Calcium-dependent Activator Protein for Secretion 1 (CAPS1) Binds to Syntaxin-1 in a Distinct Mode from Munc13-1

Leon Parsaud,Lijun Li,Chang Hun Jung,Seungmee Park,Ner Mu Nar Saw,Sanghyun Park,Moo Yup Kim,Shuzo Sugita

doi:10.1074/jbc.m113.494088

Abstract

Calcium-dependent activator protein for secretion 1 (CAPS1) is a multidomain protein containing a Munc13 homology domain 1 (MHD1). Although CAPS1 and Munc13-1 play crucial roles in the priming stage of secretion, their functions are non-redundant. Similar to Munc13-1, CAPS1 binds to syntaxin-1, a key t-SNARE protein in neurosecretion. However, whether CAPS1 interacts with syntaxin-1 in a similar mode to Munc13-1 remains unclear. Here, using yeast two-hybrid assays followed by biochemical binding experiments, we show that the region in CAPS1 consisting of the C-terminal half of the MHD1 with the corresponding C-terminal region can bind to syntaxin-1. Importantly, the binding mode of CAPS1 to syntaxin-1 is distinct from that of Munc13-1; CAPS1 binds to the full-length of cytoplasmic syntaxin-1 with preference to its "open" conformation, whereas Munc13-1 binds to the first 80 N-terminal residues of syntaxin-1. Unexpectedly, the majority of the MHD1 of CAPS1 is dispensable, whereas the C-terminal 69 residues are crucial for the binding to syntaxin-1. Functionally, a C-terminal truncation of 69 or 134 residues in CAPS1 abolishes its ability to reconstitute secretion in permeabilized PC12 cells. Our results reveal a novel mode of binding between CAPS1 and syntaxin-1, which play a crucial role in neurosecretion. We suggest that the distinct binding modes between CAPS1 and Munc13-1 can account for their non-redundant functions in neurosecretion. We also propose that the preferential binding of CAPS1 to open syntaxin-1 can contribute to the stabilization of the open state of syntaxin-1 during its transition from "closed" state to the SNARE complex formation.

Highlights

Calcium-dependent activator protein for secretion 1 (CAPS1) and Munc13-1 play crucial but non-redundant roles in exocytosis
C-terminal Region of CAPS1 Binds to the Cytoplasmic Domain of Syntaxin-1 in a Distinct Mode from Munc13-1—The original interaction between the Munc13-1 C-terminal region containing the Munc13 homology domain 1 (MHD1) and syntaxin-1 N-terminal region was discovered via yeast two-hybrid screening [17]
Our results indicate that the C-terminal region of CAPS1 preferentially binds to the monomeric state of syntaxin-1 or the one complexed with SNAP-25 (t-SNARE complex) but not the SNARE complex as a whole

Summary

Background

CAPS1 and Munc play crucial but non-redundant roles in exocytosis. Results: CAPS1 binds to the full-length, cytoplasmic syntaxin with preference to its open conformation, whereas Munc binds to the N terminus of syntaxin-1. Regarding CAPS1, using liposome flotation assays, the N-terminal half of the MHD1 of CAPS1 was found to bind to syntaxin-1 SNARE motif plus the linker region preceding the transmembrane region (TMR) as well as with the SNARE complex (18 –20) These recent results of Munc and CAPS1 indicate that their binding modes to the syntaxin-1 SNARE motif and/or the SNARE complex are similar. CAPS1 and Munc play critical roles in the priming stage of secretory vesicle exocytosis, their functions are non-redundant This was demonstrated by the observation in which exocytosis deficits of CAPS1/CAPS2 double-knock-out neurons and adrenal chromaffin cells are not rescued by overexpression of Munc13-1 [13, 23]. We examine the functional importance of the C-terminal region of CAPS1 that is found to be crucial for the binding to syntaxin-1 in this study

EXPERIMENTAL PROCEDURES

RESULTS

DISCUSSION