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)

To assess the contribution to mutagenesis by human DNA repair defects, a UV-treated shuttle vector plasmid, pZ189, was passed through fibroblasts derived from Japanese xeroderma pigmentosum (XP) patients in two different DNA repair complementation groups (A and F). Patients with XP have clinical and cellular UV hypersensitivity, increased frequency of skin cancer, and defects in DNA repair. The XP DNA repair defects represented by complementation groups A (XP-A) and F (XP-F) are more common in Japan than in Europe or the United States. In comparison to results with DNA repair-proficient human cells (W138-VA13), UV-treated pZ189 passed through the XP-A [XP2OS(SV)] or XP-F [XP2YO(SV)] cells showed fewer surviving plasmids (XP-A less than XP-F) and a higher frequency of mutated plasmids (XP-A greater than XP-F). Base sequence analysis of more than 200 mutated plasmids showed the major type of base substitution mutation to be the G:C----A:T transition with all three cell lines. The XP-A and XP-F cells revealed a higher frequency of G:C----A:T transitions and a lower frequency of transversions among plasmids with single or tandem mutations and a lower frequency of plasmids with multiple point mutations compared to the normal line. The spectrum of mutations in pZ189 with the XP-A cells was similar to that with the XP-F cells. Seventy-six to 91% of the single base substitution mutations occurred at G:C base pairs in which the 5'-neighboring base of the cytosine was thymine or cytosine. These studies indicate that the DNA repair defects in Japanese XP patients in complementation groups A and F result in different frequencies of plasmid survival and mutagenesis but in similar types of mutagenic abnormalities despite marked differences in clinical features. These results, together with comparable studies from United States patients in XP complementation groups A and D, suggest that G:C----A:T somatic mutations may be important in the generation of human skin cancer by UV radiation.
Cancer Res 1991 Jun 15
PMID:Analysis of point mutations in an ultraviolet-irradiated shuttle vector plasmid propagated in cells from Japanese xeroderma pigmentosum patients in complementation groups A and F. 203 95

Whole cell extracts from human lymphoid cell lines can perform in vitro DNA repair synthesis in plasmids damaged by agents including UV or cis-diamminedichloroplatinum(II) (cis-DDP). Extracts from xeroderma pigmentosum (XP) cells are defective in repair synthesis. We have now studied in vitro DNA repair synthesis using extracts from lymphoblastoid cell lines representing four human hereditary syndromes with increased sensitivity to DNA-damaging agents. Extracts of cell lines from individuals with the sunlight-sensitive disorders dysplastic nevus syndrome or Cockayne's syndrome (complementation groups A and B) showed normal DNA repair synthesis in plasmids with UV photoproducts. This is consistent with in vivo measurements of the overall DNA repair capacity in such cell lines. A number of extracts were prepared from two cell lines representing the variant form of XP (XP-V). Half of the extracts prepared showed normal levels of in vitro DNA repair synthesis in plasmids containing UV lesions, but the remainder of the extracts from the same cell lines showed deficient repair synthesis, suggesting the possibility of an unusually labile excision repair protein in XP-V. Fanconi's anemia (FA) cells show cellular hypersensitivity to cross-linking agents including cis-DDP. Extracts from cell lines belonging to two different complementation groups of FA showed normal DNA repair synthesis in plasmids containing cis-DDP or UV adducts. Thus, there does not appear to be an overall excision repair defect in FA, but the data do not exclude a defect in the repair of interstrand DNA cross-links.
Cancer Res 1991 Jul 01
PMID:DNA excision repair in cell extracts from human cell lines exhibiting hypersensitivity to DNA-damaging agents. 205 78

