Fiche publication


Date publication

janvier 2021

Journal

Frontiers in immunology

Auteurs

Membres identifiés du Cancéropôle Est :
Dr JUNG Alain , Mme LEDRAPPIER Sonia , Dr OREND Gertraud


Tous les auteurs :
Dhaouadi S, Ben Abderrazek R, Loustau T, Abou-Faycal C, Ksouri A, Erne W, Murdamoothoo D, Mörgelin M, Kungl A, Jung A, Ledrappier S, Benlasfar Z, Bichet S, Chiquet-Ehrismann R, Hendaoui I, Orend G, Bouhaouala-Zahar B

Résumé

The extracellular matrix (ECM) molecule Tenascin-C (TNC) is well-known to promote tumor progression by multiple mechanisms. However, reliable TNC detection in tissues of tumor banks remains limited. Therefore, we generated dromedary single-domain nanobodies Nb3 and Nb4 highly specific for human TNC (hTNC) and characterized the interaction with TNC by several approaches including ELISA, western blot, isothermal fluorescence titration and negative electron microscopic imaging. Our results revealed binding of both nanobodies to distinct sequences within fibronectin type III repeats of hTNC. By immunofluroescence and immunohistochemical imaging we observed that both nanobodies detected TNC expression in PFA and paraffin embedded human tissue from ulcerative colitis, solid tumors and liver metastasis. As TNC impairs cell adhesion to fibronectin we determined whether the nanobodies abolished this TNC function. Indeed, Nb3 and Nb4 restored adhesion of tumor and mesangial cells on a fibronectin/TNC substratum. We recently showed that TNC orchestrates the immune-suppressive tumor microenvironment involving chemoretention, causing tethering of CD11c+ myeloid/dendritic cells in the stroma. Here, we document that immobilization of DC2.4 dendritic cells by a CCL21 adsorbed TNC substratum was blocked by both nanobodies. Altogether, our novel TNC specific nanobodies could offer valuable tools for detection of TNC in the clinical practice and may be useful to inhibit the immune-suppressive and other functions of TNC in cancer and other diseases.

Mots clés

diagnostic tool, extracellular matrix, fibronectin type III repeat, interaction modeling, nanobody, tenascin-c, therapeutic tool, tumor biomarker

Référence

Front Immunol. 2021 ;12:635166