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)

Two distinct gene classes have been implicated in colorectal carcinogenesis. Tumour promoter genes (oncogenes, dominant oncogenes) produce an excessive positive stimulus to cell proliferation. The ras family of oncogenes are an example. Acquired mutations of the c-k-ras gene are commonly found in colonic adenomas and carcinomas. Tumour suppressor genes (anti-oncogenes, recessive oncogenes) normally constrain or regulate cell proliferation. Loss of this function through gene deletion or mutation is oncogenic. Inherited tumour suppressor gene mutations have now been identified in several of the familial cancer syndromes. Acquired tumour suppressor gene mutations are found in both sporadic and hereditary cancers. Together with the tumour promoter genes they provide the genetic basis for the cellular changes occurring during carcinogenesis. The retinoblastoma gene was the first human tumour suppressor gene to be characterized and exemplifies the class. More recently, linkage studies in the hereditary cancer syndromes and the detection of specific deletions in sporadic tumours have helped to identify several new tumour suppressor genes. At least four of these (MCC, APC, p53 and DCC) apparently contribute to sporadic colorectal carcinogenesis. Germ line APC mutations produce the inherited colorectal cancer syndrome familial adenomatous polyposis (FAP). Detection of these mutations using linked markers has already found clinical application in the screening of families with this disease. In the future, genetic diagnosis of hereditary non-polyposis colorectal cancer (HNPCC) and the recognition of those genetically susceptible to sporadic colorectal cancer may become possible. At the same time, as our understanding of the genes involved improves, new avenues for treatment and prevention of colorectal cancer may emerge.
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PMID:Tumour suppressor genes and colorectal neoplasia. 847 56

An immunohistochemical method using Pab1801, a monoclonal antibody specific to the human p53 protein, was applied to detect p53 expression in colorectal cancer and dysplasia complicating ulcerative colitis. Of 20 tissue samples with dysplasia, six showed positive immunoreactivity. Archival paraffin-embedded tissue blocks from 21 colitic cancers were analysed; 11 showed positive immunoreactivity, compared with ten of 21 samples from matched sporadic colorectal cancers (P not significant). Previous data suggesting that colorectal carcinoma complicating ulcerative colitis has a reduced frequency of c-Ki-ras mutation compared with sporadic cancer have led to the hypothesis that different genetic lesions underlie colitic and sporadic colorectal carcinoma. The present results suggest that this is not the case with regard to p53 gene alterations.
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PMID:Expression of p53 in colorectal cancer and dysplasia complicating ulcerative colitis. 849 5

The biology of colorectal cancer is discussed in terms of multistage carcinogenesis. Colorectal cancer evolves through the stepwise acquisition of mutations at certain critical genetic loci, many of which have been identified recently. The earliest step in the neoplastic pathway is a shift of proliferation from the normally restricted zone at the base of the colonic crypt and the retention of cells capable of proliferation at the top of the colonic crypt. This appears to be mediated by a mutation in the APC gene. The adenoma, a collection of benign neoplastic cells, is the first pathologically recognizable neoplastic lesion. Adenomas may grow or involute. Additional genetic lesions, such as a mutation in the Ki-ras gene, contribute to the growth and progressive dysplasia of the adenoma. Critical lesions in the p53 gene appear to be responsible for malignant transformation and the appearance of genetic instability of the neoplastic cell, which greatly increases the likelihood that additional genetic events will occur that contribute to a progressively more aggressive neoplastic phenotype. Genetic and phenotypic diversity develop within the primary malignant tumor, and metastasis occurs as a consequence of a complex series of events. Opportunities for detection and therapeutic intervention in colorectal neoplasia are discussed in this framework.
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PMID:The biology of colorectal cancer. Implications for pretreatment and follow-up management. 850 77

