UMLS:C0596263 - FACTA Search

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Query: UMLS:C0596263 (carcinogenesis)
64,820 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The generation of an efficient immune response depends on highly refined mechanisms of antibody diversification. Two of these mechanisms, somatic hypermutation (SHM) and class switch recombination (CSR), are initiated by activation-induced cytidine deaminase (AID) upon antigen stimulation of mature B cells. AID deaminates cytosines on the DNA of Ig genes thereby generating a lesion that can be processed into a mutation (SHM) or a DNA double-strand break followed by a recombination reaction (CSR). A number of mechanisms are probably responsible for regulating AID function, such as transcriptional regulation, subcellular localization, post-transcriptional modifications and target specificity, but the issue remains of how unwanted DNA damage is fully prevented. Most lymphocyte neoplasias are originated from mature B cells and harbour hallmark chromosome translocations of lymphomagenic potential, such as the c-myc/IgH translocations found in Burkitt lymphomas. It has been recently shown that such translocations are initiated by AID and that ataxia-telangiectasia mutated, p53 and ARF provide surveillance mechanisms to prevent these aberrations. In addition, evidence is accumulating that AID expression can be induced in B cells independently of the germinal centre environment, such as in response to some viral infections, and occasionally in non-B cells, at least in certain inflammation-associated neoplasic situations. The most recent findings on AID expression and function and their relevance to the generation of oncogenic lesions will be discussed.
Carcinogenesis 2007 Dec
PMID:Oncogenic events triggered by AID, the adverse effect of antibody diversification. 1780 22

Colorectal cancer (CRC) is a complex and heterogeneous disease in which genomic instability and DNA promoter methylation play important roles. The aim of this study was to investigate the relationship between chromosomal instability (CIN), microsatellite instability (MSI) and promoter methylation of CRC-associated genes. Therefore, 71 CRCs were analysed for CIN and MSI by comparative genomic hybridization and the mononucleotide marker BAT-26, respectively. Promoter methylation of the tumour suppressor and DNA repair genes hMLH1, O(6)-MGMT, APC, p14(ARF), p16(INK4A), RASSF1A, GATA-4, GATA-5 and CHFR was analysed using methylation-specific polymerase chain reaction. These integrative analyses showed that in CIN+ CRCs, promoter methylation of GATA-4 and p16(INK4A) was inversely related to chromosomal loss at 15q11-q21 and gain at 20q13, respectively (P values: 3.8 x 10(-2) and 4.5 x 10(-2), respectively). Interestingly, promoter methylation of RASSF1A, GATA-4, GATA-5 and CHFR, as well as a high methylation index (MI), was positively related to chromosomal gain at 8q23-qter (P values: 1.5 x 10(-2), 3.8 x 10(-2), 3.9 x 10(-2), 4.9 x 10(-2) and 8.2 x 10(-3), respectively). MSI was associated with BRAF mutation, promoter methylation of hMLH1, APC and p16(INK4A) and a high MI (total number of methylated genes) (P values: 2.4 x 10(-2), 2.5 x 10(-3), 1.8 x 10(-2), 4.6 x 10(-2) and 1.0 x 10(-2), respectively). Therefore, we conclude that promoter methylation of pivotal tumour suppressor and DNA repair genes is associated with specific patterns of chromosomal changes in CRC, which are different from methylation patterns in MSI tumours.
Carcinogenesis 2008 Feb
PMID:Integrated analysis of chromosomal, microsatellite and epigenetic instability in colorectal cancer identifies specific associations between promoter methylation of pivotal tumour suppressor and DNA repair genes and specific chromosomal alterations. 1804 85

Cell division cycle 6 (CDC6) is an essential regulator of DNA replication in eukaryotic cells. Its best-characterized function is the assembly of prereplicative complexes at origins of replication during the G(1) phase of the cell division cycle. However, CDC6 also plays important roles in the activation and maintenance of the checkpoint mechanisms that coordinate S phase and mitosis, and recent studies have unveiled its proto-oncogenic activity. CDC6 overexpression interferes with the expression of INK4/ARF tumor suppressor genes through a mechanism involving the epigenetic modification of chromatin at the INK4/ARF locus. In addition, CDC6 overexpression in primary cells may promote DNA hyperreplication and induce a senescence response similar to that caused by oncogene activation. These findings indicate that deregulation of CDC6 expression in human cells poses a serious risk of carcinogenesis.
Carcinogenesis 2008 Feb
PMID:CDC6: from DNA replication to cell cycle checkpoints and oncogenesis. 1804 87

