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

We review the genes and proteins related to the homologous recombinational repair (HRR) pathway that are implicated in cancer through either genetic disorders that predispose to cancer through chromosome instability or the occurrence of somatic mutations that contribute to carcinogenesis. Ataxia telangiectasia (AT), Nijmegen breakage syndrome (NBS), and an ataxia-like disorder (ATLD), are chromosome instability disorders that are defective in the ataxia telangiectasia mutated (ATM), NBS, and Mre11 genes, respectively. These genes are critical in maintaining cellular resistance to ionizing radiation (IR), which kills largely by the production of double-strand breaks (DSBs). Bloom syndrome involves a defect in the BLM helicase, which seems to play a role in restarting DNA replication forks that are blocked at lesions, thereby promoting chromosome stability. The Werner syndrome gene (WRN) helicase, another member of the RecQ family like BLM, has very recently been found to help mediate homologous recombination. Fanconi anemia (FA) is a genetically complex chromosomal instability disorder involving seven or more genes, one of which is BRCA2. FA may be at least partially caused by the aberrant production of reactive oxidative species. The breast cancer-associated BRCA1 and BRCA2 proteins are strongly implicated in HRR; BRCA2 associates with Rad51 and appears to regulate its activity. We discuss in detail the phenotypes of the various mutant cell lines and the signaling pathways mediated by the ATM kinase. ATM's phosphorylation targets can be grouped into oxidative stress-mediated transcriptional changes, cell cycle checkpoints, and recombinational repair. We present the DNA damage response pathways by using the DSB as the prototype lesion, whose incorrect repair can initiate and augment karyotypic abnormalities.
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PMID:Recombinational DNA repair and human disease. 1242 31

Germ-line mutations (present in all cells) in genes that are crucial for the cell cycle cause cancer only in specific cell lines (e.g. mismatch repair genes in the colon; BRCA1-2 in breast and ovary; other cancers in Bloom syndrome, neurofibromatosis and xeroderma pigmentosum). The mutation rate of genes other than mismatch repair or p53 is the same in colon cancer and in normal cells, indicating that a 'mutator phenotype', increasing the rate of mutations in many genes, is not an essential feature of sporadic cancers; conversely, fusion genes, TEL-AML1/AML1-ETO, typical of leukemia, are 100 times more frequent at birth than in overt leukemia in children, indicating that further selective events are needed to cause malignancy. The devastating impairment of immunity, as in AIDS patients, does not cause cancer other than Kaposi's sarcoma and non-Hodgkin's lymphoma, although immunological control is considered to be an essential mechanism in preventing the spread of cancer cells. These observations suggest that cell-specific additional events are needed to explain carcinogenesis. Carcinogenesis has been traditionally interpreted as the sequence of initiation (mutation) and promotion (clone expansion), with an interesting similarity with the neo-Darwinian theory of evolution, based on a first stage of genetic change (including recombination) and a second stage of selection. I propose that carcinogenesis consists in two general phases (not necessarily stages), i.e. genetic change followed by clone expansion (selective advantage). As in neo-Darwinian theory selection is chiefly represented by the elimination of the less fit, the selection of mutated cells would mainly consist in resistance to apoptosis or other types of 'bottlenecks' that hamper a cell's survival; an example of such a bottleneck is the autoimmunity that induces paroxysmal nocturnal hemoglobinuria in individuals with PIG-A mutations. Cancer rates show great variation in different countries around the world, a variation only marginally explained by genetic differences. More interestingly, migrants change their risk of cancer by adapting to that of the population into which they move: as these changes are not likely to be entirely due to mutagens in the environment, we have to invoke selective pressure over mutated cells to explain them. My theory is that mutated cells adapt to environmental 'niches' better than normal cells, in a 'gene-environment interaction' that involves the history of the genetic changes the cell has undergone and the kind of environment in which it happens to live.
Carcinogenesis 2003 Jan
PMID:Cancer as an evolutionary process at the cell level: an epidemiological perspective. 1253 42

BRCA1 is a tumor suppressor gene that is responsible for hereditary breast and ovarian cancer syndrome. Increased evidence suggests that BRCA1 protein is involved in mammary carcinogenesis in sporadic and hereditary forms. Recent experimental results suggest that BRCA1 plays a role in the regulation of apoptosis. In order to test whether the analysis of human tumors would provide data supporting this hypothesis in sporadic breast carcinomas, we have investigated the relationship between BRCA1 and apoptosis-related genes. Immunohistochemical analysis was performed to determine BRCA1 and the apoptosis-related proteins bcl-2, Bax and p53 in paraffin-embedded tissues of 156 sporadic invasive ductal carcinomas. BRCA1 expression was positively-correlated with Bcl-2 expression (p = 0.0008), but no relationship between BRCA1 expression and Bax or p53 expression could be established. In addition, loss of BRCA1 expression was also related to poor tumor differentiation and lymph node metastasis. Our study shows that bcl-2 might be one of the target genes involved in the oncogenesis related to BRCA1. Loss of BRCA1 may contribute to tumor development in breast carcinomas, which may be independent of the p53 tumor suppressor.
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PMID:Correlation between BRCA1 expression and apoptosis-related biological parameters in sporadic breast carcinomas. 1255 65

