Calcium‐dependent signaling via gap junctions drives RhoA/ROCK activation during collective cell migration

Abstract

Collective cell migration (CCM) plays an important role in embryogenesis, vascular sprouting, and wound healing, but is also a significant driver of cancer metastasis. Ras homolog family member A (RhoA) facilitates CCM by modulating contraction of the actomyosin cytoskeleton. Given the precise spatiotemporal regulation of RhoA during CCM, we wanted to investigate the activity of downstream effector Rho‐associated kinase (ROCK) in collectively migrating fibroblasts. Using a new FRET‐based ROCK biosensor, we have observed calcium‐dependent activation of ROCK. We have previously demonstrated blunting of CCM in response to pharmacological inhibition of ROCK or depletion of intracellular calcium with 100 µM EGTA. To study the role of gap junction signaling in calcium‐dependent activation of ROCK during CCM, carbenoxolone, a gap junction blocker, was applied to collectively migrating cells following scratch wounding. Carbenoxolone treatment blunted CCM, as well as decreased ROCK activity and intracellular calcium levels at corresponding time points. Treatment with PQ7, a gap junction activator, caused modest increases in CCM. These results indicate that calcium signaling through gap junctions drives ROCK activity in the context of collective cell migration.