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)

Fibroblasts derived from patients with diseases affecting DNA repair processes, such as Xeroderma Pigmentosum (classical and variant), Fanconi's anemia, Bloom's syndrome, Ataxia Telangiectasica, Progeria and Werner's syndrome, were assayed for the three DNA polymerases. The specific activities of these enzymes were found within the limits observed in normal human fibroblasts. Also the sedimentation properties of the three polymerases were unaltered.
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PMID:DNA polymerases alpha beta and gamma in inherited diseases affecting DNA repair. 67 49

The frequency of BrdU-induced sister chromatid exchanges (SCE) in cultured lymphocytes from patients with ataxia telangiectasia, Werner syndrome, and xeroderma pigmentosum was normal. The rate was increased in xeroderma pigmentosum following exposure to ultraviolet light and spontaneously raised in the Bloom syndrome. Quadriradial exchanges between homologous chromosomes in Bloom syndrome not only involve sister chromatids but also homologous (non-sister) chromatids. This could result in the formation of recombinant chromosomes and is viewed as a genetically determined form of increased somatic recombination in man. Endoreduplicated metaphases showed 'twin' and 'single' exchanges in a 1:2 ratio. This suggests a comparable frequency of exchanges at both divisions and provides evidence for the polarity of the chromatid subunits and the presence of a single chain of DNA.
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PMID:Chromatid exchanges in ataxia telangiectasia, Bloom syndrome, Werner syndrome, and xeroderma pigmentosum. 96 24

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

The release of DNA 5'-terminal deoxyribose-phosphate residues from enzymatically incised apurinic/apyrimidinic sites by human cell extracts has been under investigation. During the course of these studies, we observed that ataxia telangiectasia cell extracts modify deoxyribose-phosphate (dRp) residues by converting them to an altered form, dRp-X, which shows altered chromatographic properties on HPLC analysis. The chemical nature of the adduct is as yet unknown, but dRp-X is stable to both heat and acid. The modification requires an enzymatic activity and a low-molecular weight co-factor. Extracts of normal cells contain a dialyzable inhibitor that suppresses the reaction occurring with ataxia telangiectasia cell extracts. Formation of dRp-X has been observed in 7 out of 7 ataxia telangiectasia lymphoblastoid lines which represent at least 3 genetic complementation groups. Similar modification of dRp did not occur with extracts of cells of normal origin, nor those representing Fanconi's anaemia, xeroderma pigmentosum, Bloom's syndrome, Werner's syndrome or Friedreich's ataxia.
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PMID:Modification of deoxyribose-phosphate residues by extracts of ataxia telangiectasia cells. 236 95

The rate of DNA synthesis after gamma-irradiation was studied either by analysis of the steady-state distribution of daughter [3H]DNA in alkaline sucrose gradients or by direct assay of the amount of [3H]thymidine incorporated into DNA of fibroblasts derived from a normal donor (LCH882) and from Down's syndrome (LCH944), Werner's syndrome (WS1LE) and xeroderma pigmentosum (XP2LE) patients with chromosomal sensitivity to ionizing radiation. Doses of gamma-irradiation that markedly inhibited the rate of DNA synthesis in normal human cells caused almost no inhibition of DNA synthesis in the cells from the affected individuals. The radioresistant DNA synthesis in Down's syndrome cells was mainly due to a much lower inhibition of replicon initiation than that in normal cells; these cells were also more resistant to damage that inhibited replicon elongation. Our data suggest that radioresistant DNA synthesis may be an intrinsic feature of all genetic disorders showing increased radiosensitivity in terms of chromosome aberrations.
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PMID:Radioresistant DNA synthesis in cells of patients showing increased chromosomal sensitivity to ionizing radiation. 293 43

X-ray irradiation induced sister chromatid exchanges (SCE) in blood lymphocytes from patient with Down's syndrome and adult progeria (in both the cases radioresistant DNA synthesis takes place). In these diseases, likely as upon form II of xeroderma pigmentosum (the replicative DNA synthesis is radioresistant), X-ray irradiation lowers the rate of SCE compared with that in the control, then the SCE rate rises with the increase in radiation dose, reaching the rate of SCE in non-irradiated cells. In normal lymphocytes (in which ionizing radiation inhibits the replicative synthesis of DNA) the rate of SCE rises with the rise of radiation dose. Thus, the rate of SCE in X-ray irradiated lymphocytes is in reverse dependence with radioresistance of replicative synthesis of DNA. The data obtained are explained in accordance with the replicative hypothesis of the SCE nature (Painter, 1980a): in cells of patients with Down's syndrome, xeroderma pigmentosum form II and progeria of adults the time of existence of partly replicated clusters of replicons is decreased due to radioresistant replicative synthesis of DNA, but the presence of partly replicated clusters of replicons is necessary for SCE formation. Therefore the rate of SCE in X-irradiated cells of these patients decreases.
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PMID:[Sister chromatid exchanges, during x-irradiation, in the blood lymphocytes of patients with hereditary diseases and radioresistant DNA synthesis]. 297 99