Although risk factors are known to include the loss of function of the susceptibility genes BRCA1/BRCA2 and lifetime exposure to oestrogen, the main causative agents in breast cancer remain unaccounted for. It has been suggested recently that underarm cosmetics might be a cause of breast cancer, because these cosmetics contain a variety of chemicals that are applied frequently to an area directly adjacent to the breast. The strongest supporting evidence comes from unexplained clinical observations showing a disproportionately high incidence of breast cancer in the upper outer quadrant of the breast, just the local area to which these cosmetics are applied. A biological basis for breast carcinogenesis could result from the ability of the various constituent chemicals to bind to DNA and to promote growth of the damaged cells. Multidisciplinary research is now needed to study the effect of long-term use of the constituent chemicals of underarm cosmetics, because if there proves to be any link between these cosmetics and breast cancer then there might be options for the prevention of breast cancer.
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PMID:Underarm cosmetics and breast cancer. 1297 67

The global changes in gene expression induced by transient increased expression of full length BRCA1 as well as the spliced variant BRCA1(S) were evaluated by cDNA expression array in a human non-tumorigenic mammary epithelial cell line, MCF10A. Over 30 genes were identified that displayed an altered expression pattern in response to the expression of BRCA1 splice variants. The expression of NFkappaB inducing kinase was markedly down-regulated in BRCA1(L) transfected cells. However, a NFkappaB-responsive promoter construct yielded increased basal activity in BRCA1(L) transfected cells, as well as following treatment with tumor necrosis factor-alpha or lymphotoxin. In addition, nuclear extracts from BRCA1(L) transfected cells displayed increased DNA binding to the kappaB consensus site. The transcriptional activity of a panel of promoter constructs was evaluated following expression of wild type or mutant BRCA1. Full length BRCA1 transactivated the estrogen receptor-alpha (ERalpha) and BCL2 promoters as well as AP-1, SRE, and CRE containing promoters. Transactivation activity of the exon 11-deleted BRCA1(S) was more limited and usually of lower magnitude. The ability of a pathogenic mutation, 5382insC, to abrogate the transcriptional transactivation by BRCA1(L) and BRCA1(S) was also investigated. Mutant BRCA1 retained wild type levels of transcriptional activity for the ERalpha promoter as well as for the NFkappaB, AP-1, and CRE-responsive promoters but had reduced or no activity with the BCL2 and SRE promoters. These results show that BRCA1 isoforms have both overlapping and distinct transcriptional transactivation activity, and that a mutant form of BRCA1 implicated in carcinogenesis is not devoid of all activity.
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PMID:BRCA1 splice variants exhibit overlapping and distinct transcriptional transactivation activities. 1268 13

The pathologic grade and clinical stage have some restrictions for the evaluation of the prognosis of prostate carcinoma. Recently, the function of genes related to apoptosis and tumor suppressor genes on the development, progression,and prognostic value of prostate carcinoma was paid close attention due to further research on the molecular pathology of prostate cancer. Overexpression of Bcl-2 was found in high malignant patients of prostate carcinoma and related to androgen refraction and resistance against anticancer agents as well. The mutation of p53 was found in prostatic intraepithelial neoplasia(PIN) and prostate cancer. p53 can be used as an independent prognostic factor for prostate cancer. The deletion of PTEN and p27 is an important negative factor of prognosis. Overexpression of p21 and p16 which are inhibition protein of cell cycle have effects on the formation and differentiation of prostate cancer. Fas/FasL system plays an important role in apoptosis of prostatic epithelial cells and takes part in the carcinogenesis of prostate. BRCA1 and p73 also have effects on the genesis and development of prostate cancer.
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PMID:[Recent advances on molecular pathology of prostate carcinoma]. 1275 24

The BRCA1 gene was identified and cloned in 1994 based its linkage to early onset breast cancer and breast-ovarian cancer syndromes in women. While inherited mutations of BRCA1 are responsible for about 40-45% of hereditary breast cancers, these mutations account for only 2-3% of all breast cancers, since the BRCA1 gene is rarely mutated in sporadic breast cancers. However, BRCA1 expression is frequently reduced or absent in sporadic cancers, suggesting a much wider role in mammary carcinogenesis. Since BRCA1 was cloned in 1994, its molecular function has been the subject of intense investigation. These studies have revealed multiple functions of the BRCA1 that may contribute to its tumor suppressor activity, including roles in: cell cycle progression, several highly specialized DNA repair processes, DNA damage-responsive cell cycle check-points, regulation of a set of specific transcriptional pathways, and apoptosis. Many of these functions are linked to protein:protein interactions involving different portions of the 1,863 amino acid (aa) BRCA1 protein. BRCA1 functions in cell cycle progression and the DNA damage response appear to be regulated by distinct and specific phosphorylation events, but the molecular pathways activated by these phosphorylations are only beginning to be unraveled. In addition, the reason that BRCA1 mutation carriers develop specific tumor types (breast and ovarian cancers in women and possibly prostate cancers in men) is not clearly understood. Elucidation of the precise molecular functions of the BRCA1 gene product will greatly enhance our understanding of the pathogenesis of hereditary as well as sporadic mammary carcinogenesis.
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PMID:BRCA1 gene in breast cancer. 1276 38

