Nuclear signalling by tumour-associated antigen EpCAM

D Maetzel, S Denzel, B Mack, M Canis, P Went… - Nature cell …, 2009 - nature.com
D Maetzel, S Denzel, B Mack, M Canis, P Went, M Benk, C Kieu, P Papior, PA Baeuerle
Nature cell biology, 2009nature.com
EpCAM was found to be overexpressed on epithelial progenitors, carcinomas and cancer-
initiating cells. The role of EpCAM in proliferation, and its association with cancer is poorly
explained by proposed cell adhesion functions. Here we show that regulated
intramembrane proteolysis activates EpCAM as a mitogenic signal transducer in vitro and in
vivo. This involves shedding of its ectodomain EpEX and nuclear translocation of its
intracellular domain EpICD. Cleavage of EpCAM is sequentially catalysed by TACE and …
Abstract
EpCAM was found to be overexpressed on epithelial progenitors, carcinomas and cancer-initiating cells. The role of EpCAM in proliferation, and its association with cancer is poorly explained by proposed cell adhesion functions. Here we show that regulated intramembrane proteolysis activates EpCAM as a mitogenic signal transducer in vitro and in vivo. This involves shedding of its ectodomain EpEX and nuclear translocation of its intracellular domain EpICD. Cleavage of EpCAM is sequentially catalysed by TACE and presenilin-2. Pharmacological inhibition or genetic silencing of either protease impairs growth-promoting signalling by EpCAM, which is compensated for by EpICD. Released EpICD associates with FHL2, β-catenin and Lef-1 to form a nuclear complex that contacts DNA at Lef-1 consensus sites, induces gene transcription and is oncogenic in immunodeficient mice. In patients, EpICD was found in nuclei of colon carcinoma but not of normal tissue. Nuclear signalling of EpCAM explains how EpCAM functions in cell proliferation.
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