A systematic review of the more than 2,000 genetic loci of man cataloged by McKusick indicated that approximately 7% may play a role in modulating the rates of development of various aspects of the senescent phenotype. Assuming an upper limit of about 100,000 loci in man, numerous alleles at approximately 7,000 loci could be contributing to characteristic patterns of aging in individual human beings. Point mutations or chromosomal aberrations involving such loci may result in various progeroid syndromes. These have been classified into two categories: segmental progeroid syndromes, which involve multiple aspects of the senescent phenotype, and unimodal progeroid syndromes, in which predominantly one aspect of the phenotype is involved. Two different examples of segmental progeroid syndromes were discussed: the Werner syndrome (an autosomal recessive) and the Down syndrome (trisomy 21). Examples of unimodal progeroid syndromes included familial hypercholesterolemia (accelerated atherogenesis), xeroderma pigmentosum (acceleration of skin aging, including age-related neoplasms), and certain forms of intestinal polyposis (acceleration of adenocarcinoma of the colon). It is remarkable and encouraging that the biochemical genetic basis of many progeroid syndromes, including all of those mentioned above, may be amenable to investigation with cultured mesenchymal somatic cells from individual subjects. For example, cells from patients with the Werner's syndrome have a striking limitation of their in vitro replicative life-spans and undergo extensive chromosomal rearrangements. These abnormalities are presumably related to an enzyme deficiency which, in principle, could be identified by biochemical studies of cultured cells.
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PMID:Syndromes of accelerated aging. 621 19

DNA topoisomerase II is involved in DNA topologic changes through the formation of a cleavable complex. This is stabilized by the antitumor drug VP16, which results in DNA breakage, aberrant recombination, and cell death. In this work, we compare the chromosomal damage induced by VP16 with that induced by bleomycin (BLM) in lymphoblasts from patients affected by the chromosome breakage syndromes ataxia telangiectasia (AT), xeroderma pigmentosum (XP), and Bloom syndrome (BS), and by the progeroid syndromes Werner (WS) and Cockayne (CS). Patients affected by AT, XP, BS, and WS have a greatly enhanced risk of developing cancer. The results show that AF and WS cells are hypersensitive to VP16, as revealed in the higher proportion of metaphases showing exchange figures and more than two breaks. All lines except AT and one CS line showed normal sensitivity to BLM. Our data on the sensitivity to VP16 of all these mutant cells underline the fact that VP16 damage is amplified only in cells that have abnormal illegitimate recombination (i.e., AT and WS).
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PMID:Effects of topoisomerase II inhibition in lymphoblasts from patients with progeroid and "chromosome instability" syndromes. 862 55

Werner syndrome is a rare autosomal recessive disorder that mimics some of the characteristics of aging. The gene for this disorder has recently been identified as a helicase of the recQ subclass. Other phenotypically distinctive disorders caused by different helicase mutations include Bloom syndrome, Cockayne syndrome, xeroderma pigmentosum and trichothiodystrophy. Possible mechanisms by which helicases might produce the variable phenotypes are discussed. These include altered nucleotide excision repair and RNA polymerase II-mediated transcription. The discovery of the helicase defect in Werner syndrome provides a road map for future study of its unique pathogenesis and conceivable, but unproved, relationship to the aging process.
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PMID:Werner syndrome: entering the helicase era. 897 61

A search of the Human Genome Sciences database of expressed sequence-tagged DNA fragments, for sequences containing homology to known yeast DNA recombination and repair genes, yielded a cDNA fragment with high homology to RAD54. Here we describe the complete cDNA sequence and the characterization of the genomic locus coding for the human homologue of the yeast RAD54 gene (hRAD54). The yeast RAD54 belongs to the RAD52 epistasis group and appears to be involved in both DNA recombination and repair. The hRAD54 gene maps to chromosome 1p32 in a region of frequent loss of heterozygosity in breast tumors and encodes a protein of M(r) 93,000 that displays 52% identity to the yeast RAD54 protein. The hRAD54 protein sequence additionally contains all seven of the consensus segments of a superfamily of proteins with presumed or proven DNA helicase activity. Mutations in genes with consensus helicase homology have been found in cancer-prone syndromes such as xeroderma pigmentosum and Bloom syndrome as well as Werner's syndrome, in which patients age prematurely, and the X-linked mental retardation with alpha-thalassemia syndrome, ATR-X. We have examined the hRAD54 gene in several breast tumors and breast tumor cell lines and, although the gene region appears to be deleted in several tumors, at present we have found no coding sequence mutations.
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PMID:Characterization of the human homologue of RAD54: a gene located on chromosome 1p32 at a region of high loss of heterozygosity in breast tumors. 919 13

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