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)

Tumor suppressor genes are negative regulators of cell growth. When their normal function is compromised, absence of their inhibitory effects can lead to unrestrained cell cycling and growth. Strong evidence now confirms that loss of proper function of these genes is a common occurrence leading to cancer. Their failure can be caused by alterations in the gene DNA or malfunction of their protein products. The recent extraordinary accumulation of knowledge about these genes reveals that normal carcinogenesis represents breakdown of normal regulatory processes.
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PMID:Tumor suppressor genes. 139 77

Recent fundamental research has disclosed the presence of multiple genetic alterations including activation of oncogenes and inactivation of tumor suppressor genes in various human cancers. These multiple genetic alterations are thought to be correlated with multiple stages of carcinogenesis and further progression. Hepatocellular carcinoma (HCC) is a typical example. The majority of HCCs are associated with infection by hepatitis virus B or C. In the damaged liver, small nodular lesions develop due to clonal expansion of hepatocytes. Some of these nodules are diagnosed as early HCC of the well differentiated type and correspond to in situ or microinvasive carcinoma. Within these nodules, moderately or poorly differentiated HCCs often emerge as nodule-in-nodule lesions when the diameter of the nodules exceeds 1.5 cm. Ordinary HCCs formed by progression show highly increased cell proliferation, neovascularization, production of high-molecular-mass forms of basic fibroblast growth factor and aneuploidy in some tumors. Corresponding to this stage of malignant progression, HCCs show loss of heterozygosity for multiple chromosomes including chromosomes 4, 16q and 17p. Tumor suppressor gene p53, located on 17p, is frequently mutated in high-grade, but not in early, HCCs. Thus, it is strongly suggested that inactivation of multiple tumor suppressor genes plays an important role in progression, and probably directly or indirectly causes chromosome instability, enhanced cell proliferation and neovascularization.
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PMID:Pathology and molecular mechanisms of multistage human hepatocarcinogenesis. 172 34

There are many productive directions for future research in cancer ecogenetics. Genetic variation in susceptibility to chemicals and other carcinogenic agents has been neglected in most epidemiologic and rodent investigations of cancer etiology. Genetic variation is important to characterization of risks for population subgroups. Genetic investigations also may enhance inquiries into the underlying mechanisms of carcinogenesis and of cancer prevention. Polymorphisms of cytochrome P450 mono-oxygenases, epoxide hydrolase, glutathione-S-transferases, and N-acetyltransferase offer important windows on biotransformation of pro-carcinogens. Assays in peripheral blood cells need to be related closely to variation in activity in target organs. Tumor suppressor genes, signal transduction pathways, and cell surface receptors are additional sites where genetic variation would be highly important to cancer risks.
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PMID:Future research directions in cancer ecogenetics. 201 Nov 45

The observation that genes contributing to the process of malignant transformation are altered forms of genes normally present in eukaryotic cells initiated many of the advances that have increased our understanding of lung carcinogenesis at the molecular level. The gene families implicated in carcinogenesis include dominant oncogenes and tumor suppressor genes. Proto-oncogenes (normal homologue of the oncogene) participate in critical cell functions, including signal transduction and transcription. Only a single mutant allele is required for malignant transformation. Primary modifications in the dominant oncogenes that confer gain of transforming function include point mutations, amplification, translocations, and rearrangements. A second recently described gene family is the tumor suppressor genes. Tumor suppressor genes appear to require homozygous loss of function either by mutation, deletion, or a combination of these. Some tumor suppressor genes appear to play a role in the governance of proliferation by regulation of transcription. The identification of specific genes that contribute to the development of the cancer cell presents an opportunity to use these genes and their products as prevention and treatment targets.
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PMID:Molecular events in lung cancer. 755 47

Tumor suppressor genes have been found to have loss of function in a number of malignancies. This loss of function is believed to contribute to malignant transformation or metastatic spread. In the present study, expression of the retinoblastoma (RB) tumor suppressor gene was examined in cell lines and tumor tissue obtained from primary renal and metastatic sites in patients with metastatic renal cell carcinoma. Three of fifteen (20%) of informative renal carcinoma cell lines had loss of heterozygosity (LOH) in the RB gene (intron 20) detected by polymerase chain reaction analysis. Using restriction fragment length polymorphism (RFLP) analysis, 7 of 22 (32%) informative cell lines had LOH centromeric to the RB gene at the D13S1 locus. No LOH (0 of 7) was seen telomeric to the RB gene at the D13S2 locus. None of the 28 cell lines examined had decreased RB mRNA expression compared with short-term cultures of proximal renal tubular cells. Western blotting demonstrated phosphorylated and unphosphorylated forms of RB protein of expected molecular weight in all 41 cell lines (33 primary and 8 metastatic) examined. Twenty-nine primary cell lines and 6 metastatic cell lines all demonstrated normal immunohistochemical staining. Loss of RB immunohistochemical staining in paraffin-embedded tissue was detected in none of the primary tumors (0 of 30) or metastatic tumors (0 of 12). The absence of abnormalities of RB expression detected in these renal cell carcinomas suggests that abnormalities of the RB gene are not central to malignant transformation or progression in this tumor type; however, another tumor suppressor gene centromeric to the RB locus may be important in renal cell carcinogenesis.
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PMID:Loss of heterozygosity occurs centromeric to RB without associated abnormalities in the retinoblastoma gene in tumors from patients with metastatic renal cell carcinoma. 775 92