Sixty-one xeroderma pigmentosum (XP) patients living in the Federal Republic of Germany were investigated. Clinical symptoms were correlated with DNA repair parameters measured in fibroblasts grown from skin biopsies. Classification according to the international complementation groups revealed that of the 61 patients 3 belonged to group A, 26 to group C, 16 to group D, 3 to group E, and 2 to group F; 11 were of the XP variant type. A striking clinical aspect was the frequency of histogenetically different skin tumors varying from one XP complementation group to the other: squamous and basal cell carcinomas predominated in XP group C; lentigo maligna melanomas were most frequent in group D; basal cell carcinomas occurred preferentially in group E and XP variants. Three DNA repair parameters were determined for 46 fibroblast strains: colony-forming ability (D0); DNA repair synthesis (G0); and DNA-incising capacity (E0). Dose-response experiments with up to 13 dose levels were performed throughout to achieve sufficient experimental accuracy. DNA-damaging treatments included UV light, the "UV-like" carcinogen N-acetoxy-2-acetylaminofluorene, and the alkylating carcinogens methyl methanesulfonate and N-methyl-N-nitrosourea. Comparison of clinical signs and repair data was made on the basis of D0, G0, and E0 values of both individual cell strains and weighted means of XP complementation groups. Despite considerable clinical and biochemical heterogeneity within complementation groups distinctive features emerged. In general, D0, G0, and E0 values of all XP strains investigated, including XP variants, were found to be reduced upon treatment with UV light or N-acetoxy-2-acetylaminofluorene. After treatment with UV light or N-acetoxy-2-acetylaminofluorene, cell strains in which DNA-incising capacity was reduced also showed a similar reduction in both colony-forming ability and DNA repair synthesis. Consequently, the weighted mean D0, G0, and E0 values of XP complementation groups and XP variants correlated with each other. Furthermore, the onset of both early dermatological symptoms of XP and tumor growth correlated with the extent of DNA repair defects. Of 45 XP fibroblast strains checked for colony-forming ability after treatment with methyl methanesulfonate only 3 cell strains from group D were found to be more sensitive than normal controls, suggesting that overall repair in XP strains was equal to that in controls. Weighted means of DNA repair synthesis of XP complementation groups, however, showed reductions hinting at impaired excision of distinct alkylated bases.(ABSTRACT TRUNCATED AT 400 WORDS)
Cancer Res 1991 Jul 01
PMID:Clinical symptoms and DNA repair characteristics of xeroderma pigmentosum patients from Germany. 205 85

Epidermal keratinocytes cultured from explants of skin cancer patients, including biopsies from xeroderma pigmentosum patients, were ultraviolet light-irradiated and DNA repair synthesis was measured. Repair capacity was much lower in xeroderma pigmentosum patients than in normal patients. The extent of DNA repair replication did not decline with the age of the normal patient. Treatment with T4N5 liposomes containing a DNA repair enzyme enhanced repair synthesis in both normal and xeroderma pigmentosum keratinocytes in an irradiation- and liposome-dose dependent manner. These results provide no evidence that aging people or skin cancer patients are predisposed to cutaneous malignancy by a DNA repair deficiency, but do demonstrate that T4N5 liposomes enhance DNA repair in the keratinocytes of the susceptible xeroderma pigmentosum and skin cancer population.
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PMID:Enhanced unscheduled DNA synthesis in UV-irradiated human skin explants treated with T4N5 liposomes. 205 85

Postreplication repair (PRR) was quantified in normal human fibroblasts and in xeroderma pigmentosum (XP) variant fibroblasts after treatment with UV or benzo[a]pyrene diol epoxide-I (BPDE-I). PRR may be defined as the elimination of discontinuities in the daughter-strand DNA and the replicative bypass of lesions in the DNA template. Pathways of PRR reduce the number of DNA growing points that are blocked at template lesions and increase the rate of growth of nascent DNA on damaged templates. Rates of DNA synthesis and strand growth were measured in solvent- and carcinogen-treated cells by velocity sedimentation analyses of radiolabeled nascent DNA in alkaline sucrose gradients. Logarithmically growing normal fibroblasts displayed D0 values of 6.3 J/m2 and 0.37 microM for the inhibition of DNA synthesis in active replicons by UV and BPDE-I, respectively. Under identical conditions, the XP variant cells exhibited D0 values of 1.5-2.0 J/m2 and 0.27-0.31 microM. Pulse-chase experiments were performed in cells synchronized at the beginning of the S phase. Normal and XP variant cells displayed inhibition of DNA strand growth by UV, with D0 values of 21.6 and 7.0 J/m2, respectively. The D0 values for the inhibition of DNA strand growth by BPDE-I were 0.85 microM for the normal cells and 0.62-0.79 microM for the XP variant cells. The inhibitions of DNA replication by UV and BPDE-I were also analyzed in terms of DNA lesion frequencies. Based on the D0 values for inhibition of DNA replication, we concluded that the XP variant cells express maximally 25-33% of the total PRR activity observed in normal fibroblasts after UV treatment. Conceivably, this deficiency in PRR activity results in the XP variant's increased risk of cancers induced by sunlight, because XP variant cells and normal fibroblasts are equally proficient in excision repair. Both normal and XP variant fibroblasts, however, displayed similar PRR activities in response to BPDE-I treatment.
Cancer Res 1990 May 01
PMID:Defective postreplication repair in xeroderma pigmentosum variant fibroblasts. 210 54

