Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0024623 (gastric cancer)
 36,219 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Gastric cancer develops through the accumulation of multiple genetic lesions that involve oncogenes, tumor suppressor genes and DNA mismatch repair genes. Lauren's classification of gastric carcinoma does not correlate with cellular phenotypes expressed by neoplastic cells and gastric and intestinal cell differentiation markers are widely expressed in both types (intestinal and diffuse) of gastric carcinoma. In contrast, the study of the correlation between morphologic events and genetic alterations, which come about in the cancerogenetic process, seems to indicate the existence of distinct cancerogenetic pathways for the intestinal (or glandular) and diffuse type carcinoma, both originating from a HP-positive gastritis. In particular there seem to be three different profiles of cancerogenesis: 1) p53 mutations which accompany the onset of dysplasia and intestinal-type carcinoma; 2) DNA repair mechanism alterations conditioning microsatellite instability, seem mutually exclusive with regards to p53 mutations. Microsatellite instability correlates with antrally located intestinal-type carcinoma, with little metastatic tendency and a better prognosis; microsatellite instability frequently involves the TGF beta RII, IGF II R genes or the BAX proapoptotic gene, in as much as these contain microsatellite sequences; 3) alterations of E-cadherin, both with regards to mutations and abnormal expression. These lead to junctional and cell polarity loss and are primarily associated with diffuse type carcinoma, which is characterized by poorly cohesive neoplastic cells. Some tumors, initially arising as intestinal-type (glandular structure), acquire a mixed histotype during neoplastic progression, in which both the typical alterations of the intestinal cancerogenesis (p53, microsatellite instability) and those of the diffuse carcinoma (E-cadherin) coexist. The identification of a mixed histotype could have importance both in epidemiologic, pathogenetic and prognostic terms.
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PMID:Molecular mechanisms involved in the pathogenesis of gastric carcinoma: interactions between genetic alterations, cellular phenotype and cancer histotype. 1181 65

Both genetic and epigenetic alterations of tumor suppressor and tumor-related genes involved in the pathogenesis of gastric cancer are reviewed here, and molecular pathways of gastric carcinogenesis are proposed. Gastric carcinomas are believed to evolve from native gastric mucosa or intestinal metaplastic mucosa that undergoes genetic and epigenetic alterations involving either the suppressor pathway (defects in tumor suppressor genes) or mutator pathway (defects in DNA mismatch repair genes). Methylation of E-cadherin in native gastric mucosa results in undifferentiated carcinomas (suppressor pathway), while methylation of hMLHI results in differentiated foveolar-type carcinomas (mutator pathway). The majority of differentiated gastric carcinomas however, arise from intestinal metaplastic mucosa and exhibit structural alterations of tumor suppressor genes, especially p53. They appear to be related to chronic injury, perhaps due to Helicobacter pylori infection. Approximately 20% of differentiated carcinomas (ordinary-type) have evidence of mutator pathway tumorigenesis. Mutations of E-cadherin are mainly involved in the progression of differentiated carcinomas to undifferentiated tumors. The molecular pathways of gastric carcinogenesis depend on the histological background, and gastric carcinomas show distinct biological behaviors as a result of discernible cellular genetic and epigenetic alterations.
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PMID:Genetic and epigenetic alterations of tumor suppressor and tumor-related genes in gastric cancer. 1181 81

The calcium-dependent homophilic cell adhesion molecule E-cadherin typically connects epithelial cells. The extracellular portion of the mature transmembrane protein consists of five homologous domains. The four sequences linking these domains contain the structural amino acid motif DXXD that is thought to be involved in direct calcium binding. In gastric cancer patients mutations affecting this motif between the second and third domain are frequently seen. In order to determine the functional significance of similar sequence alterations with regard to their location, we analyzed single amino acid substitutions changing the DXXD motif to DXXA in each linker region according to a mutation found in gastric cancer (D370A). The cDNA sequences coding for DQND, DVLD and DVND were changed (D257A, D479A, D590A, respectively) and stably expressed in E-cadherin negative MDA-MB-435S mammary carcinoma cells. We found that the D257A and D370A mutations result in abnormal protein localization, changes in the actin cytoskeleton, markedly reduced homophilic cell adhesion, and altered cell morphology. Unexpectedly, the tumor-associated D370A mutation but not the D257A mutation induced increased cell motility. The D479A mutation only had slight functional consequences whereas cells expressing the D590A mutant did not differ from cells expressing the wild-type molecule. Although the putative calcium binding motif DXXD is located at repetitive positions in the extracellular portion of E-cadherin, our results indicate that it has different functions depending on the location. Remarkably, tumor cells select for mutations in the most critical domains resulting both in loss of function (decreased cell adhesion) and in gain of function (increased cell motility). Since multiple DXXD motifs are typically seen in other cadherins, our structure-function study is relevant for this gene family in general.
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PMID:Single amino acid substitutions in conserved extracellular domains of E-cadherin differ in their functional consequences. 1184 58

