The synaptic vesicle protein, cysteine-string protein, is associated with the plasma membrane in 3T3-L1 adipocytes and interacts with syntaxin 4

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The synaptic vesicle protein, cysteine-string protein, is associated with the plasma membrane in 3T3-L1 adipocytes and interacts with syntaxin 4

LH Chamberlain, ME Graham, S Kane, JL Jackson, VH Maier, RD Burgoyne and GW Gould
Division of Biochemistry and Molecular Biology, Davidson Building, University of Glasgow, Glasgow, G12 8QQ, UK. l.chamberlain@bio.gla.ac.uk

Adipocytes and muscle cells play a major role in blood glucose homeostasis. This is dependent upon the expression of Glut4, an insulin-responsive facilitative glucose transporter. Glut4 is localised to specialised intracellular vesicles that fuse with the plasma membrane in response to insulin stimulation. The insulin-induced translocation of Glut4 to the cell surface is essential for the maintenance of optimal blood glucose levels, and defects in this system are associated with insulin resistance and type II diabetes. Therefore, a major focus of recent research has been to identify and characterise proteins that regulate Glut4 translocation. Cysteine-string protein (Csp) is a secretory vesicle protein that functions in presynaptic neurotransmission and also in regulated exocytosis from non-neuronal cells. We show that Csp1 is expressed in 3T3-L1 adipocytes and that cellular levels of this protein are increased following cell differentiation. Combined fractionation and immunofluorescence analyses reveal that Csp1 is not a component of intracellular Glut4-storage vesicles (GSVs), but is associated with the adipocyte plasma membrane. This association is stable, and not affected by either insulin stimulation or chemical depalmitoylation of Csp1. We also demonstrate that Csp1 interacts with the t-SNARE syntaxin 4. As syntaxin 4 is an important mediator of insulin-stimulated GSV fusion with the plasma membrane, this suggests that Csp1 may play a regulatory role in this process. Syntaxin 4 interacts specifically with Csp1, but not with Csp2. In contrast, syntaxin 1A binds to both Csp isoforms, and actually exhibits a higher affinity for the Csp2 protein. The results described raise a number of interesting questions concerning the intracellular targeting of Csp in different cell types, and suggest that the composition and synthesis of GSVs may be different from synaptic and other secretory vesicles. In addition, the interaction of Csp1 with syntaxin 4 suggests that this Csp isoform may play a role in insulin-stimulated fusion of GSVs with the plasma membrane.

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				J. Greaves and L. H. Chamberlain Dual Role of the Cysteine-String Domain in Membrane Binding and Palmitoylation-dependent Sorting of the Molecular Chaperone Cysteine-String Protein Mol. Biol. Cell, November 1, 2006; 17(11): 4748 - 4759. [Abstract] [Full Text] [PDF]

				G. J. O. Evans, J. W. Barclay, G. R. Prescott, S.-R. Jo, R. D. Burgoyne, M. J. Birnbaum, and A. Morgan Protein Kinase B/Akt Is a Novel Cysteine String Protein Kinase That Regulates Exocytosis Release Kinetics and Quantal Size J. Biol. Chem., January 20, 2006; 281(3): 1564 - 1572. [Abstract] [Full Text] [PDF]

				C. Salaun, G. W. Gould, and L. H. Chamberlain The SNARE Proteins SNAP-25 and SNAP-23 Display Different Affinities for Lipid Rafts in PC12 Cells: REGULATION BY DISTINCT CYSTEINE-RICH DOMAINS J. Biol. Chem., January 14, 2005; 280(2): 1236 - 1240. [Abstract] [Full Text] [PDF]

				L. H. Chamberlain and G. W. Gould The Vesicle- and Target-SNARE Proteins That Mediate Glut4 Vesicle Fusion Are Localized in Detergent-insoluble Lipid Rafts Present on Distinct Intracellular Membranes J. Biol. Chem., December 13, 2002; 277(51): 49750 - 49754. [Abstract] [Full Text] [PDF]

				G. J. O. Evans, M. C. Wilkinson, M. E. Graham, K. M. Turner, L. H. Chamberlain, R. D. Burgoyne, and A. Morgan Phosphorylation of Cysteine String Protein by Protein Kinase A. IMPLICATIONS FOR THE MODULATION OF EXOCYTOSIS J. Biol. Chem., December 14, 2001; 276(51): 47877 - 47885. [Abstract] [Full Text] [PDF]