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:C0002871 (anemia)
52,094 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Xeroderma pigmentosum, Cockayne's syndrome, ataxia telangiectasia, Fanconi anemia, and Bloom's syndrome are autosomal recessive diseases with cellular defects in the ability to process DNA damage. Although these diseases are rare, they are seen occasionally in practice and provide insight into the mechanisms of DNA repair and replication in humans. The authors will review the clinical and cytological presentation of each disease, the genetic heterogeneity, as inferred by complementation analysis, and the differentiating characteristics of each. The authors will conclude with a discussion of the state of current research on each disease and possible directions for future research.
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PMID:Diseases with DNA damage-processing defects. 327 89

We reported previously that human cells after neoplastic transformation in culture had acquired an increased susceptibility to chromatid damage induced by x-irradiation during the G2 phase of the cell cycle. Evidence suggested that this results from deficient DNA repair during G2 phase. Cells derived from human tumors also showed enhanced G2-phase chromosomal radiosensitivity. Furthermore, skin fibroblasts from individuals with genetic diseases predisposing to a high risk of cancer, including ataxia-telangiectasia, Bloom syndrome, Fanconi anemia, and xeroderma pigmentosum exhibited enhanced G2-phase chromosomal radiosensitivity. The present study shows that apparently normal skin fibroblasts from individuals with familial cancer--i.e., from families with a history of neoplastic disease--also exhibit enhanced G2-phase chromosomal radiosensitivity. This radiosensitivity appears, therefore, to be associated with both a genetic predisposition to cancer and a malignant neoplastic state. Furthermore, enhanced G2-phase chromosomal radiosensitivity may provide the basis for an assay to detect genetic susceptibility to cancer.
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PMID:Chromosomal radiosensitivity during the G2 cell-cycle period of skin fibroblasts from individuals with familial cancer. 386 Aug 70

The hypothesis that heterozygous carriers of genes for certain autosomal recessive syndromes may be predisposed to diabetes was tested by comparing diabetes incidence from age 20 to 69 yr in blood relatives to that in spouse controls among 7999 adult family members of patients with one of five autosomal recessive syndromes: ataxia-telangiectasia (A-T), Fanconi anemia (FA), xeroderma pigmentosum (XP), common variable immune deficiency (CVID), and severe combined immune deficiency (SCID). FA and A-T families were studied because earlier findings in family members and the frequency of diabetes in homozygotes suggested that heterozygotes might also be predisposed to diabetes. The XP, CVID, and SCID families were included to see what analysis of family data would reveal when there was no prior evidence for a gene-diabetes association. The diabetes rate ratios of 2.6 and 4.2 among FA and SCID females, respectively, were significantly elevated. For female FA heterozygotes specifically, the estimated relative risk of 5.1 for developing diabetes was also significantly elevated. Among males, the most pronounced, although not statistically significant, findings were an elevated rate ratio of 2.2 for A-T males and a low-rate ratio of 0.5 for CVID males. The results suggest that heterozygotes for some of the diabetes-associated autosomal recessive syndromes may themselves be predisposed to diabetes.
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PMID:Diabetes mellitus in ataxia-telangiectasia, Fanconi anemia, xeroderma pigmentosum, common variable immune deficiency, and severe combined immune deficiency families. 394 65

We have examined the conversion of intermediates of DNA replication in normal human skin fibroblasts and fibroblasts isolated from patients with genetic diseases caused by putative DNA repair defects. Experiments were performed in non-transformed, unchallenged cells using alkaline sucrose sedimentation analysis to demonstrate precursor low molecular weight (LMW) DNA molecules which converted into high molecular weight (HMW) DNA with time. Analyses of conversion of replicative intermediates were conducted in cells from patients with ataxia telangiectasia (AT), Fanconi anemia (FA), Bloom syndrome (BS), Cockayne syndrome (CS) and xeroderma pigmentosum (XP). Our studies show that conversion of replicative intermediates occurs in all cell strains examined. However, XP cells (complementation groups A and E) show evidence of abnormalities in the conversion of LMW replicative intermediates, with the most dramatic alterations shown by cells from complementation group A.
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PMID:Conversion of replicative intermediates in human DNA-repair defective cells. 395 84

