UMLS:C0043346 - FACTA Search

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

Postreplication repair of DNA damage after ultraviolet light irradiation has been examined in a wide variety of human fibroblast strains. The donors were patients with xeroderma pigmentosum (XP) of different complementation groups or other hereditary disorders with indications of radiosensitivity, or with light sensitivity or multiple cancers. The defect in postreplication repair previously found in XP variants (excision-proficient XP's) has now been observed in a total of five XP variants and a less severe defect in postreplication repair has been found in excision-defective XP's in Complementation Groups A, B, C, and D. Complementation Group E and all other cell strains studied showed a response that was not significantly different from that of cells from normal donors. Excision repair was also measured in some of these cell strains and was found to be defective only in XP cells. Ultraviolet cell survival characteristics have been obtained for may of the cell strains. The most sensitive were cells from the excision-deficient XP's and from a sun-sensitive child (11961); the latter had no measurable defect in either excision or postreplication repair. The rest of the survival curves lay in a band limited by normal cell strains on the one hand and the slightly more sensitive excision-proficient XP variant XP30RO. Only in the case of the variants XP30RO and XP7TA were we able to demonstrate any influence of caffeine on cell survival.
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PMID:Repair of ultraviolet light damage in a variety of human fibroblast cell strains. 83 85

Rates of semiconservative DNA synthesis have been investigated in asynchronous xeroderma pigmentosum (XP), XP variant, and normal human skin fibroblasts using the technique of cellular autoradiography. In unirradiated cells, no differences in DNA synthesis rates were detected among the three cell strains. Exposure to UV radiation caused the rate of DNA synthesis to decrease for at least three hours in all three cell strains. In the normal cell strain, recovery of the DNA synthetic rate occurred at later times following a UV fluence of 5 J/m2. At this same UV fluence, recovery was absent in classical XP cells during a 24 h post-irradiation period while it was slower than normal in XP variant cells. When the UV fluence to classical XP and XP variant cells was reduced so that survival in all three cell strains was approximately the same (25%), recovery of the DNA synthetic rate was similar in all three cell strains. These results are discussed in terms of current models of DNA replication in UV-irradiated cells and indicate: (1) that pyrimidine dimers are very effective blocks to DNA synthesis and (2) that there is no inherent defect in semi-conservative DNA synthesis in either classical XP or XP variant cells which is independent of a defect in DNA repair capacity.
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PMID:Semi-conservative deoxyribonucleic acid synthesis in unirradiated and ultraviolet-irradiated xeroderma pigmentosum and normal human skin fibroblasts. 85 43

We have used three different assay procedures to determine the effects of hydroxyurea on excision repair in UV-irradiated HeLa cells. The results were as follows. (a) At the cytological level, incubation of UV-irradiated metaphase cells with hydroxyurea caused chromosome decondensation. (b) Using a modified alkaline sucrose gradient sedimentation technique involving minimal lysis before centrifugation, we found a marked retardation in the sedimentation of DNA from UV-irradiated cells incubated for a short period with hydroxyurea. (c) The effect of hydroxyurea on the incorporation of[3H]thymidine by UV-irradiated G1 cells was found to depend on the concentration of thymidine present in the medium. Normal primary human cells resemble HeLa cells in the response of chromosomes and DNA to UV plus hydroxyurea. Xeroderma pigmentosum cells, deficient in excision repair, are not sensitive to hydroxyurea in our assays. Chromosome decondensation and retarded DNA sedimentation occur also after incubation of irradiated HeLa cells with deoxyadenosine, but not thymidine, at concentrations which inhibit semiconservative DNA synthesis. The effects of hydroxyurea or deoxyadenosine on chromosomes and DNA are not seen if all four deoxyribonucleoside precursors of DNA are supplied exogenously. These results point to an inhibition of repair DNA synthesis by hydroxyurea (or deoxyadenosine), at the level of the supply of DNA precursors, i.e. in the same way that these agents inhibit semiconservative DNA synthesis. In the presence of these inhibitors, single-strand gaps accumulate in the DNA.
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PMID:The inhibition of repair in UV irradiated human cells. 85 56

Cultured lymphocytes from 9 patients with clinically different types of xeroderma pigmentosum were exposed to ultraviolet light at 24 h. An increased rate of sister chromatid exchanges were observed in 6 patients (128--148% increase in three, 34--51% in three), but not in three patients with deSanctis-Cacchione syndrome (xeroderma pigmentosum with mental defect), compared to simultaneously cultured controls. A positive result could be useful as preliminary cytogenetic diagnostic test. The results are interpreted as an expression of UV-light induced chromosomal instability due to impaired DNA repair.
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PMID:UV-light induced sister chromatid exchanges in xeroderma pigmentosum lymphocytes. 85 27