Genetic alterations in a tubular adenoma with severe dysplasia arising in a Brooke ileostomy of a familial adenomatous polyposis patient were analyzed. Clinical and morphological characteristics suggest that ileal mucosa progressed to colonic metaplasia and then to dysplastic adenoma. Such changes at ileostomy sites are rare, and little is known about the associated genetic alterations. To determine whether metaplastic epithelium progression to adenoma in the ileum is subject to the same mutations identified in colon carcinogenesis, we evaluated somatic genetic alterations associated with sporadic colorectal cancer development. Sequences examined included mutation cluster regions of the p53 tumor suppressor gene and the k-ras oncogene. Using polymerase chain reaction and DNA sequencing, we identified a point mutation at codon 12 of the K-ras oncogene. To our knowledge, this is the first report of a ras mutation occurring in a tumor originating from ileal mucosa.
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PMID:K-ras mutation in a tubular adenoma originating at an ileostomy in a familial adenomatous polyposis patient. 863 16

Epidermal growth factor receptors (EGFR) and ras mutations are known to play a significant role in controlling cell growth and tumor promotion. Both of them transmit mitogenic signals to the nucleus by activation of Raf-1 kinase. In this study, the expression of EGFR and mutant Ras proteins, and, for the first time, the expression, phosphorylation and kinase activity of Raf-1 kinase have been determined in paired samples of colorectal cancer and mucosa. The tumor and mucosa samples did not differ significantly with regard to Raf-1 kinase content and activity. A major difference between tumors and mucosa was found, however, in the phosphorylation of Raf-1. Most of the mucosa samples (13/20), but only 1/20 of the cancer samples, contained hyperphosphorylated Raf-1. EGFR were significantly (p = 0.0025) decreased in the tumors. The decreased phosphorylation of Raf-1 in colonic carcinomas could be the result of activation of Raf-1 phosphatases or inactivation of kinases phosphorylating Raf-1. New forms of treatment based on EGFR overexpression do not seem to be suitable for the majority of colonic cancers.
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PMID:Raf-1 kinase, epidermal growth factor receptors, and mutant Ras proteins in colonic carcinomas. 865 36

The products of ras and src proto-oncogenes are frequently activated in a constitutive state in human colorectal cancer. In this study we attempted to establish whether the tumorigenic progression induced by oncogenic activation of p21ras and pp60c-src in human colonic Caco-2 cells is associated with specific alterations of syndecan-1, a membrane-anchored proteoglycan playing a role in cell-matrix interaction and neoplastic growth control. To this end, we used Caco-2 cells made highly tumorigenic by transfection with an activated (Val 12) human Ha-ras gene or with the polyoma middle T (Py-MT) oncogene, a constitutive activator of pp60c-src tyrosine kinase activity. Compared with control vector-transfected Caco-2 cells, both oncogene-transfected cell lines (1) contained smaller amounts of membrane-anchored PGs; (2) exhibited decreased syndecan-1 expression at the protein but not the mRNA level; (3) synthesized 35S-labelled syndecan-1 with decreased specific activity; (4) produced a syndecan-1 ectodomain with a lower molecular mass and reduced GAG chain size and sulphation; and (5) expressed heparanase degradative activity. These results show that the dramatic activation of the tumorigenic potential induced by oncogenic p21ras or Py-MT/pp60c-src in Caco-2 cells is associated with marked alterations of syndecan-1 expression at the translational and post-translational levels.
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PMID:Syndecan-1 alterations during the tumorigenic progression of human colonic Caco-2 cells induced by human Ha-ras or polyoma middle T oncogenes. 869 59

To further investigate whether multiple genetic changes are involved in the development of colorectal cancer, we performed an immunohistochemical analysis of p53 and ras p21 protein expression in 139 specimens of colorectal adenoma with varying degrees of dysplasia, 57 specimens of early cancer with an adenomatous component, and 12 specimens of superficial early cancer without any adenomatous component. Positive p53 staining was found in 15% of the adenomas with moderate dysplasia and in 42% of the adenomas with severe dysplasia or intramucosal carcinoma (IMCA). Positive immunostaining of p53 was observed to be significantly correlated with the degree of dysplasia and the depth of invasion, as was the expression of ras p21. However, a closer correlation was observed with the increasing size of the adenomas. Furthermore, p53 staining was positive in 42% of the 12 superficial early cancer specimens, while ras staining was positive in only 1 specimen (8%). These results indicate that p53 gene overexpression may play some biological role in both the adenoma-to-carcinoma sequence and in de novo cancer development, whereas ras p21 expression may not be as involved in de novo cancer development as in the malignant conversion of colorectal adenomas.
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PMID:Immunohistochemical analysis of p53 and ras p21 expression in colorectal adenomas and early carcinomas. 872 42