Human xeroderma pigmentosum (XP) or Fanconi anemia (FA) fibroblasts displayed shouldered 45 degrees C heat survival curves not significantly different from normal fibroblasts, a result similar to that previously found for ataxia telangiectasia (AT) cells, indicating heat resistance is not linked to either uv or low-LET ionizing radiation resistance. Hyperthermia (45 degrees C) sensitized normal and XP fibroblasts to killing by gamma radiation but failed to sensitize the cells to the lethal effects of 254 nm uv radiation. Thermal inhibition of repair of ionizing radiation lesions but not uv-induced lesions appears to contribute synergistically to cell death. The thermal enhancement ratio (TER) for the synergistic interaction of hyperthermia (45 degrees C, 30 min) and gamma radiation was significantly lower in one FA and two strains (TER = 1.7-1.8) than that reported previously for three normal strains (TER = 2.5-3.0). These XP and FA strains may be more gamma sensitive than normal human fibroblasts. Since hyperthermia treatment only slightly increases the gamma-radiation sensitivity of ataxia telangiectasia (AT) fibroblasts compared to normal strains, it is possible that the degree of thermal enhancement attainable reflects the genetically inherent ionizing radiation repair capacity of the cells. The data indicate that both repair inhibition and particular lesion types are required for lethal synergism between heat and radiation. We therefore postulate that the transient thermal inhibition of repair results in the conversion of gamma-induced lesions to irrepairable lethal damage, while uv-type damage can remain unaltered during this period.
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PMID:Sensitivity of hyperthermia-treated human cells to killing by ultraviolet or gamma radiation. 408 Sep 76

Cell survival after treatment with cis-diamminedichloroplatinum(II) [cis-Pt(II)] and host-cell reactivation of cis-Pt(II)-treated SV40 DNA were investigated using two Fanconi anaemia, one xeroderma pigmentosum of complementation group A, and three normal human control fibroblast cell strains. The Fanconi anaemia and xeroderma pigmentosum cell strains showed an increased sensitivity to the cytotoxic action of cis-Pt(II) treatment, suggesting a deficiency in the repair pathway of cis-Pt(II)-induced damage. In addition, the survival of cis-Pt(II)-treated SV40 DNA was about 2-fold lower in xeroderma pigmentosum cells than in control cells. No difference in viral DNA survival was found between Fanconi anaemia and control cells, although the Fanconi anaemia cells were more sensitive to the cytotoxic action of treatment with cis-Pt(II) than the xeroderma pigmentosum cells in the clonogenic cell survival assay.
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PMID:Host-cell reactivation of cis-diamminedichloroplatinum(II)-treated SV40 DNA in normal human, Fanconi anaemia and xeroderma pigmentosum fibroblasts. 609 6

The ability of human fibroblasts to repair bleomycin-damaged DNA was examined in vivo. Repair of the specific lesions caused by bleomycin (BLM) was investigated in normal cell strains as well as those isolated from patients with apparent DNA repair defects. The diseases ataxia telangiectasia (AT), Bloom syndrome (BS), Cockayne syndrome (CS), Fanconi anemia (FA), and xeroderma pigmentosum (XP) were those selected for study. The method used for studying the repair of DNA after BLM exposure was alkaline sucrose gradient centrifugation. After exposure to BLM, a fall in the molecular weight of DNA was observed, and after drug removal the DNA reformed rapidly to high molecular weight. The fall in molecular weight upon exposure to BLM was observed in all cells examined with the exception of some XP strains. Prelabeled cells from some XP complementation groups were found to have a higher percentage of low molecular weight DNA on alkaline gradients than did normal cells. This prelabeled low molecular weight DNA disappeared upon exposure to BLM.
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PMID:Repair of Bleomycin-damaged DNA by human fibroblasts. 617 50

