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: UNIPROT:P04637 (p53)
77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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

The molecular genetic alterations in colorectal carcinoma are among the best understood of any common human cancer. Identified abnormalities include both dominant-acting oncogenes (ras, myc, src) and suppressor genes which undergo inactivation or deletion (deleted in colorectal carcinoma gene [DCC], p53, adenomatous polyposis coli gene [APC], and probably loci on chromosomes 1p and 22q). Accumulation of multiple abnormalities is evident in the adenoma-carcinoma sequence with a preferential order, and alteration of DNA methylation is an especially early event. Identification of molecular genetic markers useful for classification and staging of colorectal carcinoma is in its infancy. Deletion of the p53 gene on chromosome 17p, deletion of the DCC gene on 18q, and high fractional allelic loss (fraction of evaluable nonacrocentric autosomal arms with deletion) have been associated with distant metastases and with poorer prognosis in patients without initial evidence of disseminated disease. Additional studies are needed to determine the possible role of these alterations in clinical management.
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PMID:Molecular genetic alterations as potential prognostic indicators in colorectal carcinoma. 154 Sep

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

Cancers in which mutations have been identified in putative tumor suppressor genes, such as the TP53 gene, the retinoblastoma (RBI) gene, the adenomatous polyposis coli (APC) gene, and the Wilms tumor (WTI) gene, frequently show loss of the corresponding allele on the homologous chromosome. To identify locations of tumor suppressor genes involved in uterine cancer, we examined loss of heterozygosity (LOH) by using genomic probes detecting RFLPs in 35 uterine cancers at 29 loci throughout the genome, and with highly informative microsatellite markers in 21 uterine cancers at nine putative or known tumor suppressor gene loci. High frequencies of allelic loss found at loci on 3p (71%), 9q (38%), 10q (35%), and 17p (35%) suggest that tumor suppressor genes involved in uterine carcinogenesis exist in these regions. There were no significant differences in frequencies of LOH between cancers of the uterine cervix and cancers of the uterine endometrium at any of the loci tested.
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PMID:Allelotype of uterine cancer by analysis of RFLP and microsatellite polymorphisms: frequent loss of heterozygosity on chromosome arms 3p, 9q, 10q, and 17p. 751 41

Almost 20% of colon cancers are characterized by genomic instability at simple repeated sequences. This instability is the result of a deficient DNA mismatch repair system. Sporadic, as well as hereditary carcinomas of the proximal colon display this effect. In this study, we examined colorectal adenocarcinoma cell lines, with or without wild-type adenomatous polyposis coli (APC) protein, for the presence of microsatellite instability. The three cell lines that maintained full-length APC protein also displayed the highest level of instability, suggesting a negative correlation between APC mutations and microsatellite instability. This data, in addition to other studies that show a negative correlation between microsatellite instability and mutations in p53 and K-ras, support the idea of a second pathway for colorectal cancer development.
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PMID:Microsatellite instability in colorectal adenocarcinoma cell lines that have full-length adenomatous polyposis coli protein. 758 8

We analyzed somatic mutations of the adenomatous polyposis coli (APC), p53, and K-ras genes in gastroduodenal polyps and normal gastroduodenal mucosa from 21 familial adenomatous polyposis patients, using PCR-single-strand conformation polymorphism and direct sequencing methods. Seventy-five polyps were obtained from these patients endoscopically or surgically, and they were histopathologically diagnosed as mild adenoma, moderate adenoma, severe adenoma, adenocarcinoma, and fundic gland polyp. Examining the APC-coding region where somatic mutations in colorectal tumors are known to be clustered, we detected 47 somatic mutations. The frequency of mutation detected was 6 of 9 (67%) in ampullary adenomas, 1 of 2 (50%) in ampullary adenocarcinoma, 11 of 24 (46%) in non-ampullary adenomas, 26 of 29 (90%) in gastric adenomas, and 3 of 11 (27%) in gastric fundic gland polyps. These mutations frequently occurred at codons 1450, 1462-1465, and 1554-1556, the third being a newly found hot spot. All mutations formed stop codons that resulted in truncated APC proteins. K-ras mutation was detected only in an ampullary adenocarcinoma, and p53 mutation was not detected in any of the tumors analyzed. There was no somatic mutation detected in samples of flat mucosa that were diagnosed as normal mucosa both endoscopically and histopathologically. Frequent APC mutations in mild and small adenomas, similar to the findings in severe and large adenomas, suggested that the genetic change in the APC gene occurs in an early stage of forming gastroduodenal adenomas. Moreover, the presence of somatic APC mutations in fundic gland polyps suggests that inactivation of the APC gene plays a role not only in forming adenomas but also in forming hyperplastic polyps in fundic gland mucosa, and there may be some additional steps to the adenoma-carcinoma sequence.
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PMID:Somatic mutations of the adenomatous polyposis coli gene in gastroduodenal tumors from patients with familial adenomatous polyposis. 760 37

