Mechanosensitive dynamics of lysosomes along microtubules regulate leader cell emergence in collective cell migration
Abstract
Collective cell migration during embryonic development, wound healing, and cancer metastasis entails the emergence of leader cells at the migration front. These cells with conspicuous lamellipodial structures provide directional guidance to the collective. Despite their physiological relevance, the mechanisms underlying the emergence of leader cells remain elusive. Here we report that in diverse model systems for wound healing, including cultured epithelial monolayer,Drosophilaembryo, and mouse embryonic skin, leader cells display a peripheral accumulation of lysosomes. This accumulation appears essential for leader cell emergence, involves lysosomal movement along microtubules, and depends on the actomyosin contractility-generated cellular forces. Peripheral lysosomes associate with inactive Rac1 molecules to remove them from the leading periphery, which increases local Rac1-activity, triggering actin polymerization and promoting lamellipodium formation. Taken together, we demonstrate that beyond their catabolic role, lysosomes act as the intracellular platform that links mechanical and biochemical signals to control the emergence of leader cells.
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