Ataxia-telangiectasia and xeroderma pigmentosum are human hereditary diseases in which patients are cancer prone and demonstrate increased sensitivity to DNA damage by ionizing and ultraviolet radiation, respectively. In culture, both ataxia-telangiectasia and xeroderma pigmentosum skin fibroblasts show increased synthesis and secretion of the extracellular matrix proteins fibronectin and collagen. To determine whether these differences in protein production result from fundamental abnormalities in regulation of genes associated with cellular interactions, we compared the effects of trifluoperazine and 12-O-tetradecanoylphorbol-13-acetate on expression of the extracellular matrix-degrading metalloproteinases, procollagenase and prostromelysin, by normal, ataxia-telangiectasia, and xeroderma pigmentosum fibroblasts. After trifluoperazine treatment the overall levels of these metalloproteinases were much greater in three ataxia-telangiectasia cell strains and in cells from xeroderma pigmentosum complementation groups A and D than in normal cells. In contrast, cells from xeroderma pigmentosum complementation group C produced only slightly more procollagenase than normal cells. 12-O-tetradecanoylphorbol-13-acetate also induced higher than normal levels of procollagenase in some ataxia-telangiectasia and xeroderma pigmentosum strains, but less than that induced by trifluoperazine. Because increased extracellular accumulation of matrix-degrading enzymes has long been implicated in metastatic progression, this altered expression of procollagenase and prostromelysin in ataxia-telangiectasia and xeroderma pigmentosum cells could play an important role in the pathogenesis of various tumors in individuals with these genetic diseases.
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PMID:Enhanced expression of procollagenase in ataxia-telangiectasia and xeroderma pigmentosum fibroblasts. 217 6

The genetic factors involved in the multistep process of carcinogenesis can be divided at least into two major categories: 1. Mutated or lost genes, which may directly represent one step in the sequential process (tumour suppressor genes); inheritance of one tumour suppressor gene causes dominant expression of the carcinogenic phenotype (the dominant inheritance is described in the accompanying paper); 2. Other genes, which lead to conditions that favour the development of cancer and generally are inherited in a recessive fashion; they are the subject of this paper. Autosomal recessively inherited diseases, such as xeroderma pigmentosum, ataxia-telangiectasia, Bloom's syndrome and Fanconi's anaemia display increased genome instability (chromosomal fragility and/or DNA-repair deficiencies) and are associated in the homozygote and probably also in the heterozygote state with defined malignancies. Neoplasms particularly of the lymphoreticular system frequently occur in patients with genetically determined immunodeficiencies (e.g. severe combined immune deficiency or Wiskott-Aldrich syndrome). People differ due to their individual genetic constitution in their responses to various classes of carcinogens such as physical and chemical agents, to dietary habits, as well as to viruses. Furthermore, tumours are often found in patients displaying premature aging (e.g. Werner's syndrome). In addition, several metabolic abnormalities such as genetic syndromes featuring chronic liver disease, but also many other inherited metabolic conditions have cancer as a regular or frequent complication.
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PMID:Recessively inherited deficiencies predisposing to cancer. 219 May 29

