Abstract
Synaptotagmins constitute a large family of membrane proteins implicated in Ca(2+)-triggered exocytosis. Structurally similar synaptotagmins are differentially localized either to secretory vesicles or to plasma membranes, suggesting distinct functions. Using measurements of the Ca(2+) affinities of synaptotagmin C2-domains in a complex with phospholipids, we now show that different synaptotagmins exhibit distinct Ca(2+) affinities, with plasma membrane synaptotagmins binding Ca(2+) with a 5- to 10-fold higher affinity than vesicular synaptotagmins. To test whether these differences in Ca(2+) affinities are functionally important, we examined the effects of synaptotagmin C2-domains on Ca(2+)-triggered exocytosis in permeabilized PC12 cells. A precise correlation was observed between the apparent Ca(2+) affinities of synaptotagmins in the presence of phospholipids and their action in PC12 cell exocytosis. This was extended to PC12 cell exocytosis triggered by Sr(2+), which was also selectively affected by high-affinity C2-domains of synaptotagmins. Together, our results suggest that Ca(2+) triggering of exocytosis involves tandem Ca(2+) sensors provided by distinct plasma membrane and vesicular synaptotagmins. According to this hypothesis, plasma membrane synaptotagmins represent high-affinity Ca(2+) sensors involved in slow Ca(2+)-dependent exocytosis, whereas vesicular synaptotagmins function as low-affinity Ca(2+) sensors specialized for fast Ca(2+)-dependent exocytosis.
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