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¹ Department of Physiology, University of Wisconsin Medical School, Madison, WI, USA

Synaptotagmin I (Syt I), the putative Ca²⁺ sensor in regulated exocytosis, has two Ca²⁺-binding modules, the C2A and C2B domains, and a number of putative effectors to which Syt I binds in a Ca²⁺-dependent fashion. The role of Ca²⁺ binding to these domains remains unclear, as efforts to address questions about Ca²⁺-triggered effector interactions have led to conflicting results. We have studied the effects of Ca²⁺ on fusion pores using amperometry to follow the exocytosis of single vesicles in real time and analyse the kinetics of fusion pore transitions. Elevating [Ca²⁺] in permeabilized cells reduced the fusion pore lifetime, indicating an action of Ca²⁺ during the actual fusion process. Analysing the Ca²⁺ dependence of the fusion pore lifetime, together with the frequency of pore openings and the proportion of openings that close without dilating (kiss-and-run events) enabled us to resolve exocytosis into a sequence of kinetic steps representing functional transitions in the fusion pore. Fusion pore opening and dilation were both accelerated by Ca²⁺, indicating separate Ca²⁺ control over each of these steps. Ca²⁺ ligand mutations in either the C2A or C2B domains of Syt I reduced fusion pore opening, but had opposite actions on the rate of fusion pore closure. These studies resolve two separate and distinct Ca²⁺-triggered steps during regulated exocytosis. The C2A and C2B domains of Syt I have different actions during these steps, and these actions may be linked to their distinctive effector interactions.

(Received 24 August 2005; accepted after revision 9 November 2005; first published online 17 November 2005)
Corresponding author M. Jackson: Department of Physiology, SMI 127, University of Wisconsin, 1300 University Ave., Madison, WI 53706, USA. Email: mjackson{at}physiology.wisc.edu

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