1. Abrogating Munc18-1-SNARE Complex Interaction Has Limited Impact on Exocytosis in PC12 Cells
- Author
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Shuzo Sugita, Frederic A. Meunier, Brett M. Collins, Tam H. Nguyen, Peter J. Wen, Liping Han, Catherine F. Latham, Siew Joo Tiffany Lim, Shona L. Osborne, and Nancy T. Malintan
- Subjects
Vesicle fusion ,Amino Acid Motifs ,Molecular Sequence Data ,Molecular Conformation ,Biology ,Models, Biological ,PC12 Cells ,Biochemistry ,Exocytosis ,Molecular Basis of Cell and Developmental Biology ,Munc18 Proteins ,Animals ,Syntaxin ,Amino Acid Sequence ,Molecular Biology ,Qa-SNARE Proteins ,STX1A ,SNAP25 ,Lipid bilayer fusion ,Munc-18 ,Cell Biology ,Recombinant Proteins ,Protein Structure, Tertiary ,Rats ,Cell biology ,Calcium ,SNARE Proteins ,SNARE complex - Abstract
Neuronal communication relies on the fusion of neurotransmitter-containing vesicles with the plasma membrane. The soluble N-ethylmaleimide-sensitive fusion protein attachment protein receptor (SNARE) proteins initiate membrane fusion through the formation of the SNARE complex, a process tightly regulated by Sec1/Munc18-1 (SM) proteins. The emerging trend is that SM proteins promote SNARE-mediated membrane fusion by binding to a Syntaxin N-terminal motif. Here we report that mutations in the hydrophobic pocket of Munc18-1 (F115E and E132A), predicted to disrupt the N-terminal Sx1a interaction have a modest effect on binding to Sx1a in its free state, but abolish binding to the SNARE complex. Overexpression of the Munc18-1 mutant in PC12 cells lacking Munc18-1 rescues both neuroexocytosis and the plasma membrane localization of Syntaxin. However, total internal reflection fluorescence microscopy analysis reveals that expression of a Munc18-1 double mutant reduces the rate of vesicle fusion, an effect only detectable at the onset of stimulation. The Munc18-1 hydrophobic pocket is therefore critical for SNARE complex binding. However, mutations abrogating this interaction have a limited impact on Ca(2+)-dependent exocytosis in PC12 cells.
- Published
- 2009
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