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      A mechanically active heterotypic E-cadherin/N-cadherin adhesion enables fibroblasts to drive cancer cell invasion

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          Abstract

          Cancer Associated Fibroblasts (CAFs) promote tumor invasion and metastasis. We show that CAFs exert a physical force on cancer cells that enables their collective invasion. Force transmission is mediated by a heterophilic adhesion involving N-cadherin at the CAF membrane and E-cadherin at the cancer cell membrane. This adhesion is mechanically active; when subjected to force it triggers β-catenin recruitment and adhesion reinforcement dependent on α-catenin/vinculin interaction. Impairment of E-cadherin/N-cadherin adhesion abrogates the ability of CAFs to guide collective cell migration and blocks cancer cell invasion. N-cadherin also mediates repolarization of the CAFs away from the cancer cells. In parallel, nectins and afadin are recruited to the cancer cell/CAF interface and CAF repolarization is afadin dependent. Heterotypic junctions between CAFs and cancer cells are observed in patient-derived material. Together, our findings show that a mechanically active heterophilic adhesion between CAFs and cancer cells enables cooperative tumor invasion.

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          Molecular characterization of the tumor microenvironment in breast cancer.

          Minna Allinen, Rameen Beroukhim, Li Cai (2004)
          Here we describe the comprehensive gene expression profiles of each cell type composing normal breast tissue and in situ and invasive breast carcinomas using serial analysis of gene expression. Based on these data, we determined that extensive gene expression changes occur in all cell types during cancer progression and that a significant fraction of altered genes encode secreted proteins and receptors. Despite the dramatic gene expression changes in all cell types, genetic alterations were detected only in cancer epithelial cells. The CXCL14 and CXCL12 chemokines overexpressed in tumor myoepithelial cells and myofibroblasts, respectively, bind to receptors on epithelial cells and enhance their proliferation, migration, and invasion. Thus, chemokines may play a role in breast tumorigenesis by acting as paracrine factors.
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            alpha-Catenin as a tension transducer that induces adherens junction development.

            Shigenobu Yonemura, Yuko Wada, Toshiyuki WATANABE (2010)
            Adherens junctions (AJs), which are organized by adhesion proteins and the underlying actin cytoskeleton, probably sense pulling forces from adjacent cells and modulate opposing forces to maintain tissue integrity, but the regulatory mechanism remains unknown at the molecular level. Although the possibility that alpha-catenin acts as a direct linker between the membrane and the actin cytoskeleton for AJ formation and function has been minimized, here we show that alpha-catenin recruits vinculin, another main actin-binding protein of AJs, through force-dependent changes in alpha-catenin conformation. We identified regions in the alpha-catenin molecule that are required for its force-dependent binding of vinculin by introducing mutant alpha-catenin into cells and using in vitro binding assays. Fluorescence recovery after photobleaching analysis for alpha-catenin mobility and the existence of an antibody recognizing alpha-catenin in a force-dependent manner further supported the notion that alpha-catenin is a tension transducer that translates mechanical stimuli into a chemical response, resulting in AJ development.
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              Cell adhesion. The minimal cadherin-catenin complex binds to actin filaments under force.

              C Buckley, J. Tan, K L Anderson (2014)
              Linkage between the adherens junction (AJ) and the actin cytoskeleton is required for tissue development and homeostasis. In vivo findings indicated that the AJ proteins E-cadherin, β-catenin, and the filamentous (F)-actin binding protein αE-catenin form a minimal cadherin-catenin complex that binds directly to F-actin. Biochemical studies challenged this model because the purified cadherin-catenin complex does not bind F-actin in solution. Here, we reconciled this difference. Using an optical trap-based assay, we showed that the minimal cadherin-catenin complex formed stable bonds with an actin filament under force. Bond dissociation kinetics can be explained by a catch-bond model in which force shifts the bond from a weakly to a strongly bound state. These results may explain how the cadherin-catenin complex transduces mechanical forces at cell-cell junctions. Copyright © 2014, American Association for the Advancement of Science.
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                Author and article information

                Journal
                Journal ID (nlm-journal-id): 100890575
                Journal ID (pubmed-jr-id): 21417
                Journal ID (nlm-ta): Nat Cell Biol
                Journal ID (iso-abbrev): Nat. Cell Biol.
                Title: Nature cell biology
                ISSN (Print): 1465-7392
                ISSN (Electronic): 1476-4679
                Publication date Nihms-submitted: 21 February 2018
                Publication date (Electronic): 20 February 2017
                Publication date (Print): March 2017
                Publication date PMC-release: 01 March 2018
                Volume: 19
                Issue: 3
                Pages: 224-237
                Affiliations
                [1 ]Institute for Bioengineering of Catalonia, Barcelona 08028, Spain
                [2 ]The Francis Crick Institute, 1 Midland Road, London, NW1 1AT, UK
                [3 ]Unitat de Biofísica i Bioenginyeria, Facultat de Medicina, Universitat de Barcelona, Barcelona 08036, Spain
                [4 ]Institució Catalana de Recerca i Estudis Avançats (ICREA), Barcelona 08010, Spain
                [5 ]Centro de Investigación Biomédica en Red en Bioingeniería, Biomateriales y Nanomedicina, Barcelona 08028, Spain
                Author notes
                [* ]Corresponding authors: Xavier Trepat, PhD, ICREA Research Professor, Institute for Bioengineering of Catalonia, 08028, Barcelona, Spain, Tel: (+34) 934 020 265, xtrepat@ 123456ibecbarcelona.eu ; Erik Sahai, PhD, The Francis Crick Institute, 44 Lincoln’s Inn Fields, London WC2A 3LY, United Kingdom, erik.sahai@ 123456crick.ac.uk
                Article
                Accession ID: PMC5831988 Pmcid ID: PMC5831988 Pmc-uid ID: 5831988 Manuscript ID: ems76220
                DOI: 10.1038/ncb3478
                PMC ID: 5831988
                PubMed ID: 28218910
                SO-VID: 34de783f-a1e9-4c59-bdac-9f950f483217
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