interaction with K164-monoubiquitinated PCNA and suppress DNA damage tolerance. 2959