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DNA repair mechanisms usually consist of a complex network of enzymatic reactions catalyzed by a large family of mutually interacting gene products. Thus deficiency, alteration or low levels of a single enzyme and/or of auxiliary proteins might impair a repair process. There are several indications suggesting that some enzymes involved both in DNA replication and repair are less abundant if not completely absent in stationary and non replicating cells. Postmitotic brain cell does not replicate its genome and has lower levels of several DNA repair enzymes. This could impair the DNA repair capacity and render the nervous system prone to the accumulation of DNA lesions. Some human diseases clearly characterized by a DNA repair deficiency, such as xeroderma pigmentosum, ataxia-telangiectasia and Cockayne syndrome, show neurodegeneration as one of the main clinical and pathological features. On the other hand there is evidence that some diseases characterized by primary neuronal degeneration (such as amyotrophic lateral sclerosis and Alzheimer disease) may have alterations in the DNA repair systems as well. DNA repair thus appears important to maintain the functional integrity of the nervous system and an accumulation of DNA damages in neurons as a result of impaired DNA repair mechanisms may lead to neuronal degenerations.
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PMID:DNA repair mechanisms in neurological diseases: facts and hypotheses. 146 39

Since all organisms are continuously exposed to exogenous and endogenous DNA damaging agents, mechanisms of repair of DNA lesions are necessary to maintain the integrity of the genome. Studies of the cellular defects in human inherited diseases with deficiencies in DNA repair have given new insights into these processes. Nucleotide excision repair is an important DNA repair pathway in which several types of DNA lesions are removed by a multi-step enzymatic process. This repair mechanism is deficient in the rare disease xeroderma pigmentosum (XP), which results in extreme sensitivity to ultraviolet light (UV) and development of UV-induced skin tumors at an early age. There are several genetic complementation groups of XP. The genes that are mutated in some of the XP complementation groups have been cloned and the functions of the encoded proteins are being characterised. Several types of DNA lesions are removed more rapidly from active genes than from other regions of DNA. This preferential repair of active genes is deficient in Cockayne's syndrome, which is characterised by developmental abnormalities and UV-sensitivity but no marked increase in cancer incidence. Other syndromes associated with increased sensitivity to certain DNA damaging agents where no defect in DNA repair has been defined include Fanconi's anemia (sensitivity to DNA cross-linking agents), hereditary dysplastic nevus syndrome (sensitivity to UV) and ataxia-telangiectasia (sensitivity to ionizing radiation).
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PMID:Inherited defects in DNA repair and susceptibility to DNA-damaging agents. 147 Nov 67

The CT and MRI appearances of 5 patients with Cockayne's syndrome, 5 with ataxia telangiectasia and 1 with Fanconi's anaemia are reported. These conditions, together with Bloom's syndrome and xeroderma pigmentosum are regarded as disorders of DNA repair. Characteristic CT and MRI features of Cockayne's syndrome include generalised atrophy, calcification in basal ganglia and dentate nuclei and white matter low density. Neuroradiological findings in the other DNA repair disorders are nonspecific.
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PMID:Cranial CT and MRI in diseases with DNA repair defects. 160 8

In this study, a sensitive host cell reactivation (HCR) technique was used to examine the repair capacity for DNA damaged by sunlamp exposure in fibroblast strains derived from 5 normal individuals and 8 patients representing three different diseases associated with DNA repair deficiencies. Adenovirus type 2 (Ad 2) was exposed to radiation from a GE 275 W sunlamp and subsequently used to infect fibroblast monolayers. At 48 hr after infection, cells were scored for the presence of viral structural antigens (Vag) using indirect immunofluorescent staining. Previous reports using this technique showed a substantial reduction in the HCR of sunlamp-exposed Ad 2 for infection of excision repair deficient fibroblasts from patients with xeroderma pigmentosum. In contrast, the HCR of Vag synthesis for sunlamp-exposed Ad 2 was in the normal range for the three ataxia telangiectasia, three Bloom's syndrome, and two Huntington's disease fibroblasts strains.
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PMID:Host cell reactivation of sunlamp-exposed adenovirus in fibroblasts from patients with Bloom's syndrome, ataxia telangiectasia, and Huntington's disease. 182 56

