LC3 and STRAP regulate actin filament assembly by JMY during autophagosome formation

Abstract

AbstractDuring autophagy actin filament networks move and remodel cellular membranes to form autophagosomes that enclose and metabolize cytoplasmic contents. Two actin regulators, WHAMM and JMY, participate in autophagosome formation, but the signals linking autophagy to actin assembly are poorly understood. We show that, in non-starved cells, cytoplasmic JMY co-localizes with STRAP, a regulator of JMY’s nuclear functions, on non-motile vesicles with no associated actin networks. Upon starvation, JMY shifts to motile, LC3-containing membranes that move on actin comet tails. LC3 enhances JMY’s de novo actin nucleation activity via a cryptic actin-binding sequence near JMY’s N-terminus, and STRAP inhibits JMY’s ability to nucleate actin and activate the Arp2/3 complex. Cytoplasmic STRAP negatively regulates autophagy. Finally, we use purified proteins to reconstitute LC3‐ and JMY-dependent actin network formation on membranes, and inhibition of network formation by STRAP. We conclude that LC3 and STRAP regulate JMY’s actin assembly activities in trans during autophagy.eTOC BlurbThe actin regulator JMY creates filament networks that move membranes during autophagy. We find that, in unstarved cells, JMY is inhibited by interaction with the STRAP protein, but upon starvation JMY is recruited away from STRAP and activated by LC3.