UMLS:C0004135 - FACTA Search

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Query: UMLS:C0004135 (ATM)
13,001 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The frequencies of chromatid breaks and gaps in metaphase cells fixed 2 h after G2 phase X-irradiation (1 Gy) were in almost all cases at least two- to three-fold higher in skin fibroblasts from individuals with genetic conditions predisposing to cancer than in comparable cells from clinically normal controls. Previously, we reported this response in all cancer-prone genetic disorders tested including ataxia telangiectasia, Bloom's syndrome, Fanconi's anemia, xeroderma pigmentosum (XP), familial polyposis, Gardner's syndrome, hereditary malignant melanoma, dysplastic nevus syndrome and cancer family members. One exception was XP-A. In this report we add information on skin fibroblasts from retinoblastoma, Wilms' tumor and XP-C patients, 13 clinically normal controls and six cell lines from fetal or infant cells. Factors affecting the response are identified and include pH, temperature, cell density, culture medium or serum, microbial contamination and visible light exposure (effective wavelength 405 nm). Because of experimental variability, known normal controls should be used in each group of assays. With adequate control of the above factors this response could provide the basis of a test for detecting individuals carrying genes that predispose to a high risk of cancer.
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PMID:Factors affecting and significance of G2 chromatin radiosensitivity in predisposition to cancer. 256 34

In order to investigate the biochemical events involved in potentially lethal DNA damage repair (PLDR), we have identified a pleiotropic protein expression response that is activated upon X-irradiation of confluence-arrested human malignant melanoma (U1-Mel) cells. Plateau-phase U1-Mel cells were selected because of their extraordinary capacity for PLDR. Eight major X-ray-induced polypeptides (XIPs) of Mr 126,000-275,000 (i.e., XIP126 through XIP275) were detected by resolving L-[35S]methionine-labeled whole cell extracts using two-dimensional gel electrophoresis. XIPs were found in unirradiated, proliferating U1-Mel cells, shut off under plateau-phase conditions and resynthesized in response to X-irradiation. The expression of three classes of proteins was affected by X-irradiation. Class I proteins, XIP145 and XIP269, were induced linearly with increasing X-ray doses. The rate of synthesis of class II proteins, XIP126, XIP135, XIP138, XIP141, XIP147, and XIP275, increased linearly with low X-irradiation doses, but plateaued at doses of 150-250 cGy. In contrast, the expression of class III proteins, 47,000 and 254,000 Mr proteins, decreased with increasing X-ray doses. Tumor, cancer-prone, and normal human cells, which represent a wide range of cells with varied repair capacities, were investigated to better understand the role of XIPs in DNA damage responses. X-irradiated normal and tumor cells induced the synthesis of XIP145 and XIP269. A strong correlation between the induction of XIP269 and PLDR capacity, as measured by delayed plating of plateau-phase cells, was noted. XIP269 was present in six of seven normal and tumor cells types, but was completely absent in cells from patients with Bloom's syndrome and ataxia telangiectasia. X-irradiated Fanconi's anemia and xeroderma pigmentosum cells synthesized low levels of XIP269. The majority of XIPs synthesized by X-irradiated cells from cancer-prone patients were of low molecular weights. A number of XIP expression characteristics suggest their role in either gross chromosomal PLDR and/or in X-ray adaptivity responses: (a) XIP expression was inhibited by 1 microgram/ml cycloheximide, a dose which decreased survival 6-fold during PLDR holding and resulted in greater than 80% inhibition of protein synthesis; (b) XIP expression was specific for ionizing radiation damage, since heat shock, hypoxia, and alkylating agents failed to induce their synthesis; (c) the time course of expression was long, with the first appearance of XIPs at 3 h and maximal expression at 4 h.
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PMID:Identification and characterization of X-ray-induced proteins in human cells. 272 Jun 48

Dose response curves were obtained for normal human fibroblasts and for several cell lines derived from human tumors, including melanomas and an osteosarcoma. Most of the tumor lines are similar in radiosensitivity to the normal fibroblasts, except for the melanoma lines, which are significantly more resistant. The two melanoma lines differ, one being much more radioresistant than the other. Potentially lethal damage repair (PLDR) has been studied in these cell lines as well. The extent of PLDR does not appear to correlate with radioresistance; for example, the most resistant melanoma line shows very little repair of PLD. In addition, the normal fibroblasts repair PLD at least as well as any of the tumor derived lines, which casts doubts on the wisdom of introducing into clinical practice inhibitors of PLD until a clear differential between normal tissues and tumors has been demonstrated in vivo. Low dose-rate studies with normal human fibroblasts indicate a smaller dose-rate effect than for most established cell lines of rodent origin. Indeed, in the human cells studied, the effect of sublethal damage repair is quantitatively similar to the repair of potentially lethal damage. Dose response curves for acute and protracted exposures have been obtained for cells derived from patients with cancer-prone syndromes including ataxia telangiectasia (AT) and Bloom's syndrome. Both cell lines are much more radiosensitive than normal human fibroblasts; the AT cells show a dose-rate effect, while Bloom's syndrome cells do not.
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PMID:Response of cells of human origin, normal and malignant, to acute and low dose rate irradiation. 351 54

