Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0009402 (colorectal cancer)
53,228 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Adenomatous polyps are an intermediate in the pathway to colon carcinoma. An inherited disorder, familial adenomatous polyposis coli (APC), is characterized by hundreds to thousands of adenomatous polyps. A previously reported family had colon cancer associated with a low average but highly heterogenous number of colonic polyps, this phenotype mapped to the APC locus on 5q. Four new families have been ascertained in which the phenotypic pattern was different from classical polyposis but similar to that of the "prototype" kindred reported earlier. By multilocus linkage analysis, the gene responsible for the disease phenotype was mapped, with a high level of confidence, to the APC locus in two of the four families with the attenuated or variant form of polyposis (AAPC); the results for the two remaining kindreds were inconclusive. A combined maximum LOD score of approximately 7.6 at a recombination fraction of 0 was obtained when the results were summed over the four pedigrees with markers closest to the APC locus. The establishment of genetic linkage in such families may point to the APC locus as having a more significant role in inherited predispositions to colorectal cancer than was previously thought.
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PMID:Linkage of a variant or attenuated form of adenomatous polyposis coli to the adenomatous polyposis coli (APC) locus. 131 15

Familial adenomatous polyposis (FAP) is a dominantly inherited condition predisposing to colorectal cancer. The recent isolation of the responsible gene (adenomatous polyposis coli or APC) has facilitated the search for germ line mutations in affected individuals. Previous authors have used the RNase protection assay and the single-strand conformation polymorphisms procedure to screen for mutations. In this study we used denaturing gradient gel electrophoresis (DGGE). DGGE analysis of 10 APC exons (4, 5, 7, 8, 9, 10, 12, 13, 14, and part of 15) in 33 unrelated Dutch FAP patients has led to the identification of eight novel germ line mutations resulting in stop codons or frameshifts. The results reported here indicate that (1) familial adenomatous polyposis is caused by an extremely heterogeneous spectrum of point mutations; (2) all the mutations found in this study are chain terminating; and (3) DGGE represents a rapid and sensitive technique for the detection of mutations in the unusually large APC gene. An extension of the DGGE analysis to the entire coding region in a sufficient number of clinically well-characterized, unrelated patients will facilitate the establishment of genotype-phenotype correlations. On the other hand, the occurrence of an extremely heterogeneous spectrum of mutations spread throughout the entire length of the large APC gene among the FAP patients indicates that this approach may not be useful as a rapid presymptomatic diagnostic procedure in a routine laboratory. Nevertheless, the above DGGE approach has incidentally led to the identification of a common polymorphism in exon 13. Such intragenic polymorphisms offer a practical approach to a more rapid procedure for presymptomatic diagnosis of FAP by linkage analysis in informative families.
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PMID:Eight novel inactivating germ line mutations at the APC gene identified by denaturing gradient gel electrophoresis. 132 23

The gene for familial adenomatous polyposis coli (APC or FAP), which has previously been linked to chromosome 5q21 has been identified. The APC gene has been found to be altered by point mutations in the germ line of both adenomatous polyposis coli and Gardner's syndrome patients and somatically in tumors from sporadic colorectal cancer patients. During the hunt for the APC gene, the closely linked MCC (mutated in colorectal cancer) gene was identified and found to be altered somatically in tumors from sporadic cancer patients. These data suggest that more than one gene on chromosome 5q21 may contribute to colorectal carcinogenesis and that mutations at the APC gene can cause both adenomatous polyposis coli and Gardner's syndrome. The identification of these genes should aid in the counseling of patients with genetic predispositions to colorectal cancer. Progress has also been made in identifying specific genetic changes that occur in other gastrointestinal cancers. A mutational "hotspot" in the p53 gene in human hepatocellular carcinomas has been identified that could reflect exposure to a specific carcinogen, one candidate being aflatoxin B1.
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PMID:Cell and molecular biology of gastrointestinal tract cancer. 132 39