Human papillomaviruses (HPVs) cause cervical cancer and are associated with the development of non-melanoma skin cancer. A suitable animal model for papillomavirus-associated skin carcinogenesis is the infection of domestic rabbits with the cottontail rabbit papillomavirus (CRPV). As the immortalizing activity of CRPV genes in the natural target cells remains unknown, we investigated the properties of CRPV E6 and E7 in rabbit keratinocytes (RK) and their influence on the cell cycle. Interestingly, CRPV E7 immortalized RK after a cellular crisis but showed no such activity in human keratinocytes. Co-expressed CRPV E6 prevented cellular crisis. The HPV16 or CRPV E7 protein reduced rabbit pRb levels thereby causing rabbit p19(ARF) induction and accumulation of p53 without affecting cellular proliferation. Both CRPV E6 proteins failed to degrade rabbit p53 in vitro or to bind E6AP; however, p53 was still inducible by mitomycin C. In summary, CRPV E7 immortalizes rabbit keratinocytes in a species-specific manner and E6 contributes to immortalization without directly affecting p53.
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PMID:The E7 protein of the cottontail rabbit papillomavirus immortalizes normal rabbit keratinocytes and reduces pRb levels, while E6 cooperates in immortalization but neither degrades p53 nor binds E6AP. 1806 42

ARLTS1 (ADP-ribosylation factor-like tumor suppressor gene 1) is a member of the ARF family of the Ras superfamily of small GTPases that are known to be involved in multiple regulatory pathways altered in human carcinogenesis. Here, we review recent work that has provided insights into the role of this small gene as an emerging player in both familial and sporadic cancers of several histotypes. ARLTS1 is a low penetrance gene that is primarily dysregulated in sporadic lung cancer by promoter hypermethylation. Two ARLTS1 polymorphisms are also associated with familial cancer risk. Down-regulation of ARLTS1 is seen in all lung cancer cell lines studied and in a significant proportion (37%) of primary lung tumors. Restoration of ARLTS1 expression in ARLTS1-deficient lung cancer cell lines by either demethylation or adenoviral transduction leads to apoptosis via caspase-dependent mechanisms. Furthermore, ARLTS1 re-expression induces an in vivo decreased tumor growth in preclinical models of lung cancer. Microarray analysis of gene expression patterns in cells transduced with ARLTS1 demonstrates that various pathways involved in cell survival, proliferation and development mediate its pro-apoptotic effects.
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PMID:ARLTS1 - a novel tumor suppressor gene. 1837 53

Replicative senescence, a major outcome of normal cells with finite lifespan, is a widely accepted in vitro model for ageing studies. Limited repair and defense mechanisms of normal cells, in addition to DNA alterations and oncogene inductions under stress, are believed to result in senescence as a protective mechanism to prevent undesirable proliferation of cells. The ARF/p53/p21(cip1/waf1) tumor suppression pathway acts as a molecular sensor and regulator of cellular stress, senescence, and immortalization. Understanding the molecular regulation of this pathway by intrinsic and extrinsic signals is extremely important to address unsolved questions in senescence and cancer. CARF was first discovered as a binding partner of ARF and has since been shown to have both ARF-dependent and -independent functions that converge to regulate p53 pathway. CARF directly binds to p53 and HDM2, and functions in a negative feedback pathway. Whereas CARF transcriptionally represses HDM2 to increase p53 activity, HDM2 in return degrades CARF. Thus, CARF may act as a novel key regulator of the p53 pathway at multiple checkpoints. The aim of this article is to discuss the current knowledge about functions of CARF and its impact on p53 pathway in regulation of senescence and carcinogenesis.
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PMID:CARF: an emerging regulator of p53 tumor suppressor and senescence pathway. 1855 16

