Tumour-associated E-cadherin mutations alter cellular morphology, decrease cellular adhesion and increase cellular motility

Handschuh, Gabriele; Candidus, Sonja; Luber, Birgit; Reich, Ulrike; Schott, Christina; Oswald, Sandra; Becke, H.; Hutzler, Peter; Birchmeier, Walter; Höfler, Heinz; Becker, Karl‐Friedrich

doi:10.1038/sj.onc.1202790

Cited by 188 publications

(147 citation statements)

References 75 publications

(59 reference statements)

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“…When E-cadherin cDNA with in-frame deletions of exons 8 or 9, or a point mutation in exon 9, were introduced into breast cancer cell lines, the cells adopted a more malignant, invasive and aggressive behaviour relative to those cells that were transfected with wild-type cDNA. 37 Such results suggest that our findings might indicate an association between the presence of E-cadherin mutations and the invasive behaviour of the studied tumours. However, we were unable to find any association between the presence of these mutations and altered prognosis (data not shown), which was not unexpected given the relatively small numbers of tumour samples involved.…”

Section: Mechanisms Of Loss Of Protein Expressionsupporting

confidence: 52%

Multiple ways of silencing E-cadherin gene expression in lobular carcinoma of the breast

et al. 2001

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The cell-cell adhesion receptor gene E-cadherin (CDH1) is expressed by epithelial cells, in which it mediates adhesion and morphogenesis. Invasive lobular carcinoma (ILC) characteristically infiltrates diffusely as single cells; by immunohistochemistry, many of these tumours lack E-cadherin expression. In the present study we investigated various ways in which loss of function of the E-cadherin gene could occur in ILCs, namely, promoter methylation, mutation and allelic loss. We analysed 22 ILCs and found 12 (55%) E-cadherinnegative samples by immunohistochemical analysis. Methylation-specific polymerase chain reaction (PCR) showed that 17/22 (77%) of these tumours had methylation of the CDH1 promoter, including 11/12 (91%) of the E-cadherin-negative tumours. All 16 exons of E-cadherin (including intron-exon boundaries) were amplified from chromosomal DNA and screened for mutations by conformation-sensitive gel electrophoresis (CSGE). Bands with altered mobility were analysed by direct sequencing. We identified five frameshift mutations, which resulted in downstream stop codons and one splice site mutation in six different tumours (29%). Loss of heterozygosity (LOH) was assessed using microsatellite markers, and 9/18 (50%) informative tumours showed LOH. We conclude that most ILCs show genetic or epigenetic changes affecting the E-cadherin gene and that many of these tumours lack E-cadherin expression. In all cases in which there was loss of expression, this was consistent with biallelic inactivation of CDH1 by promoter methylation, mutation or allelic loss in any combination. © 2001 Wiley-Liss, Inc. Key words: breast lobular carcinoma; E-cadherin; LOH; promoter methylationE-cadherin is a transmembrane glycoprotein, expressed mainly in epithelial cells, which mediates calcium-dependent cell-cell adhesion through homophilic interactions while controlling cell polarity and morphogenesis. 1 An intracellular domain interacts with the catenins, and, through these proteins, E-cadherin is linked to the cytoskeleton. 2 The gene (CDH1, HSECAD) maps to 16q22.1 and consists of 16 exons. The CDH1 promoter, originally identified by Behrens et al., 3 has a high GC-rich region that may be implicated in transcriptional regulation.Downregulation of E-cadherin levels has been associated with reduced differentiation and poorer prognosis in breast cancer, 4 -6 although this has not been an universal finding. 7 Previous studies from our own institute and other centres have documented loss of E-cadherin expression, as determined by immunohistochemistry, in around 85% or more of invasive lobular carcinomas (ILCs) and lobular carcinoma in situ (LCIS). 8,9 Such findings suggest that the absence of expression of this molecule could play an important role in determining morphology as well as in mediating the distinct pattern of invasion of this tumour. A more recent report has shown simultaneous loss of ␣-and ␤-catenin expression in E-cadherinnegative lobular breast carcinomas. 10 Reduced immunoreactivity of any of the four proteins (E-ca...

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Section: Mechanisms Of Loss Of Protein Expressionsupporting

confidence: 52%

Multiple ways of silencing E-cadherin gene expression in lobular carcinoma of the breast

et al. 2001

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“…54 It has been suggested that mutation of exon 8 of CDH1 expresses an abnormal E-cadherin protein that lacks the appropriate signals for post-translational modifications, which permit the normal transport to the cell membrane and glycosylation of E-cadherin; this results in the arrest of E-cadherin in the Golgi apparatus. 53,55 In another report, cytoplasmic E-cadherin was present in a gastric adenocarcinoma with a 5-bp insertion in exon 9. 56 The significance of a lower aberrant p53 expression (39% vs 75%) in the two subclusters (cytoplasmic vs complete loss of E-cadherin) is unclear.…”

