Journal
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
Volume 99, Issue 3, Pages 1665-1670Publisher
NATL ACAD SCIENCES
DOI: 10.1073/pnas.032541099
Keywords
exocytosis; liposome; fluorescence; cooperativity; fusion
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Funding
- NIGMS NIH HHS [GM 56827, R01 GM056827] Funding Source: Medline
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Synaptotagmin (syt) I, an integral membrane protein localized to secretory vesicles, is a putative Ca2+ sensor for exocytosis. Its N terminus spans the membrane once, and its cytoplasmic domain contains two conserved C2 domains, designated C2A and C2B. The isolated C2A domain penetrates membranes in response to Ca2+; isolated C2B does not. Here, we have addressed the function of each C2 domain, but in the context of the intact cytoplasmic domain (C2A-C2B), by using fluorescent reporters placed in the Ca2+-binding loops of either C2A or C2B. Surprisingly, these reporters revealed that, analogous to C2A, a Ca2+-binding loop in C2B directly penetrates into lipid bilayers. Penetration of each C2 domain was very rapid (k(on) approximate to10(10) M(-1.)s(-1)) and resulted in high affinity C2A-C2B-liposome complexes (K-d approximate to13-14 nM). C2B-bilayer penetration strictly depended on the presence, but not the membrane binding activity, of an adjacent C2A domain, severing C2A from C2B after protein synthesis abolished the ability of C2B to dip into bilayers in response to Ca2+. The activation of C2B by C2A was also displayed by the C2 domains of syt III but not the C2 domains of syt IV. A number of proteins contain more than one C2 domain; the findings reported here suggest these domains may harbor cryptic activities that are not detected when they are studied in isolation.
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