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: UMLS:C0043346 (xeroderma pigmentosum)
2,924 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A DNA-binding protein specific for ultraviolet irradiated DNA has been purified extensively from human placenta. The binding preparation is free of exonuclease, polymerase, endonuclease, and N-glycosidase activity. The binding activity is salt dependent and is specific for double-stranded irradiated DNA. DNA from which the pyrimidine dimers have been monomerized by the action of photolyase (photoreactivating enzyme) remains an effective substrate for the binding protein, suggesting that the protein recognizes photoproducts other than pyrimidine dimers. This is supported by the finding that DNA irradiated under conditions which introduce only pyrimidine dimers is not a substrate for the binding protein. Examination of three of the xeroderma pigmentosum complementation groups has revealed no deficiency in this binding activity.
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PMID:A DNA binding protein from human placenta specific for ultraviolet damaged DNA. 127 48

Xeroderma pigmentosum (XP) is an autosomal recessive human disease, clinically characterized by high incidence of skin cancers on sun-exposed areas. XP cells are hypersensitive to killing by ultraviolet light (UV), because they have a defect in DNA excision repair of UV-induced DNA damages. Genetic complementation analysis by cell fusion has identified 9 genetic complementation groups, designated groups A through H and a variant. However, the genetic basis of the physiological defect of XP has not yet been characterized. Recently, XP genes and human DNA repair genes have been molecularly cloned by DNA transfection methods. Molecular biological analysis of these genes should be a clue to elucidating the molecular mechanism of DNA repair in human. Moreover, an in vivo microinjection system and an in vitro system for study of DNA repair synthesis promoted by human cell extract have been developed and they can be utilized as assays during the purification of protein factors that complement repair defective XP cells. A nuclear factor that binds to DNA lesion has been identified and it was defective in group E XP cells. Yeast homolog of this nuclear factor appears to be a photolyase.
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PMID:[Progress of research on xeroderma pigmentosum]. 219 May 36

Human cell free extract prepared by the method of Manley et al. (1980) carries out repair synthesis on UV-irradiated DNA. Removal of pyrimidine dimers by photoreactivation with DNA photolyase reduces repair synthesis by about 50%. With excess enzyme in the reaction mixture photolyase reduced the repair signal by the same amount even in the absence of photoreactivating light, presumably by binding to pyrimidine dimers and interfering with the binding of human damage recognition protein. Similarly, the UvrB subunit of Escherichia coli (A)BC excinuclease when loaded onto UV-irradiated or psoralen-adducted DNA inhibited repair synthesis by cell-free extract by 75-80%. The opposite was true also as HeLa cell free extract specifically inhibited the photorepair of a thymine dimer by DNA photolyase and its removal by (A)BC excinuclease. Cell-free extracts from xeroderma pigmentosum (XP) complementation groups A and C were equally effective in blocking the E. coli repair proteins, while extracts from complementation groups D and E were ineffective in blocking the E. coli enzyme. These results suggest that XP-D and XP-E cells are defective in the damage recognition subunit(s) of human excision nuclease.
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PMID:Substrate overlap and functional competition between human nucleotide excision repair and Escherichia coli photolyase and (a)BC excision nuclease. 220 May 13

Xeroderma pigmentosum (XP) is characterized by the defective excision repair of DNA damaged by many agents, including ultraviolet radiation (UV) and cisplatin. We have identified a factor in human cells that recognizes multiple forms of DNA damage and is absent in XP complementation group E. Denoted XPE binding factor, it is expressed at five-fold higher levels in tumor cell lines resistant to the antitumor drug cisplatin. Finally, although it does not have photoreactivating activity, XPE binding factor shares multiple binding characteristics with yeast photolyase, suggesting that it is the human homolog of photolyase.
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PMID:How cells recognize damaged DNA: clues from xeroderma pigmentosum and yeast. 220 76

