Myosin-II Mediated Traction Forces Evoke Localized Piezo1-dependent Ca Flickers

Overview

Journal Commun Biol

Specialty Biology

Date 2019 Aug 10

PMID 31396578

Citations 99

Authors

Kyle L Ellefsen

Jesse R Holt

Alice C Chang

Jamison L Nourse

Janahan Arulmoli

Armen H Mekhdjian

Hamid Abuwarda

Francesco Tombola

Lisa A Flanagan

Alexander R Dunn

Ian Parker

Medha M Pathak

Affiliations

Soon will be listed here.

Abstract

Piezo channels transduce mechanical stimuli into electrical and chemical signals to powerfully influence development, tissue homeostasis, and regeneration. Studies on Piezo1 have largely focused on transduction of "outside-in" mechanical forces, and its response to internal, cell-generated forces remains poorly understood. Here, using measurements of endogenous Piezo1 activity and traction forces in native cellular conditions, we show that cellular traction forces generate spatially-restricted Piezo1-mediated Ca flickers in the absence of externally-applied mechanical forces. Although Piezo1 channels diffuse readily in the plasma membrane and are widely distributed across the cell, their flicker activity is enriched near force-producing adhesions. The mechanical force that activates Piezo1 arises from Myosin II phosphorylation by Myosin Light Chain Kinase. We propose that Piezo1 Ca flickers allow spatial segregation of mechanotransduction events, and that mobility allows Piezo1 channels to explore a large number of mechanical microdomains and thus respond to a greater diversity of mechanical cues.

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