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 ATM (ataxia telangiectasia mutated) kinase plays an essential role in maintaining genome integrity by coordinating cell cycle arrest, apoptosis, and DNA damage repair. Phosphorylation of ATM at serine 1981 (ATMpSer1981) by DNA damage activates ATM, which subsequently phosphorylates H2AX Ser139 (gammaH2AX), Chk2 Thr68 (Chk2pThr68), and p53 Ser15 (p53pSer15). To determine the role of the ATM pathway in prostate cancer tumorigenesis, we have analyzed 35 primary prostate cancer specimens for ATMpSer1981 (ATM activation), Chk2pThr68, gammaH2AX, and p53pSer15 by immunohistochemistry (IHC) in normal glands, prostatic intraepithelial neoplasias (PINs), and carcinomas. Increases in the intensities of ATMpSer1981, Chk2pThr68, and gammaH2AX and in the percentage of cells that are positive for ATMpSer1981, Chk2pThr68, or gammaH2AX were observed in PINs (p<0.001) compared to normal prostatic glands and carcinoma. However, this pattern of immunostaining was not seen for p53pSer15. Thus, ATM and Chk2 are specifically activated in PINs. As PINs are generally regarded as precursors of prostatic carcinoma, our results suggest that ATM and Chk2 activation at earlier stages of prostate tumorigenesis suppresses tumor progression, with attenuation of ATM activation leading to cancer progression.
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PMID:ATM activation is accompanied with earlier stages of prostate tumorigenesis. 1699 95

We investigated mRNA expression of the genes involved in the apoptotic mechanism in oral squamous cell carcinoma (OSCC) by cDNA microarray. The aim of this study was to identify genes mainly involved in tumorigenesis, comparing the difference of gene expression in neoplastic and non-neoplastic tissues. Eight frozen samples of OSCC and the corresponding normal oral mucosa were treated to obtain mRNA. The mRNA extracted from these specimens was converted into cDNA and analyzed with SuperArray GEArray Q Series Human Apoptosis Gene Array kit. Our results showed that in OSCC there is a different expression of CRADD, FADD, ATM and APAF-1 genes compared to normal mucosa. Real-Time PCR, and Western blot analysis were performed on a separate cohort of patients in order to confirm the results obtained by DNA microarray. Our analysis of apoptotic process through microarray technology confirmed that different molecules could be responsible or favour the imbalance of apoptosis in cancer tissues. Microarray technology has made it possible to analyze the expression of multiple genes in a single experiment. However, most commercial array kits, designed to include as many genes as possible, produce a vast amount of data that often is difficult to interpret. In addition, the cost of equipment is often prohibitive. In contrast, the focused kit used was a complete, affordable and effective method to improve knowledge of molecular specific pathways.
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PMID:Genetic analysis of oral squamous cell carcinoma by cDNA microarrays focused apoptotic pathway. 1702 52

Polycomb group (PcG) proteins are chromatin modifiers that are necessary for the maintenance and renewal of embryonic and adult stem cells. However, overexpression of the PcG protein, Bmi-1, causes lymphoma in transgenic mice. We show that Bmi-1 is up-regulated in Hodgkin lymphoma (HL) cells by the Epstein-Barr virus (EBV) oncogene latent membrane protein-1 (LMP1) and that this up-regulation is mediated by NF-kappaB signaling. We also show that Bmi-1 is up-regulated by NF-kappaB in EBV-negative HL cells. Down-regulation of LMP1 and Bmi-1 decreased the survival of HL cells, suggesting that Bmi-1 may mediate the prosurvival effects of LMP1-induced NF-kappaB signaling in HL cells. Transcriptional targets of Bmi-1 were identified after its knockdown in an HL cell line. We show here that Bmi-1 and LMP1 down-regulate the ataxia telangiectasia-mutated (ATM) tumor suppressor and conclude that Bmi-1 contributes to LMP1-induced oncogenesis in HL.
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PMID:Bmi-1 is induced by the Epstein-Barr virus oncogene LMP1 and regulates the expression of viral target genes in Hodgkin lymphoma cells. 1714 91