Apoptosis is a kind of programmed cell death, that is, intrinsically programmed "cell suicide process". Mammalian thymic lymphocytes, thymocytes, show a typical apoptosis immediately after a low dose irradiation. Apoptosis appears also during radiotherapy of tumor, especially of thymoma. Tumor suppressor gene such as p53 and oncogene such as bcl-2 are found to be closely related to apoptotic processes in a cell. Possible mechanisms underlying interrelationship between expression of these genes, apoptosis and carcinogenesis were discussed.
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PMID:[Radiation and apoptosis]. 815 85

A class of genes, the so-called tumor suppressor genes or anti-oncogenes, was originally identified as being responsible for germ-line transmission of cancer susceptibility in humans. Tumor suppressor genes are recessive at the cellular level with respect to oncogenesis but often manifest as dominantly inherited familial cancer syndromes. This type of cancer syndrome arises in the Eker rat due to a genetic defect in the tuberous sclerosis 2 (Tsc2) gene. The Eker rat familial cancer syndrome serves as a unique animal model in which to study the molecular pathways of renal tubular epithelial carcinogenesis as well as a valuable tool for studies that examine how chemical carcinogens interact with cancer susceptibility genes.
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PMID:Hereditary renal cell carcinoma in the Eker rat: a unique animal model for the study of cancer susceptibility. 859 18

Chronic administration of estrogen to male Syrian hamsters for 7.0 to 9.0 months induces a high frequency of estrogen-dependent renal cancers. We have proposed a sequential multistage scheme involving tubular cell damage, regenerative cell proliferation, aneuploidy, chromosomal imbalance, genetic instability, gene alteration, and amplification as essential steps for estrogen carcinogenesis in this model. A systematic study was undertaken to assess the expression of nuclear proto-oncogenes, c-myc, c-fos, and c-jun, and suppressor genes, p53 and WT-1, by Northern blot analysis to further support this scheme. Hamster kidney RNA, taken at monthly intervals (1.0 to 6.0 months) from diethylstilbestrol (DES)-treated castrated male hamsters and corresponding age-matched untreated controls was used in these studies, as well as primary estrogen-induced renal tumor RNA, for reference. Although no significant changes in the expression of these proto-oncogenes were detected in the first 4 months of estrogen treatment relative to age-matched controls, 2.1-kb c-myc expression was elevated 2.8- and 4.1-fold at 5.0 and 6.0 months, respectively. Moreover, the expression of 2.2-kb c-fos transcript rose 4.6- and 4.8-fold; and 3.2- and 2.7-kb c-jun expression increased 2.8- and 5.1-fold at these same respective estrogen treatment time intervals. Tumor suppressor gene expression, p53 and WT-1, was also evaluated in similar estrogen-exposed hamsters. Although no significant changes were found in hamster kidney p53 expression in the first 5.0 months of DES treatment, it rose 1.8-fold at 6.0 months of estrogen treatment and more than 2.0-fold in the primary renal tumor. In contrast, no detectable changes in WT-1 expression were found during the first 6.0 months of DES treatment. However, a dramatic 7.0-fold increase in WT-1 expression was observed in the primary renal tumor. It is evident that two WT-1 transcripts reside in the hamster kidney; a lower molecular weight transcript was found in the normal adult kidney, and a higher molecular weight 3.2-kb transcript was observed in the renal tumor, similar to that seen in the newborn mouse kidney. In summary, the estrogen-induced inappropriate gene expression, including p53, reported herein, is consistent with the view that the elevations seen in gene expression contribute to proliferative advantages of certain proximal tubular interstitial cells necessary for estrogen-driven tumor formation in the hamster.
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PMID:Estrogen-induced proto-oncogene and suppressor gene expression in the hamster kidney: significance for estrogen carcinogenesis. 865 6

Hepatitis B virus (HBV) is a co-factor in some hepatocellular carcinomas (HCC). Chronic infection with HBV is a risk factor for tumor development, suggesting the accumulation of cellular genetic changes. HBV DNA is frequently found integrated at random sites in HCC, with chromosomal deletions and rearrangements being common at the sites of viral integration. Tumor suppressor gene p53 is frequently altered in HCC. Environmental carcinogens are factors in HCC development in certain geographic locations. HBV encodes a protein (X) known to transactivate viral and cellular genes; the X gene is often retained in HCC. To learn more about X gene function. We employed the yeast two-hybrid genetic system to seek X-interactive proteins. A cellular protein, designated XAP-1, was recovered that interacts specifically with the X protein. XAP-1 is the human homologue of the monkey UV-damaged DNA-binding protein (UV-DDB); the UV-DDB protein functions in DNA repair and is defective in some xeroderma pigmentosum group E patients. The interaction between XAP-1 and HBV X protein was confirmed by several independent methods. This suggests that cellular DNA repair processes may be affected by HBV and that the resulting genetic instability may contribute to hepatocellular carcinogenesis. A unifying model of the molecular basis of HBV involvement in HCC development is presented. Fundamental components of the model are chronic infection by HBV and viral effects on cellular DNA repair. This model has implications for the possible role of HCV infection in the induction of HCV-associated HCC.
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PMID:Viral co-factors in liver cancer: lessons from hepatitis B virus. 887 24

Cells normally have five options. These include renewal or proliferation, terminal differentiation, quiescence, senescence, and apoptosis. Many factors interact with cell cycle regulators to direct the cells toward these different options. Tumor suppressor genes play a pivotal role in this process. Alterations in these genes may limit the options that cells have and thus play a significant role in the multistep process of carcinogenesis. We will focus on tumor suppressor genes and especially tumor suppressor genes that interact directly with the cell cycle proteins.
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PMID:A review of tumor suppressor genes in cutaneous neoplasms with emphasis on cell cycle regulators. 965 Jul 7

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