Alternative molecular mechanisms for force transmission at adherens junctions via β-catenin-vinculin interaction

Author:

Morales-Camilo Nicole,Liu JingzhunORCID,Ramírez Manuel J.,Canales-Salgado PatricioORCID,Alegría Juan JoséORCID,Liu Xuyao,Ong Hui Ting,Barrera Nelson P.ORCID,Fierro Angélica,Toyama YusukeORCID,Goult Benjamin T.ORCID,Wang Yilin,Meng Yue,Nishimura RyosukeORCID,Fong-Ngern Kedsarin,Low Christine Siok Lan,Kanchanawong PakornORCID,Yan JieORCID,Ravasio AndreaORCID,Bertocchi CristinaORCID

Abstract

AbstractForce transmission through adherens junctions (AJs) is crucial for multicellular organization, wound healing and tissue regeneration. Recent studies shed light on the molecular mechanisms of mechanotransduction at the AJs. However, the canonical model fails to explain force transmission when essential proteins of the mechanotransduction module are mutated or missing. Here, we demonstrate that, in absence of α-catenin, β-catenin can directly and functionally interact with vinculin in its open conformation, bearing physiological forces. Furthermore, we found that β-catenin can prevent vinculin autoinhibition in the presence of α-catenin by occupying vinculin´s head-tail interaction site, thus preserving force transmission capability. Taken together, our findings suggest a multi-step force transmission process at AJs, where α-catenin and β-catenin can alternatively and cooperatively interact with vinculin. This can explain the graded responses needed to maintain tissue mechanical homeostasis and, importantly, unveils a force-bearing mechanism involving β-catenin and extended vinculin that can potentially explain the underlying process enabling collective invasion of metastatic cells lacking α-catenin.

Publisher

Springer Science and Business Media LLC

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