We have used the SV40-based shuttle vector pZ189 to determine ultraviolet mutation spectra in SV40-transformed cell lines from two patients with Cockayne's syndrome (CS) and ataxia telangiectasia (AT). The shuttle vector was UV-irradiated, transfected into the cells and recovered two days later, after many rounds of replication had occurred. Plasmid DNA was used to transform indicator bacteria in which plasmids containing a mutation in the supF gene resulted in white colonies. Mutant plasmids were analysed both by agarose gels and by DNA sequencing. In contrast to published spectra for xeroderma pigmentosum cells, the types of mutation induced by UV mutation in the CS and AT cell lines were similar to each other and to published spectra for normal cell lines. There were however, some differences in the sequence distribution of the mutations.
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PMID:UV mutation spectra in cell lines from patients with Cockayne's syndrome and ataxia telangiectasia, using the shuttle vector pZ189. 184 50

It has long been recognized that exposure to specific chemical and physical agents can result in the appearance of tumours in both man and animals. There is substantial evidence that DNA is the ultimate cellular target of carcinogens and that DNA repair is an important cellular defence against the effects of carcinogen exposure. Some insight into the molecular processes involved in cellular responses to carcinogens is provided by the occurrence of rare human disorders that display complex abnormalities in processing DNA damage or maintaining genomic integrity. These disorders include xeroderma pigmentosum, Cockayne syndrome, ataxia telangiectasia, dysplastic nevus syndrome and Bloom syndrome. Such disorders have provided clues to some of the basic mechanisms involved in carcinogenesis.
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PMID:Carcinogenesis: molecular defences against carcinogens. 186 47

The contribution of DNA damage to the effects of 193-nm excimer laser radiation on mammalian cells in culture was studied in order to evaluate the mutagenic potential of this UV wavelength in vivo. Two approaches were taken: measurement of pyrimidine dimer-specific endonuclease-sensitive sites/megabase and comparison of the 193-nm radiation-induced cytotoxicity in normal versus DNA repair-deficient cells. The formation of pyrimidine dimer-specific endonuclease-sensitive sites/megabase was inversely related to the thickness of the cytoplasm overlying the nuclei of normal human fibroblasts (NHF) and Chinese hamster ovary cells. The results of these measurements and a calculation of the absorption coefficient of cytoplasm indicate that each 1 micron of cytoplasm attenuates the incident radiation by greater than 90% and, therefore, the nuclear DNA in tissue will be highly protected from 193-nm radiation by overlying cytoplasm. The reduction in colony-forming ability induced by 254-nm, 193-nm, and X-ray radiation was measured in NHF, xeroderma pigmentosum (group A) cells, and ataxia telangiectasia cells. Xeroderma pigmentosum (group A) cells were 16.5 times more sensitive to 254-nm radiation but only 3.5 times more sensitive to 193-nm radiation than NHF cells, indicating that cyclobutylpyrimidine dimers were not the major lethal lesion formed at 193 nm. AT cells were 3.4 times more sensitive to X-rays than NHF cells, but these cell types were almost equally sensitive to 193-nm radiation, indicating that 193 nm did not induce the same type of lethal lesions as X-rays.
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PMID:DNA damage induced by 193-nm radiation in mammalian cells. 198 91

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

Xeroderma pigmentosum complementation group A (XPA) is one of the DNA repair deficient syndromes. The cell biological features of XPA were examined by flowcytometry using Epstein Barr (EB) virus-transformed lymphoblastoid cells. Cellular sensitivity to vincristine (VCR), etoposide (VP-16) and methotrexate (MTX) were assayed by DNA pattern changes by flowcytometry. Recently, ataxia-telangiectasia (AT), one of the same kind of disorder, has been reported to have an increased sensitivity to VCR and VP-16. However, AT showed some resistance to MTX according to other reports. Our results showed that XPA had an increased sensitivity to VCR and also to VP-16. Moreover, different from AT, XPA showed some sensitivity to MTX. Thus there is some cell biological similarity between XPA and AT, as well as some difference of the abnormality in the DNA repair pathway.
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PMID:Flowcytometric analysis of DNA pattern of cells derived from xeroderma pigmentosum A--hypersensitivity to vincristine, etoposide and methotrexate. 223 99

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