Recently, Volk, Geiger, and Raz (Cancer Res., 44: 811-824, 1984) addressed the question of whether variations in actin organization in clones of the murine K-1735 melanoma tumor correlated with their metastatic capability. Using immunofluorescence techniques, they found that clones which had a more ordered actin network were less metastatic, whereas clones having a diffuse actin staining pattern were more metastatic. Similarly, we have found that in the Dunning rat R3327 prostatic adenocarcinoma tumor system, the non-metastatic (less than 0.1%) H-prostatic tumor cell line has a prominent network of actin filament bundles, whereas the highly metastatic (greater than 90%) MatLyLu cell line has a diffuse actin staining pattern. In the low-metastatic (less than 10%) AT1 cell line an intermediate actin organization between H and MatLyLu was observed. Analysis of cell extracts from H- and MatLyLu-cells revealed differences in the level of activity of cellular proteins which affect actin filament assembly and structure in a manner similar to that of the cytochalasins, fungal metabolites which bind with high affinity to the fast-growing end of actin filaments. Extracts of MatLyLu were significantly more effective than those of H-cells in decreasing the extent of actin filament network formation and in inhibiting the rate of filament assembly by blocking monomer addition onto the fast-growing end. Measurements of spin-lattice nuclear magnetic resonance water proton relaxation times (T1) were made in surgically removed tumor tissue from four sublines (H, AT1, MatLyLu, and MatLu) of the Dunning R3327 tumor system. The highly metastatic cell lines had significantly longer water proton T1 relaxation times than did the lines with low metastatic potential. These differences in T1 may reflect the observed alterations in organization of actin filaments within these various sublines of the Dunning R3327 prostatic adenocarcinoma tumor system.
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PMID:Actin filament organization of the Dunning R3327 rat prostatic adenocarcinoma system: correlation with metastatic potential. 394 Jun 53

The dysplastic nevus syndrome (DNS) is a preneoplastic melanocyte abnormality which occurs in families affected by hereditary cutaneous malignant melanoma (HCMM). A putative role of host-environmental interactions in the etiology of hereditary melanoma has been strengthened by the recent finding that fibroblasts derived from HCMM/DNS patients demonstrated enhanced sensitivity to u.v.-irradiation in vitro. We report here an extension of these studies in which we have examined the in vitro responses to a model environmental carcinogen, 4-nitroquinoline 1-oxide (4NQO), of six non-tumor skin fibroblast strains from HCMM/DNS patients representing five families. Three of the six HCMM/DNS strains showed enhanced cell killing with sensitivities greater than that of a xeroderma pigmentosum (XP) variant strain but less than those of ataxia telangiectasia and XP Group D cell strains. The inhibition and recovery of de novo DNA synthesis, together with the expression of repair synthesis, following 4NQO exposure appeared to be normal in HCMM/DNS strains, irrespective of their subsequent clonogenic potential. Our data point to a metabolic anomaly which may contribute to the carcinogenic risk of the melanoma prone preneoplastic state presented by some DNS patients.
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PMID:Abnormal responses to the carcinogen 4-nitroquinoline 1-oxide of cultured fibroblasts from patients with dysplastic nevus syndrome and hereditary cutaneous malignant melanoma. 640 40

All cancer types exhibit familial clustering, suggestive of a significant inherited component; however, to date only a few of the genes responsible have been identified and the inherited component, if any, underlying most common cancers has not been well defined. Amongst the important known susceptibility genes are those dominant genes conferring a high risk of breast and ovarian cancer (BRCA1), colon cancer (hMSH2 and hMLH1), and melanoma (MLM). All these genes confer a high lifetime risk of the disease concerned, but are rare and only account for a small minority (less than 5%) of cases. However, there are also commoner genes conferring lower risks but accounting for a more substantial fraction of cancer cases; those so far identified include the ataxia-telangiectasia gene and the HRAS1 minisatellite locus.
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PMID:The inherited component of cancer. 798 39