Syrian hamster fetal fibroblasts (HFC) were examined for photolyase-induced break-sensitive sites after ultraviolet light (UV) exposure and growth. These sites, observed in excision-defective human xeroderma pigmentosum (XP) cells, are due to cleavage of the internal phosphodiester bond of UV-induced pyrimidine dimers. Excision-inefficient HFC acquired photolyase-induced break-sensitive sites during incubation after UV (10 J/m2). However, these were observed transiently, with a maximum of 5% of the pyrimidine dimers at 9 h post UV; by 18 h they were undetectable. Caffeine (1 mM) delayed the peak of photolyase-induced break-sensitive sites by 2 h. In human XP cells photolyase-induced break-sensitive sites accumulate to a plateau level of about 20% of the pyrimidine dimers. The present results extend to rodent cells the observation that cleavage of the internal phosphodiester bond of pyrimidine dimers may be an early step in their excision repair. Furthermore, the data suggest that photolyase-induced break-sensitive sites might be necessary for replication bypass at pyrimidine dimers.
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PMID:Transient appearance of photolyase-induced break-sensitive sites in the DNA of ultraviolet light-irradiated Syrian hamster fetal cells. 264 27

Xeroderma pigmentosum (XP) patients are deficient in the excision repair of damaged DNA. Recognition of the DNA lesion appears to involve a nuclear factor that is defective in complementation group E (XPE binding factor). We have now identified a factor in the yeast Saccharomyces cerevisiae that shares many properties with XPE binding factor, including cellular location, abundance, magnesium dependence, and relative affinities for multiple forms of damaged DNA. Yeast binding activity is dependent on photolyase, which catalyzes the photoreactivation of pyrimidine dimers. These results suggest that yeast photolyase may also function as an auxiliary protein in excision repair. Furthermore, XPE binding factor appears to be the human homolog of yeast photolyase.
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PMID:Evidence that xeroderma pigmentosum cells from complementation group E are deficient in a homolog of yeast photolyase. 268 72

To understand the heterogeneity in genetic predisposition to skin cancer in different nucleotide excision repair-deficient human syndromes, we studied repair of cyclobutane pyrimidine dimers (CPDs) and of pyrimidine(6-4)pyrimidone (6-4PP) photoproducts in cells from trichothiodystrophy (TTD) patients. TTD is not associated with increased incidence of skin cancer, although 50% of the patients are photosensitive and carry a defect in the nucleotide excision repair pathway, similar to Xeroderma pigmentosum patients. However, in striking contrast to TTD, Xeroderma pigmentosum is highly prone to cancer. To address this apparent paradox, two types of studies were conducted: (a) reactivation of UV-irradiated plasmids harboring actively transcribed reporter genes, with or without photolyase treatment before transfection of SV40-transformed fibroblasts; and (b) the kinetics of removal of UV-induced CPDs and 6-4PPs in genomic DNA by immunoblot analysis using lesion-specific mAbs in SV40-transformed and untransformed fibroblasts representative of all genetic TTD complementation groups. Results showed that all cell lines from photosensitive TTD patients efficiently express Cat or luciferase genes in transfected plasmids carrying non-CPD lesions, including 6-4PP, and display wild-type or near-wild-type (50-70% in 3 cell lines) 6-4PP repair in the overall genome after immunoblot analysis. However, CPD lesions (the repair of which is defective in the overall genome) also block the expression of the reporter gene in transfected plasmids. Two cell lines from nonphotosensitive TTD patients showed wild-type levels of repair for both photoproducts in overall genome. A model on the lesion-specific repair in the context of the molecular defect in TTD is proposed. The implication of the defective CPD repair and efficient 6-4PP repair subpathways in cancer prevention in TTD patients is discussed.
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PMID:Different removal of ultraviolet photoproducts in genetically related xeroderma pigmentosum and trichothiodystrophy diseases. 767 Dec 43

