AMPK is a mechano-metabolic sensor linking cell adhesion and mitochondrial dynamics to Myosin-dependent cell migration

Eva Crosas‐Molist(Queen Mary University of London), Vittoria Graziani(Queen Mary University of London), Óscar Maiques(Queen Mary University of London), Pahini Pandya(King's College London), Joanne Monger(Queen Mary University of London), Rémi Samain(Queen Mary University of London), Samantha L. George(Queen Mary University of London), Saba Malik(King's College London), Jerrine Salise(King's College London), Valle Morales(Queen Mary University of London), Adrien Le Guennec(King's College London), Roger Atkinson(Centre National de la Recherche Scientifique), Manuel Martín González(Universitat de Lleida), Xavier Matías‐Guiu(Universitat de Lleida), Guillaume Charras(London Centre for Nanotechnology), Maria R. Conte(King's College London), Alberto Elósegui-Artola(King's College London), Mark Holt(King's College London), Victoria Sanz‐Moreno(Queen Mary University of London)
Nature Communications
May 22, 2023
10.1038/s41467-023-38292-0
Cited by 83Open Access
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Abstract

Cell migration is crucial for cancer dissemination. We find that AMP-activated protein kinase (AMPK) controls cell migration by acting as an adhesion sensing molecular hub. In 3-dimensional matrices, fast-migrating amoeboid cancer cells exert low adhesion/low traction linked to low ATP/AMP, leading to AMPK activation. In turn, AMPK plays a dual role controlling mitochondrial dynamics and cytoskeletal remodelling. High AMPK activity in low adhering migratory cells, induces mitochondrial fission, resulting in lower oxidative phosphorylation and lower mitochondrial ATP. Concurrently, AMPK inactivates Myosin Phosphatase, increasing Myosin II-dependent amoeboid migration. Reducing adhesion or mitochondrial fusion or activating AMPK induces efficient rounded-amoeboid migration. AMPK inhibition suppresses metastatic potential of amoeboid cancer cells in vivo, while a mitochondrial/AMPK-driven switch is observed in regions of human tumours where amoeboid cells are disseminating. We unveil how mitochondrial dynamics control cell migration and suggest that AMPK is a mechano-metabolic sensor linking energetics and the cytoskeleton.

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