Lung cancer is the most lethal carcinoma worldwide. Mutations of p53, inactivation of p16(INK4a), and overexpression of cyclins E, A and B are independently associated with poor prognoses of patients, while the prognostic value of cyclin D1 or RB expression is inconclusive. Cyclin D binding myb-like protein 1 (Dmp1) encodes a DNA binding protein that receives signals from oncogenic Ras and functions as a tumor suppressor by activating the Arf-p53 [corrected] pathway. Dmp1 has been shown to be haplo-insufficient for tumor suppression in mouse models including K-ras-mediated lung carcinogenesis. The human DMP1 gene is located on chromosome 7q21, and our recent results revealed that the hDMP1 gene is deleted, but not mutated or silenced, in approximately 40 % of human non-small-cell lung carcinomas. These cases typically retained wild-type ARF and p53 and expressed very low levels of the hDMP1 protein. Thus, hDMP1 loss could be a novel diagnostic marker for non-small-cell lung carcinomas.
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PMID:Role of DMP1 and its future in lung cancer diagnostics. 1859 25

Despite considerable progress, PDA carries a dismal prognosis. Recent advances in clinical and basic science have revealed new insights into pancreatic carcinogenesis. Compelling histopathological and molecular evidence support the evolution of PDA through a series of noninvasive duct lesions named PanINs. Progression of PanIN lesions is associated with genetic and biochemical aberrations correlating with advancing cellular atypia from early stages to invasive cancer. Several studies with pancreatic resection specimens revealed a sequence of genetic changes including activating K-ras mutations, overexpression of the growth factor receptor HER-2/neu, and the inactivation of the tumor suppressor genes INK4A/ARF, TP53, Smad4/DPC4, and BRCA2. The availability of mouse models mimicking human pancreatic cancer allows functional studies which will evaluate relevance for the human disease. Moreover, the precise knowledge of critical events in pancreatic carcinogenesis opens new horizons in designing new diagnostic and therapeutic strategies against this fatal disease.
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PMID:Pancreatic cancer: a plea for good and comprehensive morphological studies. 1861 77

Understanding the pathways that control epithelial carcinogenesis is vital to the development of effective treatments. The Polycomb group family member Bmi1 is overexpressed in numerous epithelial tumors, but its role in their development has not been established. We now show a key role for Bmi1 in lung adenocarcinoma. Whereas lung development occurs normally in Bmi1-deficient mice, loss of Bmi1 decreases the number and progression of lung tumors at a very early point in an oncogenic K-ras-initiated mouse model of lung cancer. This correlates with a defect in the ability of Bmi1-deficient putative bronchiolalveolar stem cells (BASCs) to proliferate in response to the oncogenic stimulus. Notably, in the absence of oncogenic K-ras, Bmi1-deficient BASCs show impaired proliferation and self-renewal capacity in culture and after lung injury in vivo. Abrogated lung cancer development and BASC self-renewal occur partially in a p19(ARF)-dependent manner. Our data suggest that Bmi1 deficiency suppresses tumor development by limiting the expansion potential of BASCs, the apparent lung cancer cells of origin. Because Bmi1 is elevated in additional tumor types, this suggests that Bmi1 plays a key role in regulating proliferation of both stem cells and tumor cells in diverse adult epithelial tissues.
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PMID:Bmi1 is critical for lung tumorigenesis and bronchioalveolar stem cell expansion. 1869 30

Gene inactivation by promoter hypermethylation has been demonstrated in the colonic mucosa of colorectal cancer (CRC) patients. However, current data do not prove direct involvement of this epigenetic modification in the early stages of CRC. Promoter methylation profiles of E-cadherin, hMLH1, MGMT, p16(INK4a), p15(INK4b) and p14(ARF); mutations of K-ras, B-raf and TP53 and microsatellite instability (MSI) were examined in normal and cancerous colonic mucosal tissue in 82 CRC patients using methylation-specific PCR assays. Methylation of hMLH1 and MGMT in normal mucosa correlated significantly with MSI and K-ras activation in neighbouring cancerous mucosal tissues. Similarly, poorly differentiated tumours were associated with methylated p16(INK4a) and E-cadherin in neighbouring normal colonic tissues (NCTs). Our results indicate that epigenetic changes in mucosa surrounding colorectal neoplastic lesions may describe a 'field cancerisation' phenomenon that may occur previous to genetic alterations in early stages of carcinogenesis.
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PMID:Epigenetic events in normal colonic mucosa surrounding colorectal cancer lesions. 1893 72

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