Photosensitive genodermatoses associated with established defects of DNA repair currently include the autosomal recessive diseases xeroderma pigmentosum (XP), Cockayne's syndrome (CS), trichothiodystrophy (TTD), and Bloom's syndrome (BS). XP is a heterogeneous disorder associated with defective excision repair or daughter strand repair of ultraviolet (UV)-induced DNA damage. It is characterized by cutaneous and ocular abnormalities predominantly on sun-exposed sites and in some cases, neurological features resulting from progressive neuronal loss. Skin involvement includes easy sunburning, pigmentary abnormalities, telangiectasia, dryness, scarring, and susceptibility to multiple benign and malignant neoplasms. In CS, defective repair of actively transcribing DNA is clinically associated with acute photosensitivity, growth retardation, demyelinating neurological abnormalities, and pigmentary retinal degeneration, but without increased cancer susceptibility. TTD is characterized by sulphur-deficient brittle hair, variable growth delay, mental retardation, ichthyosis, and in some cases photosensitivity. Although in some patients there is a deficiency of DNA excision repair identical to that in certain xeroderma pigmentosum patients, no increased cancer risk is present in trichothiodystrophy. In BS, deficient cellular DNA ligase is associated with congenital telangiectasia, photosensitivity, growth retardation, immune deficiency, increased susceptibility to infection, and predominantly internal rather than cutaneous malignancy. Immunological factors may at least determine the varying susceptibility to malignancy of these conditions.
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PMID:DNA repair deficient photodermatoses. 220 44

We were able to detect clinically normal carriers of xeroderma pigmentosum (XP) genes with coded samples of either peripheral blood lymphocytes or skin fibroblasts, using a cytogenetic assay shown previously to detect individuals with cancer-prone genetic disorders. Metaphase cells of phytohemagglutinin-stimulated T-lymphocytes from eight individuals who are obligate heterozygotes for XP were compared with those from nine normal controls at 1.3, 2.3, and 3.3 h after x-irradiation (58 R) during the G2 phase of the cell cycle. Lymphocytes from the XP heterozygotes had twofold higher frequencies of chromatid breaks or chromatid gaps than normal (P less than 10(-5)) when fixed at 2.3 or 3.3 h after irradiation. Lymphocytes from six XP homozygotes had frequencies of breaks and gaps threefold higher than normal. Skin fibroblasts from an additional obligate XP heterozygote, when fixed approximately 2 h after x-irradiation (68 R), had a twofold higher frequency of chromatid breaks and a fourfold higher frequency of gaps than fibroblasts from a normal control. This frequency of aberrations in cells from the XP heterozygote was approximately half that observed in the XP homozygote. The elevated frequencies of chromatid breaks and gaps after G2 phase x-irradiation may provide the basis of a test for identifying carriers of the XP gene(s) within known XP families.
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PMID:Carrier detection in xeroderma pigmentosum. 229 92

There is evidence for defective DNA repair in xeroderma pigmentosum, Cockayne's syndrome, and trichothiodystrophy, but for increased cancer risk only in xeroderma pigmentosum. Natural and adaptive immune surveillance and mutant frequency to 6-thioguanine resistance in circulating T-lymphocytes were studied in five patients with xeroderma pigmentosum, two with Cockayne's syndrome, and one with trichothiodystrophy. Forty-eight-hour cutaneous hypersensitivity responses to recall antigens excluded anergy and circulating CD3+, CD4+, CD8+, and CD16+ cell numbers were within normal limits in all patients tested, as were proliferative lymphocyte responses to PHA, except in the trichothiodystrophy patient. Proliferative responses to recall antigens (PPD, SKSD, and Candida) showed that all patients responded to one or more antigens. Direct natural killer cytotoxicity measured against the human erythromyeloid leukaemia cell line K562 using a 4-h 51Cr release assay was significantly reduced in xeroderma pigmentosum (specific cytotoxicity less than mean +/- SD greater than 17.4 +/- 9.4 per cent, with effector:target cell ratio of 50:1) compared to normal controls (45.8 +/- 17.8), but normal in Cockayne's syndrome and trichothiodystrophy. Generation of lymphokine activated killer cell activity was normal in the two xeroderma pigmentosum lines tested. The mutant frequency in the xeroderma pigmentosum donors was significantly increased (p less than 0.01) and was elevated in the two Cockayne's syndrome donors, taking age into account. No mutants were observed from the single trichothiodystrophy donor. These findings suggest that reduced natural killer cell activity may contribute to the greatly increased susceptibility to skin cancer in xeroderma pigmentosum.
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PMID:Immune function, mutant frequency, and cancer risk in the DNA repair defective genodermatoses xeroderma pigmentosum, Cockayne's syndrome, and trichothiodystrophy. 238 95


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