Abstract
The lysosomal cation channel TRPML1/MCOLN1 facilitates autophagic degradation during amino acid starvation based on studies involving long-term TRMPL1 modulation. Here we show that lysosomal activation (more acidic pH and higher hydrolase activity) depends on incoming vesicle fusions. We identify an immediate, calcium-dependent role of TRPML1 in lysosomal activation through promoting autophagosome-lysosome fusions and lysosome acidification within 10 to 20 min of its pharmacological activation. Lysosomes also become more fusion competent upon TRPML1 activation via increased transport of lysosomal SNARE proteins syntaxin 7 and VAMP7 by SNARE carrier vesicles. We find that incoming vesicle fusion is a prerequisite for lysosomal Ca2+ efflux that leads to acidification and hydrolytic enzyme activation. Physiologically, the first vesicle fusions likely trigger generation of the phospholipid PI(3,5)P2 that activates TRPML1, and allosteric TRPML1 activation in the absence of PI(3,5)P2 restores autophagosome-lysosome fusion and rescues abnormal SNARE sequestration within lysosomes. We thus identify a prompt role of TRPML1-mediated calcium signaling in lysosomal fusions, activation, and SNARE trafficking.