The cytotoxicity of the "K-region" epoxides as well as several other reactive metabolites or chemical derivatives of polycyclic hydrocarbons was compared in normally-repairing human diploid skin fibroblasts and in fibroblasts from a classical xeroderma pigmentosum (XP) patient (XP2BE) whose cells have been shown to carry out excision repair of damage induced in DNA by ultraviolet (UV) radiation at a rate approx. 20% that of normal cells. Each compound tested exhibited a 2- to 3-fold greater cytotoxicity in this XP strain than in the normal strain. To determine whether this difference in survival reflected a difference in the capacity of the strains to repair DNA damage caused by such hydrocarbon derivatives, we compared the cytotoxic effect of several "K-region" epoxides in two additional XP strains, each with a different capacity for repair of UV damage. The ratio of the slopes of the survival curves for each of the XP strains to that of the normal strain, following exposure to each epoxide, was very similar to that which we had previously determined for their respective UV curves, suggesting that human cells repair damage induced in DNA by exposure to hydrocarbon derivatives with the same system used for UV-induced lesions. To determine whether the deficiency in rate of excision repair in this classical XP strain (XP2BE) causes such cells to be abnormally susceptible to mutations induced by "K-region" epoxides of polycyclic hydrocarbons, we compared them with normal cells for the frequency of induced mutations to 8-azaguanine resistance. The XP cells were two to three times more susceptible to mutations induced by the "K-region" epoxide of benzo(a)pyrene (BP), 7,12-dimethyl-benz(a)anthracene (DMBA), and dibenz(a,h)anthracene (DBA). Evidence also was obtained that cells from an XP variant patient are abnormally susceptible to mutations induced by hydrocarbon epoxides and, as is the case following exposure to UV, are abnormally slow in converting low molecular weight DNA, synthesized from a template following exposure to hydrocarbon epoxides, into large-size DNA.
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PMID:Effect of DNA repair on the cytotoxicity and mutagenicity of polycyclic hydrocarbon derivatives in normal and xeroderma pigmentosum human fibroblasts. 86 87

We have used a T4 endonuclease V assay method for UV-induced pryrimidine dimers in cellular DNA in vivo to obtain evidence for recombinational DNA exhanges after UV irradiation of normal human and Xeroderma pigmentosum (XP) cells. Our data indicate that the endonuclease-sensitive sites in excision-defective XP cells are removed very slowly from the irradiated parental strands and appear concomitantly in daughter strands newly synthesized during post-UV incubation. In the defective XP cells, the extent of appearance of sensitive sites in daughter strands synthesized during a period of 24 h after 10 J/m2 appears to be small, probably less than 15% of the initial number of sensitive sites detected in cellular parental strands. Demonstration of such exchanges between normal-density parental and 5-bromodeoxyuridine-labeled daughter strands by alkaline CsCl isopycnic centrifugation was unsuccessful. Further, the extent is much lower in normal human cells because of their efficient excision repair of the dimers before and after exchanges than in the defective XP cells.
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PMID:Low-level DNA exchanges in normal human and xeroderma pigmentosum cells after UV irradiation. 86 96

We have determined the levels of DNA-polymerases-alpha and-beta in fibroblasts obtained from normal subjects and from patients with Xeroderma Pigmentosum (XP) belonging to three different complementation groups and to the variant form. The assays have been performed in crude extracts and after fractionation on sucrose gradients. The levels of alpha and beta-polymerases in the different cases of XP were found to lie within the same range as the control values, and no correlation was found with the severity of the symptoms. The sedimentation coefficients of the two polymerases from all the pathological lines were identical to those of the normal fibroblasts.
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PMID:Levels of DNA polymerase-alpha and beta in normal and xeroderma pigmentosum fibroblasts. 86 72

Chlorpromazine, a substituted phenothiazine, commonly used as a sedative, has been found to photosensitize the inactivation of human adenovirus 5 to wavelengths of light between 330 and 390 nm. The slope of the inactivation curve is three fold greater when fibroblasts from people having xeroderma pigmentosum (XP) were used as viral hosts than when normal fibroblasts were used, showing that at least two-thirds of the damage produced in the virions is repairable by normal human fibroblasts. The phototreatment of chlorpromazine sensitized virions also results in the production of DNA strand breaks, which correlate fairly well with the production of lethal viral damage as measured in XP fibroblasts. These findings suggest that the photosensitization of the skin observed in patients treated with chlorpromazine might be due to DNA damage.
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PMID:Photodynamic action of chlorpromazine on adenovirus 5:repairable damage and single strand breaks. 87 69

Alkylating agents cause damage to DNA which can be repaired by exicsion repair (repair replication) and which induces sister chromatid exhcanges (SCEs). During early times after exposure (within 5 hr) normal and xeroderma pigmentosum (XP) cells perform similar amounts of repair replication. At later times (after 20 hr) normal cells have completed repair replication but XP cells continue at a lower rate. This slowly repaired component of alkylation damage appears to be related to the higher frequencies of SCEs induced by alkylating agents in XP cells compared to normal cells. Therefore, whereas repair replication is an indicator of exicsed damage, SCEs may be indicators of unexcised damage and may show better correlations with the potentially mutagenic and carcinogenic effects of exposure to enbironmental agents.
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PMID:Repair replication and sister chromatid exchanges as indicators of excisable and nonexcisable damage in human (xeroderma pigmentosum) cells. 88 31

The activities of DNA polymerases alpha, beta, and gamma were determined in control and repair-deficient human fibroblasts (xeroderma pigmentosum complementation groups A, C, and D; Fanconi's Anemia; and Bloom's syndrome). Assays were done on 103,000XG supernatants which had been chromatographed on DEAE cellulose to remove nucleic acids and on fractions containing polymerase activities which had been separated from one another on a second DEAE cellulose column. All repair-deficient cell types contained all three DNA polymerase activities. Caffeine, which has been observed to inhibit some DNA-repair processes in intact cells, had no effect on DNA polymerase activities from XP-A, XP-C, XP-D or XP-variant cells. These data indicate that all three polymerases are present in cells which have reduced or absent repair functions and that the caffeine effects observed in living cells are probably not due to the direct action of caffeine on DNA polymerases.
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PMID:Levels of DNA polymerases alpha, beta, and gamma in control and repair-deficient human diploid fibroblasts 1. 89 83

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