By acting both upstream of and downstream from biochemical organizers of the cytoskeleton, physical forces function as central integrators of cell shape and movement. Here we use a combination of genetic, pharmacological, and optogenetic perturbations to probe the role of the conserved mechanosensitive mTOR complex 2 (mTORC2) programs in neutrophil polarity and motility. We find that the tension-based inhibition of leading-edge signals (Rac, F-actin) that underlies protrusion competition is gated by the kinase-independent role of the complex, whereas the regulation of RhoA and myosin II-based contractility at the trailing edge depend on mTORC2 kinase activity. mTORC2 is essential for spatial and temporal coordination of the front and back polarity programs for persistent migration under confinement. This mechanosensory pathway integrates multiple upstream signals, and we find that membrane stretch synergizes with biochemical co-input phosphatidylinositol (3,4,5)-trisphosphate to robustly amplify mTORC2 activation. Our results suggest that different signaling arms of mTORC2 regulate spatially and molecularly divergent cytoskeletal programs for efficient coordination of neutrophil shape and movement.
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| http://dx.doi.org/10.1091/mbc.E22-05-0191 | DOI Listing |
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