PIP2 increases the speed of response of synaptotagmin and steers its membrane-penetration activity toward the plasma membrane

Abstract

Synaptotagmin-1 (syt), the putative Ca²⁺ sensor for exocytosis, is anchored to the membrane of secretory organelles. Its cytoplasmic domain is composed of two Ca²⁺-sensing modules, C₂A and C₂B. Syt binds phosphatidylinositol 4,5-bisphosphate (PIP₂), a plasma membrane lipid with an essential role in exocytosis and endocytosis. We resolved two modes of PIP₂ binding that are mediated by distinct surfaces on the C₂B domain of syt. A novel Ca²⁺-independent mode of binding predisposes syt to penetrate PIP₂-harboring target membranes in response to Ca²⁺ with submillisecond kinetics. Thus, PIP₂ increases the speed of response of syt and steers its membrane-penetration activity toward the plasma membrane. We propose that syt-PIP₂ interactions are involved in exocytosis by facilitating the close apposition of the vesicle and target membrane on rapid time scales in response to Ca²⁺.