The relation of DNA cross-linking and repair to sister chromatid exchange (SCE) formation was studied in normal human, Fanconi anemia (FA), and xeroderma pigmentosum (XP) cells. Despite a hypersensitive lethality response in FA cells, the SCE induction rates by mitomycin C (MMC), trimethylpsoralen (TMP)-light, cisplatin, and diepoxybutane were twice as high as in normal cells. For MMC, the induced SCE frequency in normal cells was reduced in a biphasic fashion with a repair incubation time (the first decline t1/2 = 2 hr; the second t1/2 = 14-18 hr) which corresponds exactly to the molecular kinetics of cross-link and monoadduct removal. However, FA cells lack the first half-excision process and exhibit a lack of the first rapid decline SCE component. The slow decline component is present, and a higher SCE frequency is observed 24 to 48 hr after treatment. By contrast, XP cells capable of the half-excision process reveal the first rapid decline component, followed by an extremely slow second-reduction component (t1/2 = 48 hr) due to defective monoadduct repair. The endoreduplication-SCE method revealed that rates of both twin (first cycle) and single (second cycle) SCE formations by MMC and TMP-light were higher in FA cells than in normal cells. These results indicate that cross-links remaining unrepaired induce SCEs as do monoadducts. The probabilistic SCE induction occurs at a rate of 1 SCE per 35 MMC cross-links in FA cells. Further, a non-SCE-forming tolerance mechanism also operates in hypersensitive FA cells. These molecular and cytogenetic results allow us to construct a new probabilistic model for cross-link-induced SCE into which the replication-fork model, random cross-link transfer to both chromatids, and chromatid breakage-reunion are incorporated.
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PMID:DNA interstrand cross-linking, repair, and SCE mechanism in human cells in special reference to Fanconi anemia. 644 45

Ten lines of skin fibroblasts from individuals with genetic disorders predisposing to a high risk of cancer were compared with nine lines from normal adult donors with respect to chromatid damage after x-irradiation [25, 50, and 100 rad (0.25, 0.50, and 1 gray)] during G2 phase. The 10 cell lines represented five genetic disorders: Bloom syndrome, familial polyposis, Fanconi anemia, Gardner syndrome, and xeroderma pigmentosum, complementation groups A(XP-A), C(XP-C), E(XP-E), and variant (XP-Va). The incidence of chromatid breaks in all cancer-prone lines except XP-E and XP-A was significantly higher than in the normal lines. The incidence of chromatid gaps in all cancer-prone lines except XP-A and XP-Va was significantly higher than in the normal lines. Because each chromatid apparently contains a single continuous DNA double strand, chromatid breaks and gaps represent unrepaired DNA strand breaks arising directly or indirectly during excision repair of x-ray-induced DNA damage. These cytogenetic data together with results from use of the DNA repair inhibitor arabinofuranosyl cytosine (cytosine arabinoside) suggest that cells from all of these cancer-prone individuals are deficient in some step of DNA repair, predominantly excision repair operative during the G2-prophase period of the cell cycle. It appears that these DNA repair deficiencies are associated with a genetic predisposition to a high risk of cancer.
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PMID:Chromatid damage after G2 phase x-irradiation of cells from cancer-prone individuals implicates deficiency in DNA repair. 657 47

Long-term lymphoid cell lines (LCL) derived from normal individuals, patients with ataxia telangiectasia (A-T), xeroderma pigmentosum (XP), and Fanconi anemia (FA) were exposed to various concentrations of 11 chemical clastogens. The agents were chosen to represent a variety of suggested modes of action. In contrast to all other genotypes, the FA lines demonstrated significant rates of spontaneous chromosomal breakage and showed hypersensitivity to all of the clastogens employed. Variability among lines within a genotype suggested individual responses to specific agents. Computation of "corrected values" to address the problem of baseline disparity removed some of the significant differences between the FA and other lines. Nonetheless, following correction, the FA genotype was still delineated by clastogens which are not DNA cross-linkers. The A-T lines were specifically identified by the induction of chromosome damage by bleomycin and neocarzinostatin.
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PMID:Chemical clastogenicity in lymphoid cell lines of chromosomal instability syndromes. 662 24


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