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NAADP‐regulated two‐pore channels drive phagocytosis through endo‐lysosomal Ca2+ nanodomains, calcineurin and dynamin

Lianne C. Davis, Anthony J. Morgan, Antony Galione

2020The EMBO Journal87 citationsDOIOpen Access PDF

Abstract

Abstract Macrophages clear pathogens by phagocytosis and lysosomes that fuse with phagosomes are traditionally regarded as to a source of membranes and luminal degradative enzymes. Here, we reveal that endo‐lysosomes act as platforms for a new phagocytic signalling pathway in which FcγR activation recruits the second messenger NAADP and thereby promotes the opening of Ca 2+ ‐permeable two‐pore channels (TPCs). Remarkably, phagocytosis is driven by these local endo‐lysosomal Ca 2+ nanodomains rather than global cytoplasmic or ER Ca 2+ signals. Motile endolysosomes contact nascent phagosomes to promote phagocytosis, whereas endo‐lysosome immobilization prevents it. We show that TPC‐released Ca 2+ rapidly activates calcineurin, which in turn dephosphorylates and activates the GTPase dynamin‐2. Finally, we find that different endo‐lysosomal Ca 2+ channels play diverse roles, with TPCs providing a universal phagocytic signal for a wide range of particles and TRPML1 being only required for phagocytosis of large targets.

Topics & Concepts

BiologyDynaminCell biologyPhagocytosisCalcineurinBiophysicsBiochemistryEndocytosisCellMedicineTransplantationSurgeryCalcium signaling and nucleotide metabolismAdenosine and Purinergic SignalingSignaling Pathways in Disease
NAADP‐regulated two‐pore channels drive phagocytosis through endo‐lysosomal Ca2+ nanodomains, calcineurin and dynamin | Litcius