Tissue-type plasminogen activator (t-PA) was induced over 50-fold after X irradiation in radioresistant human melanoma cells (Boothman et al., Cancer Res. 51, 5587-5595, 1991). Activities of t-PA were induced 14-fold in ataxia telangiectasia, 9-fold in Bloom's syndrome and 6-fold in Fanconi's anemia cells, compared to normal human fibroblasts (Fukunaga et al., Int. J. Radiat. Oncol. Biol. Phys. 24, 949-957, 1992). X-ray-inducible synthesis of the protease, t-PA, may play a role(s) in damage-inducible repair processes in mammalian cells, similar to the SOS repair systems in lower eukaryotes and prokaryotes. DNA band shift and DNase I footprinting assays were used to determine binding if transcription factors to a previously unknown X-ray-responsive element (XRE) in the t-PA promoter. The major goals of our research with XREs are to understand (a) which transcription factor(s) regulates t-PA induction after X rays, and (b) the role(s) of t-PA in DNA repair, apoptosis or other responses to X rays. The purpose of this paper is to discuss the potential use of an XRE, such as the one in the t-PA promoter, for gene radiotherapy. Several gene therapy strategies are proposed.
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PMID:Isolation of an X-ray-responsive element in the promoter region of tissue-type plasminogen activator: potential uses of X-ray-responsive elements for gene therapy. 814 31

This study describes a correlation between cellular DNA repair capacity and the frequency of mutagen-induced in vitro chromosomal breaks in selected lymphoblastoid cell lines. Two assays, host cell reactivation (HCR) assay for measuring cellular DNA repair capacity and in vitro mutagen sensitivity assay, have recently been shown to be useful biomarkers for such susceptibility. Increased in vitro mutagen sensitivity, measured by the number of induced chromatid breaks, has been postulated to reflect decreased capacity of DNA repair, as measured by the HCR assay. However, these two assays have not been examined in parallel to test this hypothesis. In this study, we performed both assays in 16 established lymphoblastoid cell lines derived from patients with xeroderma pigmentosum (n = 3), ataxia telangiectasia (n = 2), head and neck cancer (n = 3), and melanoma (n = 2), and from normal human subjects (n = 6) using UV light, 4-nitroquinoline-1-oxide (4-NQO; an UV-mimetic agent), and gamma-irradiation as the test agents. The measurements from the HCR assay correlated significantly with the frequency of chromatid breaks induced by either UV irradiation (r = -0.69; P < 0.01) or 4-NQO (r = -0.70; P < 0.01). Although published data suggest that damage induced by UV and 4-NQO may be repaired by different pathways, the two agents induced similar frequencies of chromatid breaks (r = 0.68; P < 0.01) in the tested cell lines. Our results also indicated that the HCR assay is not suitable to test agents that cause DNA strand breaks, such as gamma-irradiation, whereas the mutagen sensitivity assay is. Although reduced cellular DNA repair capacity correlated with increased frequency of mutagen-induced chromatid breaks in these cell lines, these two assays have different sensitivities in measuring the repair of damage induced by different carcinogens; therefore, the use of both assays is recommended for future molecular epidemiological studies of cancer susceptibility.
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PMID:DNA repair capacity correlates with mutagen sensitivity in lymphoblastoid cell lines. 883 20

The human melanoma cell lines MM96L, A2058 and HT144 were examined for sensitivity to ionizing radiation and UVB radiation. HT144 demonstrated a significant increase in sensitivity to ionizing and UVB radiation compared with the MM96L and A2058 cells. Sensitivity to both agents was associated with susceptibility to apoptosis. Using a protein truncation assay, a mutation for the gene for ataxia telangiectasia (ATM) was identified in HT144 cells. This was confirmed to be a homozygous mutation by subsequent sequencing of the abnormal region. Protein truncation assay of the other two cell lines showed no abnormality. The results suggest that somatic mutation of the A-T gene may be important in determining tumour radiosensitivity.
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PMID:Radiosensitive melanoma cell line with mutation of the gene for ataxia telangiectasia. 945 39

Genistein, a natural isoflavone found in soybeans, exerts a number of biological actions suggesting that it may have a role in cancer prevention. We have previously shown that it potently inhibits OCM-1 melanoma cell proliferation by inducing a G(2) cell cycle arrest. Here we show that genistein exerts this effect by impairing the Cdc25C-dependent Tyr-15 dephosphorylation of Cdk1, as the overexpression of this phosphatase allows the cells to escape G(2) arrest and enter an abnormal chromatin condensation stage. Caffeine totally overrides the genistein-induced G(2) arrest, whereas the block caused by etoposide is not bypassed and that caused by adriamycin is only partially abolished. We also report that genistein activates the checkpoint kinase Chk2 as efficiently as the two genotoxic agents and that caffeine may counteract the activation of Chk2 by genistein but not by etoposide. In contrast, caffeine abolishes the accumulation of p53 caused by all the compounds. Wortmannin does not suppress the Chk2 activation in any situation, suggesting that the ataxia telangiectasia-mutated kinase is not involved in this regulation. Finally, unlike etoposide and adriamycin, genistein induces only a weak response in terms of DNA damage in OCM-1 cells. Taken together, these results suggest that the G(2) checkpoints activated by genistein and the two genotoxic agents involve different pathways.
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PMID:Distinct Chk2 activation pathways are triggered by genistein and DNA-damaging agents in human melanoma cells. 1080 72

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