Tp53 is the most commonly mutated tumour-suppressor gene in human cancers. In addition to the loss of tumour-suppression function, some missense mutants gain novel oncogenic activities. To elucidate the nature of the gain of function, we introduced the most common p53 cancer mutations (R248W and R273H) independently into the humanized p53 knock-in (HUPKI) allele in mice. Tumour-suppressor functions of p53 are abolished in p53-mutant mice. Several lines of evidence further indicate gain-of-function of p53 mutants in promoting tumorigenesis. p53(R248W) mice rapidly succumb to certain types of cancers not commonly observed in p53(-/-) mice. Interchromosomal translocations, a type of genetic instability rarely observed in p53(-/-) cells, are readily detectable in p53-mutant pre-tumor thymocytes. Although normal in p53(-/-) mouse cells, the G(2)-M checkpoint is impaired in p53-mutant cells after DNA damage. These acquired oncogenic properties of mutant p53 could be explained by the findings that these p53 mutants interact with the nuclease Mre11 and suppress the binding of the Mre11-Rad50-NBS1 (MRN) complex to DNA double-stranded breaks (DSBs), leading to impaired Ataxia-telangiectasia mutated (ATM) activation. Therefore, p53 gain-of-function mutants promote tumorigenesis by a novel mechanism involving active disruption of critical DNA damage-response pathways.
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PMID:p53 gain-of-function cancer mutants induce genetic instability by inactivating ATM. 1747 58

Defective DNA damage responses in the nervous system can result in neurodegeneration or tumorigenesis. Despite the importance of DNA damage signalling, the neural function of many critical DNA repair factors is unclear. BRCA2 is necessary for homologous recombination repair of DNA and the prevention of diseases including Fanconi Anemia and cancer. We determined the role of BRCA2 during brain development by inactivating murine Brca2 throughout neural tissues. In striking contrast to early embryonic lethality after germ-line inactivation, Brca2(LoxP/LoxP);Nestin-cre mice were viable. However, Brca2 loss profoundly affected neurogenesis, particularly during embryonic and postnatal neural development. These neurological defects arose from DNA damage as Brca2(LoxP/LoxP);Nestin-cre mice showed extensive gammaH2AX in neural tissue and p53 deficiency restored brain histology but lead to rapid formation of medulloblastoma brain tumors. In contrast, loss of the Atm kinase did not markedly attenuate apoptosis after Brca2 loss, but did partially restore cerebellar morphology, supporting a genomic surveillance function for ATM during neurogenesis. These data illustrate the importance of Brca2 during nervous system development and underscore the tissue-specific requirements for DNA repair factors.
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PMID:BRCA2 is required for neurogenesis and suppression of medulloblastoma. 1747 7

Tumor initiation and progression provide a multitude of occasions for the generation of DNA damage and the consequent activation of the DNA damage response (DDR) pathway. DDR signaling involves the engagement of key factors such as ATM, CHK2, 53BP1 and the phosphorylation of histone H2AX (gamma-H2AX). The systematic study of DDR in human tumors and normal tissues by high-throughput tissue microarrays revealed that ATM and gamma-H2AX were engaged in cancer but the extent of their activation was strongly affected by the organ and cell type involved, whereas 53BP1 loss was the most consistent feature among the tumor studied. Unexpectedly, we also observed activated DDR markers in morphologically normal tissues, also in association with inflammation. Analysis of the dynamic engagement of DDR along the different stages of lung tumorigenesis showed that 53BP1 loss occurs early at the transition from normal to dysplastic change whereas the activated forms of ATM and CHK2, but not gamma-H2AX, initially accumulate in pre-invasive lesions and are then lost during tumor progression. In individual lung tumors, the activation of ATM, CHK2 and the presence of 53BP1 were consistently correlated, whereas gamma-H2AX did not correlate with activated ATM. Finally, the study of associations between critical clinicopathological parameters and activated DDR factors highlighted a statistically meaningful correlation between reduced local tumor extension and the phosphorylation of ATM, CHK2 and the presence of 53BP1, whereas no significant correlations with parameters such as survival or relapse of early-stage lung carcinomas were found.
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PMID:Complex engagement of DNA damage response pathways in human cancer and in lung tumor progression. 1752 62

The members of the SR family of splicing regulators were initially characterized for their critical roles in constitutive and regulated splicing. They are implicated in different aspects of gene expression processes, including transcription, RNA stability, mRNA transport, and translational control. While knockout studies have demonstrated their essential functions during animal development, the pathway(s) leading to a specific cellular phenotype remains poorly understood. We report here that the SR protein SC35 controls cell proliferation during pituitary gland development but is completely dispensable in terminal differentiated mature cardiomyocytes in mice. We show that loss of SC35 in mouse embryonic fibroblasts induces G2/M cell cycle arrest and genomic instability, resulting at least in part from p53 hyperphosphorylation and hyperacetylation. While p53 hyperphosphorylation appears related to ATM activation, its hyperacetylation has been attributed to the increased expression of the acetyltransferase gene p300 and the aberrant splicing of the deacetylase gene SirT1. These findings reveal the involvement of SC35 in specific pathways in regulating cell proliferation and genomic stability during mammalian organogenesis and suggest its potential function in tumorigenesis.
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PMID:Splicing regulator SC35 is essential for genomic stability and cell proliferation during mammalian organogenesis. 1752 36

