Moorthy Krishnan scite author profile

Claudin-2 is a unique member of the claudin family of transmembrane proteins as its expression is restricted to the leaky epithelium in vivo and correlates with epithelial leakiness in vitro. However, recent evidence suggests potential functions of claudin-2 that are relevant to neoplastic transformation and growth. In accordance here we report, based upon analysis of mRNA and protein expression using a total of 309 patient samples, that claudin-2 expression is significantly increased in colorectal cancer and correlates with cancer progression. We also report similar increases in claudin-2 expression in inflammatory bowel disease (IBD)-associated colorectal cancer. Most importantly, we demonstrate that the increased claudin-2 expression in colorectal cancer is causally associated with tumor growth as forced claudin-2 expression in colon cancer cells that do not express claudin-2 resulted in significant increases in cell proliferation, anchorage-independent growth, and tumor growth in vivo. We further show that the colonic microenvironment regulates claudin-2 expression in a manner dependent on signaling through the EGF receptor (EGFR), a key regulator of colon tumorigenesis. In addition, claudin-2 expression is specifically decreased in the colon of waved-2 mice, naturally deficient in EGFR activation. Furthermore, genetic silencing of claudin-2 expression in Caco-2 , a colon cancer cell line, prevents the EGF-induced increase in cell proliferation. Taken together, these results uncover a novel role for claudin-2 in promoting colon cancer, potentially via EGFR transactivation.

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Claudin-1 regulates intestinal epithelial homeostasis through the modulation of Notch-signalling

Pope

Bhat

Sharma

et al. 2013

Gut

197

171

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Objective Claudin-1 expression is increased and dysregulated in colorectal cancer and causally associates with the dedifferentiation of colonic epithelial cells, cancer progression and metastasis. Here, we have sought to determine the role claudin-1 plays in the regulation of intestinal epithelial homeostasis. Design We have used a novel Villin-claudin-1 transgenic (Cl-1Tg) mouse as model (with intestinal claudin-1 overexpression). Effect of claudin-1 expression upon colonic epithelial differentiation, lineage commitment, and Notch signaling were determined using immunohistochemical, immunoblot and real time PCR analysis. The frequently used mouse model of DSS-colitis was used to model inflammation, injury and repair. Results In Cl-1Tg mice, normal colonocyte differentiation program was disrupted and goblet cell number and muc-2 expressions were significantly downregulated while Notch- and ERK1/2-signaling were upregulated, compared to the wild type (WT)-littermates. Cl-1Tg mice were also susceptible to colonic inflammation and demonstrated impaired recovery and hyperproliferation following the DSS-colitis. Our data further show that claudin-1 regulates Notch-signaling through the regulation of MMP-9 and p-ERK signaling to regulate proliferation and differentiation. Conclusion Claudin-1 helps regulate intestinal epithelial homeostasis through the regulation of Notch-signaling. An upregulated claudin-1 expression induces MMP-9 and p-ERK signaling to activate Notch-signaling, which in turn inhibits the goblet cell differentiation. Decreased goblet cell number decreases muc-2 expression and thus enhances susceptibility to mucosal inflammation. Claudin-1 expression also induces colonic epithelial proliferation in a Notch-dependent manner. Our findings may help understand the role of claudin-1 in the regulation of IBD and CRC.

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Myosin Vb uncoupling from RAB8A and RAB11A elicits microvillus inclusion disease

Knowles¹,

Roland²,

Krishnan³

et al. 2014

J. Clin. Invest.

103

159

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Claudin-1 Up-regulates the Repressor ZEB-1 to Inhibit E-Cadherin Expression in Colon Cancer Cells

et al. 2011

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BACKGROUND & AIMS Expression of the tight junction protein claudin-1 is dysregulated in colon tumors and associates with their progression. Up-regulation of claudin-1 reduces expression of E-cadherin. We investigated the mechanisms by which claudin-1 regulates E-cadherin expression and its effects in colon cancer cells. MATERIALS AND METHODS We used gene expression analysis, immunoblotting, and reverse transcription polymerase chain reaction to associate expression of the repressor of transcription Zinc Finger E-box binding homeobox-box1 (ZEB-1) with claudin-1. We analyzed SW480 colon cancer cells that overexpressed claudin-1, or SW620 cells in which claudin-1 expression was repressed, to determine the effects on ZEB-1 and E-cadherin expression, invasive activity, and resistance to anoikis. We studied cells that expressed constitutively active or dominant negative forms of factors in the Wnt or phosphotidylinositol-3-kinase signaling pathways and used pharmacologic inhibitors of these pathways to study their role in claudin-1-dependent regulation of ZEB-1. We used microarray analysis to examine gene expression patterns in 260 colorectal tumor and normal colon samples. RESULTS Claudin-1 down-regulates E-cadherin expression by up-regulating expression of ZEB-1. Claudin-1 activates Wnt and phosphotidylinositol-3-kinase/Akt signaling. ZEB-1 mediates claudin-1-regulated changes in cell invasion and anoikis. Expression of claudin-1 correlated with that of ZEB-1 in human colon tumor samples. In the progression from normal colonic epithelium to colon adenocarcinoma, levels of E-cadherin decreased, whereas levels of claudin-1 and ZEB-1 increased. Down-regulation of E-cadherin and up-regulation of ZEB-1 in colon tumors were associated with shorter survival times. CONCLUSIONS Claudin-1 up-regulates the repressor ZEB-1 to reduce expression of E-cadherin in colon cancer cells, increasing their invasive activity and reducing anoikis. This pathway is associated with colorectal cancer progression and patient survival.

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HDAC inhibitors regulate claudin-1 expression in colon cancer cells through modulation of mRNA stability

et al. 2009

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Expression and cellular distribution of claudin-1, a tight junction protein, is dysregulated in colon cancer and its overexpression in colon cancer cells induced dedifferentiation and increased invasion. However, the molecular mechanism(s) underlying dysregulated claudin-1 expression in colon cancer remains poorly understood. Histone deacetylase (HDAC)-dependent histone acetylation is an important mechanism of the regulation of cancer-related genes and inhibition of HDACs induces epithelial differentiation and decreased invasion. Therefore, in this study, we examined the role of HDAC-dependent epigenetic regulation of claudin-1 in colon cancer. In this study, we show that sodium butyrate and Trichostatin A (TSA), two structurally different and widely used HDAC inhibitors, inhibited claudin-1 expression in multiple colon cancer cell lines. Further studies revealed modulation of claudin-1 mRNA stability by its 3′-UTR as the major mechanism underlying HDAC-dependent claudin-1 expression. In addition, overexpression of claudin-1 abrogated the TSA-induced inhibition of invasion in colon cancer cells suggesting functional crosstalk. Analysis of mRNA expression in colon cancer patients, showed a similar pattern of increase in claudin-1 and HDAC-2 mRNA expression throughout all stages of colon cancer. Inhibition of claudin-1 expression by HDAC-2-specific small interfering RNA further supported the role of HDAC-2 in this regulation. Taken together, we report a novel post-transcriptional regulation of claudin-1 expression in colon cancer cells and further show a functional correlation between claudin-1 expression and TSA-mediated regulation of invasion. As HDAC inhibitors are considered to be promising anticancer drugs, these new findings will have implications in both laboratory and clinical settings.

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