Section: Discussionmentioning

confidence: 94%

A protein and mRNA expression-based classification of gastric cancer

et al. 2016

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The overall survival of gastric carcinoma patients remains poor despite improved control over known risk factors and surveillance. This highlights the need for new classifications, driven towards identification of potential therapeutic targets. Using sophisticated molecular technologies and analysis, three groups recently provided genetic and epigenetic molecular classifications of gastric cancer (The Cancer Genome Atlas, 'Singapore-Duke' study, and Asian Cancer Research Group). Suggested by these classifications, here, we examined the expression of 14 biomarkers in a cohort of 146 gastric adenocarcinomas and performed unsupervised hierarchical clustering analysis using less expensive and widely available immunohistochemistry and in situ hybridization. Ultimately, we identified five groups of gastric cancers based on Epstein-Barr virus (EBV) positivity, microsatellite instability, aberrant E-cadherin, and p53 expression; the remaining cases constituted a group characterized by normal p53 expression. In addition, the five categories correspond to the reported molecular subgroups by virtue of clinicopathologic features. Furthermore, evaluation between these clusters and survival using the Cox proportional hazards model showed a trend for superior survival in the EBV and microsatellite-instable related adenocarcinomas. In conclusion, we offer as a proposal a simplified algorithm that is able to reproduce the recently proposed molecular subgroups of gastric adenocarcinoma, using immunohistochemical and in situ hybridization techniques. Gastric carcinoma is the fifth most common malignancy and the third leading cause of cancer-related death worldwide. Despite better control over known risk factors and development of new chemotherapeutic and targeted agents, in the United States, the 5-year overall survival for gastric cancer patients is only 29%. 1 With regard to patient stratification, although several morphologic classifications have been developed, one broadly used system is the Lauren classification, which divides gastric adenocarcinoma into intestinal and diffuse types. 2 The simple two-tiered classification gives a general understanding of the histogenesis and biology of gastric cancer, and has been particularly helpful in evaluating the epidemiologic data. Another widely used system is the WHO classification, which is based on more precise histologic patterns. It is an all-inclusive system, which recognizes all the rare subtypes that were not identified in the Lauren classification. 3 Nevertheless, its clinical utility is doubtful as there is little difference in outcomes between the distinct histological subgroups.Following the successful Trastuzumab for Gastric Cancer (ToGA) trial, the only validated predictive biomarker for personalized therapy of gastric cancer is limited to human epidermal growth factor receptor (Her2) protein expression. 4 Recently, anti-vascular endothelial growth factor receptor 2 (VEGFR2) antibody (ramucirumab) has been FDA approved, and anti-epidermal growth factor receptor (EGFR) an...

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“…A major function of E-cadherin protein is the maintenance of cell adhesion and tissue integrity. E-cadherin deficiency in tumours would lead to changes in cell morphology and motility, so that E-cadherin is being considered to be a suppressor of cancer invasion [30]. In primary HCCs, E-cadherin expression is absent or reduced in amount as compared to normal liver tissues, which may be connected with intrahepatic metastasis of hepatocellular carcinoma [31], [32].…”

Section: Discussionmentioning

confidence: 99%

Genetic aberration in primary hepatocellular carcinoma: correlation between p53 gene mutation and loss-of-hetero- zygosity on chromosome 16q21-q23 and 9p21-p23

et al. 2000

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To elucidate the molecular pathology underlying the development of hepatocellular carcinoma (HCC), we used 41 highly polymorphic microsatellite markers to examine 55 HCC and corresponding non-tumor liver tissues on chromosome 9, 16 and 17. Loss-of-heterozygosity (LOH) is observed with high frequency on chromosomal region 17p13 (36/55, 65 %), 9p21-p23 (28/55, 51%), 16q21-q23 (27/55, 49 %) in tumors. Meanwhile, microsatellite instability is rarely found in these microsatellite loci. Direct sequencing was performed to detect the tentative mutation of tumor suppressor genes in these regions: p53, MTS1/p16, and CDH1/E-cadherin. Within exon 5-9 of p53 gene, 14 out of 55 HCC specimens (24 %) have somatic mutations, and nucleotide deletion of this gene is reported in HCC for the first time. Mutation in MTS1/p16 is found only in one tumor case. We do not find mutations in CDH1/E-cadherin. Furthermore, a statistically significant correlation is present between p53 gene mutation and loss of chromosome region 16q21-q23 and 9p21-p23, which indicates that synergism between p53 inactivation and deletion of 16q21-q23 and 9p21-p23 may play a role in the pathogenesis of HCC.

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Tumour-associated E-cadherin mutations alter cellular morphology, decrease cellular adhesion and increase cellular motility

Cited by 188 publications

References 75 publications

Multiple ways of silencing E-cadherin gene expression in lobular carcinoma of the breast

Multiple ways of silencing E-cadherin gene expression in lobular carcinoma of the breast

A protein and mRNA expression-based classification of gastric cancer

Genetic aberration in primary hepatocellular carcinoma: correlation between p53 gene mutation and loss-of-hetero- zygosity on chromosome 16q21-q23 and 9p21-p23

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