Resident CAPS on dense-core vesicles docks and primes vesicles for fusion

Author(s)

Kielar-Grevstad, D. Michelle; Zhang, Xingmin; James, Declan J.; Martin, Thomas F. J.; Kabachinski, Gregory L.

Abstract

The Ca[superscript 2+]-dependent exocytosis of dense-core vesicles in neuroendocrine cells requires a priming step during which SNARE protein complexes assemble. CAPS (aka CADPS) is one of several factors required for vesicle priming; however, the localization and dynamics of CAPS at sites of exocytosis in live neuroendocrine cells has not been determined. We imaged CAPS before, during, and after single-vesicle fusion events in PC12 cells by TIRF micro­scopy. In addition to being a resident on cytoplasmic dense-core vesicles, CAPS was present in clusters of approximately nine molecules near the plasma membrane that corresponded to docked/tethered vesicles. CAPS accompanied vesicles to the plasma membrane and was present at all vesicle exocytic events. The knockdown of CAPS by shRNA eliminated the VAMP-2–dependent docking and evoked exocytosis of fusion-competent vesicles. A CAPS(ΔC135) protein that does not localize to vesicles failed to rescue vesicle docking and evoked exocytosis in CAPS-depleted cells, showing that CAPS residence on vesicles is essential. Our results indicate that dense-core vesicles carry CAPS to sites of exocytosis, where CAPS promotes vesicle docking and fusion competence, probably by initiating SNARE complex assembly.

Date issued

2015-12

URI

http://hdl.handle.net/1721.1/102616

Department

Massachusetts Institute of Technology. Department of Biology

Journal

Molecular Biology of the Cell

Publisher

American Society for Cell Biology

Citation

Kabachinski, G., D. M. Kielar-Grevstad, X. Zhang, D. J. James, and T. F. J. Martin. “Resident CAPS on Dense-Core Vesicles Docks and Primes Vesicles for Fusion.” Molecular Biology of the Cell 27, no. 4 (February 15, 2016): 654–68.

Version: Final published version

ISSN

1059-1524

1939-4586