Loss of the tumor suppression activity of p53 is required for the progression of most human cancers. In this context, p53 gene is somatically mutated in about half of all human cancers; in the rest human cancers, p53 is mostly inactivated due to the disruption of pathways important for its activation. Most p53 cancer mutations are missense mutations within the core domain, leading to the expression of full-length mutant p53 protein. The expression of p53 mutants is usually correlated with the poor prognosis of the cancer patients. Accumulating evidence has indicated that p53 cancer mutants not only lose the tumor suppression activity of WT p53, but also gain novel oncogenic activities to promote tumorigenesis and drug resistance. Therefore, to improve current cancer therapy, it is critical to elucidate the gain-of-functions of p53 cancer mutants. By analyzing the humanized p53 mutant knock-in mouse models, we have identified a new gain of function of the common p53 cancer mutants in inducing genetic instability by disrupting ATM-mediated cellular responses to DNA double-stranded break (DSB) damage. Considering that some current cancer therapies such as radiotherapy kills the cancer cells by inducing DSBs in their genome DNA, our findings will have important implications on the treatment of human cancers that express common p53 mutants.
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PMID:Gain of function of p53 cancer mutants in disrupting critical DNA damage response pathways. 1759 83

DNA damage response (DDR) emerges as a biological tumorigenesis barrier in early stages of cancer development, and a selective pressure that favors outgrowth of malignant clones with defects in the genome maintenance machinery, such as mutations of p53 and other DDR components. Recent studies indicate that the DDR barrier is not alarmed universally among early noninvasive lesions, but rather responds to high-risk tumorigenic threats that occur in high-grade, pre-malignant lesions that are generally more likely to develop into bona fide malignancies. In addition, while the DDR barrier appears to operate in major types of cancer, such as carcinomas of the lung, breast and colon, DDR activation is rare at any stage of progression among testicular germ-cell tumors. Together with observations that several, but not all oncogenic insults are capable of activating the DDR machinery, these new results point to existence of a critical threshold of such oncogene-induced DNA damage. It seems that only cells and lesions that experience DNA replication stress and DNA damage above such threshold activate the cellular senescence or cell death pathways within the DDR machinery. The higher load of DNA damage may also contribute to cancer predisposition in families with inherited heterozygous defects in the DDR barrier, such as in ATM, BRCA1, BRCA2, p53 and other genes. We propose that carriers of such DDR defects may be more prone to malignancy due to 'conditional haploinsufficiency': such partial defects may be asymptomatic in normal tissues, yet they may become manifest under conditions of supra-threshold endogenous DNA damage in oncogene-driven pre-malignant lesions.
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PMID:DNA damage response as an anti-cancer barrier: damage threshold and the concept of 'conditional haploinsufficiency'. 1770 66

Cancer is a disease of aging. The accumulation of mutations in individual cells over a lifetime is thought to be the reason. In this work, we explored an additional hypothesis: could p53 function decline with age, which would contribute to an enhanced mutation frequency and tumorigenesis in the aging process? The efficiency of the p53 response to gamma-irradiation was found to decline significantly in various tissues of aging mice from several inbred strains, including lower p53 transcriptional activity and p53-dependent apoptosis. This decline resulted from a decreased stabilization of the p53 protein after stress. The function of the Ataxia-telangiectasia mutated (ATM) kinase declined significantly with age, which may then be responsible for the decline of the p53 response to radiation. Declining p53 responses to other stresses were also observed in the cultured splenocytes from aging mice. Interestingly, the time of onset of this decreased p53 response correlated with the life span of mice; mice that live longer delay their onset of decreased p53 activity with time. These results suggest an enhanced fixation of mutations in older individuals because of the declining fidelity of p53-mediated apoptosis or senescence in response to stress, and they suggest a plausible explanation for the correlation between tumorigenesis and the aging process.
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PMID:Declining p53 function in the aging process: a possible mechanism for the increased tumor incidence in older populations. 1799 42

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