Most adenocarcinomas of the colorectum arise in a visible benign precursor lesion, the adenoma, which is a monoclonal proliferation of dysplastic nonmalignant epithelial cells. The resultant adenoma-adenocarcinoma sequence represents the predominant pathogenetic pathway, in contrast to de novo carcinoma. Therefore, the adenoma is a tempting endpoint for chemoprevention trials. The adenoma-adenocarcinoma sequence occurs in diverse clinical settings. In familial adenomatous polyposis (FAP) syndrome, autosomal dominant inheritance of the mutated APC (adenomatous polyposis coli) gene on chromosome 5q21 typically results in thousands of adenomas in the colorectum and in lesser numbers in the proximal small bowel. Adenocarcinoma usually develops in only a few of these adenomas, typically in the left colon and duodenum. In hereditary nonpolyposis colorectal cancer (HNPCC) syndrome, autosomal dominant inheritance of an unidentified gene appears to result in small numbers of adenomas which progress frequently to adenocarcinoma, predominantly in the right or transverse colon. In familial aggregation of colorectal cancer without a recognizable syndrome, cancer and/or adenomas occur in pedigree members. In "sporadic" cancers and adenomas, family history is absent and the tumors are mainly in the left colon. Colorectal adenomas have variable characteristics including size, shape (polypoid vs. flat), villous architecture, and dysplasia. A variety of oncogenes and tumor suppressor genes are altered during progression. Epigenetic factors are important as evidenced by the disappearance of adenomas in FAP patients after ileorectal anastomosis or treatment with the nonsteroidal antiinflammatory drug sulindac. Several variations on the theme of the adenoma-carcinoma sequence are evident. Identification of the inherited and acquired genetic alterations as well as the interacting environmental factors will provide a rational basis for chemoprevention.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The adenoma-adenocarcinoma sequence in the large bowel: variations on a theme. 133 99

Several rodent studies based on molecular biology have suggested that accumulation of genetic alterations in cancer-associated genes is required to convert a normal cell into a malignant cell. Activation of oncogenes and inactivation of tumor suppressor genes appear to be involved in carcinogenesis. In renal cell carcinomas, we have recently implied that the presence of tumor suppressor genes at chromosome 3p13-14.3 and 21.3, the regions where are also commonly deleted in adenocarcinoma of the lung; at chromosome 5q21, the region where the MCC (mutated in colorectal cancer) gene and APC (adenomatous polyposis coli) gene are located; at chromosome 6q27; and at 10q 21-23. We have also indicated that genes on 3p is probably important for development of RCCs and genes on 5q, 6q, and 10q may be associated with progression of RCCs.
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PMID:[Tumor suppressor genes associated with development of human renal cell carcinoma]. 149 60

Colorectal tumours have proven to be an excellent system in which to identify and study the genetic alterations involved in the development of a common human neoplasm. A prevalent view is that colorectal tumours appear to arise as the result of multiple genetic alterations in the alleles of both oncogenes and tumour suppressor genes. The accumulation of genetic alterations appears to accompany the clinical and biological progression of the tumours and may determine the phenotype of the tumour cells. In addition to the many somatic alterations identified at various stages of colorectal tumour development, recent studies have led to the identification of the adenomatous polyposis coli (APC) gene, which, when mutated in the germline, predisposes to the development of colorectal tumours. On the basis of studies of inherited and somatic mutations in colorectal tumours, a genetic model for colorectal cancer development has been proposed. Although the model is undoubtedly incomplete, it nevertheless provides a useful framework for further studies of the multiple events that underlie human tumour initiation and progression. Numerous questions remain to be answered, including identification of the normal function of the genes implicated in tumorigenesis, how mutations in these genes arise and are selected for and what the relative contribution of the altered genes is to various stages of the neoplastic process. Nevertheless, an optimistic outlook is that fundamental insights into the pathogenesis of human cancer are within our reach.
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PMID:Genetic alterations underlying colorectal tumorigenesis. 163 44