In order to clarify early molecular events involved in liver carcinogenesis, we analyzed 53 liver-cirrhosis nodules (LCNs) from five patients and 13 micro-hepatocellular carcinoma (HCC) nodules from one patient and looked for alterations of microsatellites in genomic DNA after carefully preparing the tissue samples by laser-capture microdissection (LCM). Allelotyping was done with 20 markers corresponding to anonymous microsatellites and 13 corresponding to tumor suppressor genes (TSGs) that had shown significant alterations in HCCs. We detected both loss of heterozygosity (LOH) and microsatellite shifts (MS). Overall, 24 of 53 (47%) of LCNs showed LOH with any of the informative markers used in the study, reflecting that proportion of LCNs with clonal growth. The fractional allelic loss (FAL) index, an indication of total genomic complexity, was not significantly different between LCN and micro-HCC nodules, but their profiles of alteration were different. These profiles were classified into three groups: (1) LCN profile-allelic loss at chromosomal arms 1q and 14q, TBP and BRCA1; (2) HCC profile-LOH at 4q, 6q, 7q, 17p, NF1, IGFIIr and p53 in micro-HCC nodules; these changes in early lesions were identical to those seen in mature HCCs; (3) Common profile-LOH at NF1 and 6q, including IGFIIr, common to both LCN and HCC. No LCN showed LOH at p53 and Rb, loci that are generally altered in HCCs. However, 12 intra-tumoral nodules examined had lost p53 in all informative cases, although the loss of Rb was a late event. These results suggest that early genomic profiles confined to LCNs, and additional profiles that can be observed when liver tissue undergoes malignant transformation, support a model of multi-step development of HCC.
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PMID:DNA alterations during multi-step development of human hepatocellular carcinomas revealed by laser capture microdissection. 1285 Jun 92

Since BRCA1,which is a breast cancer susceptibility gene, form heterodimers with BARD1, it is speculated that BARD1 mutations might affect the function of BRCA1, contributing to breast carcinogenesis. Thus, in the present study, we have conducted mutational analysis of BARD1 in familial breast cancer patients (n=60) who were tested negative for both BRCA1 and BRCA2 germline mutations. We have been unable to show any clearly deleterious mutations but identified four missence mutations (Ser/Cys 241, Arg/Ser 378, Asn/Ser 470, Val/Met 507), one silent mutation (His/His 506), and one frameshift (in-frame) mutation (1139del21bp). Of these six mutations, one (Asn/Ser 470) was considered as a putative germline mutation since such a mutation was not observed in any of the healthy controls (n=152) but the other five mutations were considered as common genetic polymorphisms since they were frequently observed in the healthy controls. These genetic polymorphisms were further analyzed in their association with breast cancer risk by a case-control study using the population-based breast cancers (n=143) and healthy controls (n=155), which showed that carriers of the variant allele Met at codon 507 are significantly associated with the increased risk of breast cancer (adjusted odds ratio=2.05, 95% confidential interval=1.01-4.16) in postmenopausal women and that the other genetic polymorphisms are not associated with breast cancer risk. These results suggest that BARD1 mutations are responsible for, if any, a very small number of familial breast cancers. Genetic polymorphism of BARD1 (Val/Met 507) could be useful in the selection of postmenopausal women at a high risk for developing breast cancer.
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PMID:Mutational analysis of BARD1 in familial breast cancer patients in Japan. 1455 Sep 46

To define the relative frequencies of genetic instability in stromal and epithelial compartments during ulcerative colitis (UC)-associated tumorigenesis, samples from laser-captured microdissection were assessed for microsatellite instability and loss of heterozygosity in regenerative tissue, dysplasia, and carcinomas in long-standing UC cases. Five National Cancer Institute-recommended standard markers and four markers located close to p53 and BRCA1 genes in chromosome 17 were tested, and p53 gene sequencing was also carried out. Although chromosome 17-MSI and -loss of heterozygosity in epithelium correlated with histological progression, in stroma they showed a consistently high frequency throughout the different stages, indicating a distinct carcinogenesis pathway of UC. The rates for standard markers were lower in both epithelium and stroma.
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PMID:High epithelial and stromal genetic instability of chromosome 17 in ulcerative colitis-associated carcinogenesis. 1455 96


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