The molecular basis for most non-HNPCC familial colorectal cancer cases is unknown, but there is increasing evidence that common genetic variants may play a role. We investigated the contribution of polymorphisms in two genes implicated in the pathogenesis of colorectal cancer, cyclin D1 (CCND1) and E-cadherin (CDH1), to familial and sporadic forms of the disease. The CCND1 870A/G polymorphism is thought to affect the expression of CCND1 through mRNA splicing and has been reported to modify the penetrance of HNPCC. Inactivation of E-cadherin is common in colorectal cancer, and truncating germline mutations have been reported to confer susceptibility to colorectal as well as diffuse gastric cancer. The -160A/C CDH1 polymorphism appears to affect expression of CDH1 and may therefore also confer an increased risk. We found a significantly higher frequency of CCND1 870A allele in 206 familial cases compared to 171 controls (P=0.03). Odds ratios in heterozygotes and homozygotes were 1.7 (95% CI: 1.0-2.66) and 1.8 (95% CI: 1.0-3.3) respectively. The difference was accounted for by an over-representation of A allele in non-HNPCC familial cases (P=0.007). Over-representation of the CCND1 A allele was also seen in sporadic colorectal cancer cases compared to controls but this did not attain statistical significance (P=0.08). No significant differences between the frequency of CDH1 -160A/C genotypes in familial, sporadic colorectal cancer cases and controls were seen, although a possible association between the low expressing A allele and right-sided tumours was detected in familial cases.
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PMID:Contribution of cyclin d1 (CCND1) and E-cadherin (CDH1) polymorphisms to familial and sporadic colorectal cancer. 1189 26

Somatic mutations in the E-cadherin (CDH1) gene have frequently been reported in cases with diffuse gastric and lobular breast cancers. Recently, germline mutations have been identified in families with diffuse gastric cancers. In families with hereditary prostate cancer (HPC), a significant association of prostate cancer, gastric and/or breast cancer has been observed in epidemiological studies. The aim of this study was to investigate if germline mutations in CDH1 could explain the risk for cancer in HPC families with an excess of gastric and breast cancer. In total, 17 members from 13 HPC families and 3 members from 3 families with hereditary gastric cancer (HGC) were screened for germline CDH1 sequence alterations using PCR/Denaturing HPLC for initial screening of nucleotide variants followed by confirmatory direct sequencing analysis. The frequency of identified novel germline mutations were tested for in 136 cases with hereditary prostate cancer and 215 cases of sporadic prostate cancer with 422 age matched controls in an allelic discrimination assay. In total, 8 sequence variants were detected in 20 samples tested. In the HPC families, we found 2 missense mutations, A592T in exon 12 and a novel D777N in exon 15 and a mutation in intron 5, 687+92T>A. A previously known polymorphism in exon 13 and 3 sequence variations in introns and untranslated regions were also found, of which the significance is unknown. In HGC-023 with early onset diffuse gastric cancer a truncating mutation, R335X, was identified in exon 7. None of the missense mutations or 687+92T>A were found in the extended HPC material or in the sporadic prostate cancer cases with age-matched controls in the allelic discrimination assay. We found several germline mutations of unknown clinical significance in the CDH1 gene that probably do not explain the association of prostate, gastric and/or breast cancers in the HPC-families. Two missense mutations and a mutation in intron 5 were identified that do not influence the risk of hereditary or sporadic prostate cancer in general and are considered to be pedigree specific. In a family with hereditary gastric cancer of the diffuse type, we identified the first truncating germline mutation in a Scandinavian family.
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PMID:Germline mutations in E-cadherin do not explain association of hereditary prostate cancer, gastric cancer and breast cancer. 1194 60

Hereditary diffuse gastric cancer (HDGC) is a recently defined cancer syndrome caused by inactivating, heterozygous germline mutations in the gene for the cell-to-cell adhesion protein E-cadherin (CDH1). Here, we describe the search for CDH1 mutations in 10 newly identified gastric cancer families. Seven of 10 families met the clinical criteria for HDGC. Germline mutations were identified in four of these seven families and one family that was borderline for the clinical criteria. Of the mutations identified in the five new families, four were previously unreported and consisted of two frameshift and two donor splice site mutations. One splice site mutation occurred at the 100% conserved +1 position. The second splice site mutation occurred at the +5 position and was shown to lead to abnormal splicing. Additional CDH1 variants detected include the heterozygous -160 C-->A promoter polymorphism, which has previously been reported to be associated with decreased CDH1 transcription. We, however, found this polymorphism to be common in a control population, suggesting that a major role for this polymorphism in gastric cancer susceptibility is unlikely.
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PMID:Novel germline CDH1 mutations in hereditary diffuse gastric cancer families. 1196 84