We examined tissue extracted from 19 gastric, 7 pancreatic, and 23 colorectal carcinoma specimens to determine the comparative incidence of allele loss on chromosomes 5, 17, and 18 and that of KRAS2 point mutations. Chromosome 5 allele loss occurred at the same frequency in all three gastrointestinal tumors (approximately 30%), whereas chromosome 17 and 18 allele losses were seen at a significantly lower frequency in gastric (20%) and pancreatic (0%) malignancies than in colorectal cancer (57%). Point mutations in KRAS2 were seen in 83% of pancreatic and 52% of colon cancers, but not in gastric cancer specimens. In pancreatic tumors, these mutations were always found in the second nucleotide of codon 12. In colorectal cancer, the distribution was more variable, involving the second nucleotide of codon 13 and both the first and second nucleotides of codon 12. These results suggest that inactivation of the adenomatous polyposis coli gene on chromosome 5 may be an initiating step for carcinomas of the stomach and pancreas as well as of the colon, but that the genes involved in tumor progression events may be tissue- or tumor-specific.
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PMID:Evidence for a common molecular pathogenesis in colorectal, gastric, and pancreatic cancer. 166 81

We have isolated several genes in the chromosome 5q21 region tightly linked to hereditary familial polyposis coli (FAP) and Gardner's syndrome (GS). Two of these genes (MCC and APC) were found to be somatically altered by point mutation, deletion or insertion in tumors of sporadic colorectal cancer patients. One of them (adenomatous polyposis coli; APC) was also found to mutate in the germ-line of both APC and GS patients. The identification of these genes has significant implications for understanding the pathogenesis of colorectal neoplasia and for the diagnosis and counseling of individuals with inherited predispositions to colorectal cancer. Furthermore, in one colon carcinoma, we identified an interesting mechanism causing dysfunction of the APC gene. This gene was disrupted by a somatic insertion of a long interspersed repetitive element (LINE-1 sequence: L1) into the last exon. As an insertional sequence contains a 3' portion of the L1 consensus sequence including the poly(A) tract and an 8 bp target-site duplication was observed, this insertion is suspected to be caused by a retrotranscriptional insertion of one of the L1 sequences. This is the first case of the disruption of a tumor suppressor gene by the insertion of a movable genetic element.
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PMID:Mutations of the adenomatous polyposis coli gene in familial polyposis coli patients and sporadic colorectal tumors. 166 88

This report reviewed recent remarkable progresses on the cytomolecular mechanisms in colorectal carcinogenesis. Colorectal carcinoma is a good model for the study of multi-step progression, because we can obtain adenomatous polyps which are considered as a precancerous form. Furthermore, a familial syndrome, which is characterized by numerous adenomas of the colon, is available for linkage analysis. Recently, the p53 and DCC genes have been identified as candidate tumor suppressor genes on chromosome 17p and 18q respectively. In this paper, we present the multiple genetic alterations in colorectal carcinoma, including activation of K-ras gene and inactivation of tumor suppressor gene such as p53 and DCC genes as well as loss of heterozygosity and approach to the gene responsible for adenomatous polyposis coli by reverse genetics.
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PMID:[Cytomolecular aspects of colorectal carcinoma]. 184 88

In a search for hypersensitivity to chromosome breaking agents, lymphocytes and fibroblasts from patients with the precancerous condition adenomatous polyposis coli (APC) were treated with N-methyl-N1-nitro-N-nitrosoguanidine (MNNG) and bleomycin. The APC cells showed a significantly increased level of chromatid-type damage following MNNG treatment (5 micrograms/ml for lymphocytes, 1 or 2 micrograms/ml for fibroblasts). No such differential effect was noted for bleomycin, but a threefold increase in "pulverized" cells was seen in APC lymphocyte cultures treated in G0, that is before cells have entered the cell cycle. Increased spontaneous and induced chromosome instability appears to be an important effect of the APC mutant gene as molecular evidence suggests that chromosomal mechanisms are likely to play a major role in tumorigenesis both in this condition and in sporadic colorectal cancer.
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PMID:Increased chromosome breakage by N-methyl-N1-nitro-N-nitrosoguanidine in patients with adenomatous polyposis coli. 247 41


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