Abstract
BackgroundEpCAM (Epithelial cell adhesion molecule) is often dysregulated in epithelial cancers. Prior studies implicate EpCAM in the regulation of oncogenic signaling pathways and epithelial-to-mesenchymal transition. It was recently demonstrated that EpCAM contains a thyroglobulin type-1 (TY-1) domain. Multiple proteins with TY-1 domains are known to inhibit cathepsin-L (CTSL), a cysteine protease that promotes tumor cell invasion and metastasis. Analysis of human cancer sequencing studies reveals that somatic EpCAM mutations are present in up to 5.1% of tested tumors.MethodsThe Catalogue of Somatic Mutations in Cancer (COSMIC) database was queried to tabulate the position and amino acid changes of cancer associated EpCAM mutations. To determine how EpCAM mutations affect cancer biology we studied C66Y, a damaging TY-1 domain mutation identified in liver cancer, as well as 13 other cancer-associated EpCAM mutations. In vitro and in vivo models were used to determine the effect of wild type (WT) and mutant EpCAM on CTSL activity and invasion. Immunoprecipitation and localization studies tested EpCAM and CTSL protein binding and determined compartmental expression patterns of EpCAM mutants.ResultsWe demonstrate that WT EpCAM, but not C66Y EpCAM, inhibits CTSL activity in vitro, and the TY-1 domain of EpCAM is responsible for this inhibition. WT EpCAM, but not C66Y EpCAM, inhibits tumor cell invasion in vitro and lung metastases in vivo. In an extended panel of human cancer cell lines, EpCAM expression is inversely correlated with CTSL activity. Previous studies have demonstrated that EpCAM germline mutations can prevent EpCAM from being expressed at the cell surface. We demonstrate that C66Y and multiple other EpCAM cancer-associated mutations prevent surface expression of EpCAM. Cancer-associated mutations that prevent EpCAM cell surface expression abrogate the ability of EpCAM to inhibit CTSL activity and tumor cell invasion.ConclusionsThese studies reveal a novel role for EpCAM as a CTSL inhibitor, confirm the functional relevance of multiple cancer-associated EpCAM mutations, and suggest a therapeutic vulnerability in cancers harboring EpCAM mutations.
Highlights
EpCAM (Epithelial cell adhesion molecule) is often dysregulated in epithelial cancers
Somatic EpCAM mutations are present in a significant number of human cancers To analyze somatic EpCAM mutations in human cancers, we queried the Catalogue of Somatic Mutations in Cancer (COSMIC) database as well as 178 non-redundant datasets including 47,005 samples in the cBioPortal for Cancer Genomics [32, 33]
Depending on the dataset and cancer type, EpCAM mutations are present at a frequency between 0 to 5.13% in human cancers (Fig. S1C)
Summary
EpCAM (Epithelial cell adhesion molecule) is often dysregulated in epithelial cancers. The monoclonal antibody Catumaxomab, which targets EpCAM and causes an anti-cancer immune response, has been approved for the treatment of malignant ascites in Europe [7]. Despite these developments, further research is needed to improve our understanding of EpCAM’s role in epithelial cancers and its potential as a therapeutic target. EpCAM expression can differentially regulate oncogenic signaling pathways and invasion depending on the cancer type [14]. These studies suggest that the precise role of EpCAM in cancer biology remains to be elucidated
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