Improved success in the management of colorectal cancer requires a better understanding of its development and biological behaviour. The key for this is molecular genetics. Gene changes parallel the multi-step changes in the adenoma-carcinoma sequence. Cancer results from a variable combination of defects in oncogenes, tumour suppressor, mutator and apoptotic genes. These changes are similar whether they occur in inherited disorders like adenomatous polyposis coli (APC) and hereditary non-polyposis colorectal cancer (HNPCC) or acquired cancer in the elderly. In Singapore, the c-myc and c-Ki-ras proto-oncogenes are found to be activated in 70% and 29% of tumours respectively. Allelic loss of chromosome 5q and 17p occurs in 25% and 70% of tumours respectively, while point mutation of the p53 tumour suppressor gene occurs in 50% of colorectal cancers. Both the frequency and the nature of the lesion occurring are compatible to the changes detected in Caucasian patients, suggesting common aetiological factors. The biological behaviour of colorectal adenocarcinomas is determined by the nature of defects or mutations in key genes such as the p53 tumour suppressor gene. Lymphatic spread is associated with the presence of point mutations and haematogenous spread is associated with loss of heterozygosity of p53. Survival is worse when conserved regions of the gene are mutated compared with those outside, and worst when codon 175 is mutated. Sensitivity to radiotherapy and chemotherapy is also determined by p53 mutation which controls apoptosis. Prognosis could now be individualised and with the prospect of gene therapy, molecular genetics will have a major impact on the management of colorectal cancer.
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PMID:Molecular changes of colorectal cancer in Singapore. 877 42

It is currently accepted that colorectal tumorigenesis results from accumulation of multiple mutations in certain genes. This concept prompted us to search for possible mutations in the APC, k-ras, and p53 genes in an advanced cancer coexisting with a large villous adenoma of the rectum in a 54-year-old patient with no family history of colorectal cancer. Genomic DNA extracted from multiple subregions of the tumor and surrounding normal mucosa was studied by polymerase chain reaction (PCR) followed by single-strand conformation polymorphism (SSCP) analysis and direct sequencing. Both the adenoma and carcinoma had abnormal PCR-SSCP for APC (exon 11) and k-ras, irrespective of the location within the tumors. However, p53 abnormality (exon 7) was detected only in samples taken from the carcinoma. Subsequent sequencing revealed a TTG to TAG mutation at codon 479 of APC, a GGT to GAT mutation at codon 12 of k-ras in both the adenoma and carcinoma, and a CGG to TGG mutation at codon 248 of p53 (exon 7) in the carcinoma. These findings were in accord with the current concept of colorectal tumor progression whereby genetic alteration of APC and k-ras occurs relatively early while that of p53 is rather late and is possibly a decisive event in relation to malignancy.
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PMID:A very large villous adenoma with an adjacent cancer of the rectum: an informative case for testing the proposed molecular basis of colorectal tumorigenesis. 889 82

A characteristic feature of colorectal cancer genesis is its stepwise progression, which offers unique possibilities for studying its development. There are two principal kinds of mutation leading to uncontrolled cell proliferation and cancer. The first renders a stimulatory gene hyperactive--generation of an oncogene--and the second is the inactivation of a tumour suppressor gene. Current knowledge suggest that the change from normal mucosa to a small adenoma may be mediated by mutations of the APC gene and MCC gene on chromosome 5, by chromosome 5 deletion, by c-myc activation, and by DNA hypomethylation. The development to a large adenoma may be caused by Ki-ras mutation and further change to a dysplastic adenoma by deletion of the DCC gene on chromosome 18. The ability to become an invasive carcinoma may then be mediated by p53 mutations and deletion of chromosome 17p. Identification of genetic markers for metastatic disease is under progress.
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PMID:Genetic aspects of colorectal cancer: the surgeon's view. 889 51


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