The criteria for familial gastric cancer are as follows: 1) there should be at least 3 relatives with gastric cancer, 2) one should be a first-degree relative of the other 2, 3) at least 2 successive generations should be affected, 4) at least 1 should be diagnosed before age 50, and 5) other familial tumors should be excluded. There are two types of familial gastric cancer, diffuse type and intestinal type, of which the genetic background seems to be differ. In 1998, an autosomal dominant syndrome of diffuse gastric cancer was reported with germline mutations in the E-cadherin gene and has been identified in approximately 14 families and 50 individuals worldwide. In addition, an inherited mutation in mismatch repair (MMR) genes was found in hereditary non-polyposis colorectal cancer (HNPCC) in 1993. Since there is high frequency microsatellite instability found in familial gastric cancer patients, vigorous efforts have been made to find abnormalities in MMR genes of familial gastric cancer patients. However, to date, there has been little progress in detecting MMR gene mutations in familial gastric cancer patients. It is clinically most important to obtain a detailed family history to identify familial gastric cancer patients. At present, prophylactic total gastrectomy for familial gastric cancer is under careful consideration.
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PMID:[Diagnosis and treatment for familial gastric cancer]. 1197 35

Gastric cancer is one of the leading causes of cancer mortality in the world. Gastric adenocarcinomas account for more than 95% of gastric tumors, whereas gastrointestinal stromal tumors (GISTs) are the most common neoplasms of the rare gastric mesenchymal tumors. Although the incidence of mid-distal gastric adenocarcinomas is decreasing, the incidence of gastroesophageal junctional tumors and Barrett's adenocarcinomas is increasing for unknown reasons. The majority of gastric tumors are sporadic in nature. However, there are rare, inherited gastric cancer predisposition traits, such as germline p53 (Li-Fraumeni syndrome) as well as E-cadherin (CDH1) alterations in familial diffuse gastric cancers. Gastric cancer has been observed to be part of the spectrum of neoplasms associated with germline mismatch repair gene (MMR) alterations that give rise to the hereditary nonpolyposis colorectal cancer (HNPCC) entity. Comparative genomic hybridization analyses have identified several amplifications and losses of DNA copy numbers in gastric cancers. Loss of heterozygosity (LOH) studies have shown several chromosomal loci with significant allelic loss, thus indicating the possibility of harboring a tumor suppressor gene important in gastric tumorigenesis. Microsatellite instability (MIS) and associated alteration of the TGF-bIIR, IGFRII, BAX, E2F-4, hMSH3, and hMSH6 genes are found in a subset of gastric carcinomas. Cell adhesion molecule abnormalities such as those involving CDH1 may play an important role in diffuse-type gastric cancer development. Although, multiple somatic alterations have been described in gastric carcinomas at the molecular level, the significance of these changes in gastric tumorigenesis remains to be established in most instances. The critical molecular alterations in gastric cancers that may lead to advances in our armamentarium to combat this lethal disease remain to be fully characterized.
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PMID:Molecular biology of gastric cancer. 1197 14

BACKGROUND: Beta-catenin plays two distinct roles, in intercellular adhesion by E-cadherin, and in transcriptional activation via TCF/LEF. Theoretically, the former role is tumor-suppressive, while the latter is oncogenic. We investigated the involvement of beta-catenin in the histogenesis and clinical outcome of gastric cancers.METHODS: The expression pattern of beta-catenin was evaluated in stomach and lymph nodes from 82 patients with gastric cancer by immunohistochemistry and Western blot. Its association with E-cadherin expression and clinicopathological factors, including histological type and postoperative survival, was examined.RESULTS: Beta-catenin expression was classified into two patterns, normal (23.2%; 19 patients) and disordered (76.8%; 63 patients), the latter being subclassified as overexpressed (7.3%; 6 patients) and reduced (69.5%; 57 patients). A disordered beta-catenin expression pattern was significantly correlated with diffuse type adenocarcinoma and deep tumor infiltration ( P = 0.0154), but was not associated with lymph node metastasis ( P = 0.7877). E-cadherin was always expressed at the cell membrane, and disordered beta-catenin expression was significantly associated with reduced E-cadherin expression ( P < 0.0001). On univariate analysis, the beta-catenin pattern, as well as depth of invasion and lymph node metastasis, was associated with postoperative prognosis; however, only lymph node metastasis was an independent prognostic factor on multivariate analysis. Interestingly, different disordered patterns of beta-catenin expression, both overexpressed and reduced, were associated with E-cadherin reduction and poorer postoperative survival.CONCLUSION: Although disordered patterns of beta-catenin expression varied in gastric cancers, they were consistently associated with cancer progression.
Gastric Cancer 2000 Dec
PMID:Clinical significance of disordered beta-catenin expression pattern in human gastric cancers. 1198 36

Gastric cancer is difficult to diagnose at an early stage. Signs and symptoms of the disease often only occur when advanced or metastatic disease is present. A very small number of gastric cancers are hereditary. The mutation to the E-cadherin gene has high penetrance and confers a lifetime risk of gastric cancer of 80% for carriers. Because of the high penetrance of the mutation and the difficulty of diagnosing gastric cancer at an early stage, carriers of the mutation may be candidates for prophylactic gastrectomy. Although limited data are available about the complications and outcomes associated with prophylactic gastrectomy, nurses should be knowledgeable about prophylactic surgery for hereditary cancers and prepared to answer patients' questions about their prevention.
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PMID:Prophylactic gastrectomy for CDH1 mutation carriers. 1199 10


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