Ras oncogene and p53 gene mutations are frequently observed in colorectal cancers. The role of co-operation between these two genes in the tumorigenesis of colorectal cancer was evaluated. Point mutations in K-ras oncogene and hotspot codons of p53 gene of colorectal cancers were evaluated by naturally created or amplified created restriction site method. Nine of 42 cases (21.4%) of colorectal cancer showed K-ras oncogene mutations. Six of 42 cases (14.3%) of colorectal cancer showed p53 gene hotspot point mutations. The low frequency of p53 gene mutation in this series may be due to racial difference or different hotspot codons. When six cases with mutated p53 gene were examined, only one (16.7%) showed concurrent K-ras oncogene codon 12 and p53 gene codon 248 mutations. We concluded that the co-operation between ras oncogene and p53 gene hotspot point mutations in the tumorigenesis of colorectal cancer in Chinese was not common. Other factors such as adenomatous polyposis coli gene mutations, oncogene activation or tumour suppression gene inactivation may be involved.
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PMID:Ras oncogene and p53 gene hotspot mutations in colorectal cancers. 778 54

Human colon cancer development is associated with the accumulation of mutations and deletions in the suppressor genes DCC, APC and p53 and mutations in the dominant oncogene K-ras, with loss of wild type alleles. In earlier studies we had observed that about half of the resected human colon cancers placed into primary culture were growth stimulated by TGF beta 1. This group included the more advanced cancers which were either poorly differentiated primary-site cancers or metastases. In contract, the more differentiated colon cancers were inhibited or unaffected by TGF beta 1, indicating that a switch in response to TGF beta 1 occurs during colon cancer progression. Different sublines of the HT29 colon carcinoma cell line model the resected cancers, responding to TGF beta 1 by proliferation, inhibition or no growth modulation. The current study shows that while the poorly differentiated, TGF beta 1-stimulated sublines are most tumorigenic, all the sublines have the same spectrum of mutations: truncating mutations in both APC (adenomatous polyposis coli) alleles, no activated ras genes, mutated and thus overexpressed p53, and very low expression of DCC compared to normal colon cells. Genes other than the four already implicated in colon carcinoma evolution are responsible for the mitogenic response to TGF beta 1 found in the more advanced cancers.
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PMID:The capacity for growth stimulation by TGF beta 1 seen only in advanced colon cancers cannot be ascribed to mutations in APC, DCC, p53 or ras. 797 Jul 29

Many of the genetic alterations related to carcinogenesis and progression such as gene amplification, deletion, mutation and overexpression can be analyzed on paraffin-embedded clinical materials. Genetic abnormalities of tumor suppressor gene such as p53 and APC (adenomatous polyposis coli) are good markers for differential diagnosis of gastrointestinal cancers. Gene amplification and overexpression of oncogenes and growth factors/receptors such as c-met, K-sam, c-erbB2, EGF and EGF receptor are biological marker of biological malignancy. Molecular diagnosis has been done in Hiroshima Medical Association Laboratory to make an objective diagnosis for border line lesions and to obtain information on the biological behavior of gastrointestinal cancers based on genetic alterations. Molecular analysis is a powerful tool to complement histological diagnosis of gastrointestinal lesions.
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PMID:[Molecular diagnosis on gastrointestinal cancers]. 817 44

Desmoid tumors, which are locally invasive with recurrence but without metastasis, are frequently observed in patients with familial adenomatous polyposis after abdominal surgery or during pregnancy. This study analyzed mutation of the adenomatous polyposis coli gene in 8 desmoid tumors from 7 familial adenomatous polyposis patients using polymerase chain reaction-single-strand conformation polymorphism and the direct sequencing method. Seven somatic mutations, 1 somatic allele loss, and 6 germ-line mutations were detected. The majority of adenomatous polyposis coli gene mutations were deletions of 1 to 19 base pairs in exon 15, and all mutations led to the formation of stop codons. A somatic mutation with repetition of 82 base pairs from codon 1399 to 1426 was also observed in a desmoid, which was most likely caused by an error during replication or repair replication. No mutation was detected in exons 1 to 2 of H-ras, K-ras, and N-ras genes and in exons 5 to 8 of p53 gene, in these tumors. The simultaneous existence of somatic and germ-line alterations of adenomatous polyposis coli gene observed in all 8 tumors strongly suggests that inactivation of both alleles of adenomatous polyposis coli gene is involved in the development of desmoid tumors.
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PMID:Coexistence of somatic and germ-line mutations of APC gene in desmoid tumors from patients with familial adenomatous polyposis. 822 38


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