Small Molecules That Inhibit the Late Stage of Munc13-4-dependent Secretory Granule Exocytosis in Mast Cells

Overview

Journal J Biol Chem

Specialty Biochemistry

Date 2018 Apr 5

PMID 29615494

Citations 4

Authors

Stephen Bruinsma

Declan J James

Melanie Quintana Serrano

Joseph Esquibel

Sang Su Woo

Elle Kielar-Grevstad

Ellen Crummy

Rehan Qurashi

Judy A Kowalchyk

Thomas F J Martin

Affiliations

Soon will be listed here.

Abstract

Ca-dependent secretory granule fusion with the plasma membrane is the final step for the exocytic release of inflammatory mediators, neuropeptides, and peptide hormones. Secretory cells use a similar protein machinery at late steps in the regulated secretory pathway, employing protein isoforms from the Rab, Sec1/Munc18, Munc13/CAPS, SNARE, and synaptotagmin protein families. However, no small-molecule inhibitors of secretory granule exocytosis that target these proteins are currently available but could have clinical utility. Here we utilized a high-throughput screen of a 25,000-compound library that identified 129 small-molecule inhibitors of Ca-triggered secretory granule exocytosis in RBL-2H3 mast cells. These inhibitors broadly fell into six different chemical classes, and follow-up permeable cell and liposome fusion assays identified the target for one class of these inhibitors. A family of 2-aminobenzothiazoles (termed benzothiazole exocytosis inhibitors or bexins) was found to inhibit mast cell secretory granule fusion by acting on a Ca-dependent, C2 domain-containing priming factor, Munc13-4. Our findings further indicated that bexins interfere with Munc13-4-membrane interactions and thereby inhibit Munc13-4-dependent membrane fusion. We conclude that bexins represent a class of specific secretory pathway inhibitors with potential as therapeutic agents.

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