p66Shc Couples Mechanical Signals to RhoA through Focal Adhesion Kinase-Dependent Recruitment of p115-RhoGEF and GEF-H1

• Published in: Molecular and cellular biology Vol. 36; no. 22; pp. 2824 - 2837
• Main Authors: Wu, Ru-Feng, Liao, Chengxu, Fu, Guosheng, Hayenga, Heather N., Yang, Kejia, Ma, Zhenyi, Liu, Zhe, Terada, Lance S.
• Format: Journal Article
• Language: English
• Published: 1752 N St., N.W., Washington, DC Taylor & Francis 01.11.2016; American Society for Microbiology
• Subjects: Spotlight
• ISSN: 0270-7306; 1098-5549
• DOI: 10.1128/MCB.00194-16

Tissue cells respond to changes in tensional forces with proliferation or death through the control of RhoA. However, the response coupling mechanisms that link force with RhoA activation are poorly understood. We found that tension applied to fibronectin-coated microbeads caused recruitment of all three isoforms of the Shc adapter (p66 Shc , p52 Shc , and p46 Shc ) to adhesion complexes. The Shc PTB domain was necessary and sufficient for this recruitment, and screening studies revealed the direct interactions with the FERM domain of focal adhesion kinase (FAK) that were required for Shc translocation to adhesion complexes. The FAK/p66 Shc complex specifically bound and activated the Rho guanyl exchange factors (GEFs) p115-RhoGEF and GEF-H1, leading to tension-induced RhoA activation. In contrast, the FAK/p52 Shc complex bound SOS1 but not the Rho GEFs to mediate tension-induced Ras activation. Nuclear translocation and activation of the YAP/TAZ transcription factors on firm substrates required the FAK/p66 Shc /Rho GEF complex, and both proliferation on firm substrates and anoikis in suspension required signaling through p66 Shc and its associated Rho GEFs. These studies reveal the binary and exclusive assignment of p66 Shc and p52 Shc to tension-induced Rho or Ras signals, respectively, and suggest an integrated role for the two Shc isoforms in coordinating the cellular response to mechanical stimuli.