Using a DNA-protein binding assay, we have previously identified and characterized a UV-damaged DNA recognition protein (UVDRP) from HeLa cells [(1991) Nucleic Acids Res. 19, 6413-6418]. In this report, the photoreactivating activity of UVDRP from the yeast, Saccharomyces cerevisiae, and HeLa cells was investigated. Although yeast and human cells are evolutionarily different from each other, both UVDRPs were conserved in the sense of their biochemical characteristics except that the yeast UVDRP also exhibited an enzymatic photoreactivating activity. A mammalian expression vector plasmid DNA carrying the bacterial chloramphenicol acetyltransferase (CAT) gene was UV irradiated in vitro followed immediately by exposure to photoreactivating light, and its transient expression in repair-deficient xeroderma pigmentosum (XP) cells was investigated. More than 80% of the CAT activity was inhibited by UV irradiation, which was partially restored (> 60%) by a partially purified yeast photolyase. In contrast, HeLa cell extracts did not express a photoreactivatable recovery from UV-induced inhibition of the CAT activity tested in the same system. This study has demonstrated the potential use of the DNA-mobility shift assay to investigate enzymatic photoreactivation, and has indicated the absence of the repair mechanism in human cells.
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PMID:Lack of DNA enzymatic photoreactivation in HeLa cell-free extracts. 828 3

Xeroderma pigmentosum (XP) variant patients are genetically predisposed to sunlight-induced skin cancer. Fibroblasts from such patients are extremely sensitive to mutations induced by UV radiation, and the spectrum of mutations induced in their hypoxanthine phosphoribosyltransferase (HPRT) gene differs significantly from that seen in normal cells. To determine if this UV hypermutability reflects abnormally slow excision repair of cyclobutane pyrimidine dimers (CPD) or 6-4 pyrimidine-pyrimidones (6-4s) in that gene, we synchronized XP variant and normal fibroblasts, irradiated them in early G1-phase, 12 or more hours prior to the scheduled onset of S phase, harvested them immediately or after allowing various times for repair, and analyzed the DNA for photoproducts in the HPRT gene, using quantitative Southern blotting. To incise the DNA at CPD, we used T4 endonuclease V; to incise at 6-4s, we first used photolyase and UV365nm to reverse CPD and then UvrABC excinuclease. Excision of CPD was rapid, preferential, and strand-specific, but there was no significant difference in rate between the two kinds of cells. The half life was 4 h in the transcribed strand of the gene and 6.5 h in the nontranscribed strand. For excision of CPD in the genome overall, this value is 12 h. Excision of 6-4s from either strand of the HPRT gene was extremely rapid and preferential in both kinds of cells, with a half life of approximately 30 min. The results indicate that the UV hypermutability of the XP variant cells cannot be caused by slower rates of repair of CPD and/or 6-4s in the target gene for mutagenesis.
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PMID:Comparison of the rate of excision of major UV photoproducts in the strands of the human HPRT gene of normal and xeroderma pigmentosum variant cells. 853 50

UV damage-specific binding proteins are considered to play important roles in early responses of cells irradiated with UV, including damage recognition in the DNA repair process. We have surveyed nuclear and cytoplasmic proteins which bind selectively to UV-irradiated DNA using an electrophoretic mobility shift assay. We detected four distinct binding activities with different mobilities in fractions separated from HeLa cells by heparin chromatography. Three of them were found in nuclear extracts and one in cytoplasmic extracts. We purified one of the binding factors from nuclear extracts to homogeneity, which was designated NF-10 (the 10th fraction of nuclear extract on heparin chromatography). It migrated as a 40 kDa polypeptide in SDS-PAGE, and bound to UV-irradiated double- stranded DNA but not to unirradiated DNA. The binding pattern of the NF-10 protein to DNA irradiated with UV corresponded to the induction kinetics of (6-4) photoproduct. Removal of (6-4) photoproducts from UV- irradiated DNA by (6-4) photoproduct-specific photolyase diminished the binding of NF-10 protein. These results suggest that the NF-10 protein binds to UV-damaged DNA through (6-4) photoproduct. Immunoblot analysis using a monoclonal antibody revealed that the NF-10 protein was expressed in cell lines from all complementation groups of xeroderma pigmentosum, indicating that the NF-10 protein is a novel UV-damaged-DNA binding protein.
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PMID:Purification of a novel UV-damaged-DNA binding protein highly specific for (6-4) photoproduct. 860 44


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