Compartmentalization of protein traffic in insulin-sensitive cells

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Compartmentalization of protein traffic in insulin-sensitive cells

K. V. Kandror and P. F. Pilch
Boston University Medical School, Massachusetts 02118, USA.

Insulin-sensitive cells, adipocytes and myocytes, translocate a number of intracellular proteins to the cell surface in response to insulin. Among these proteins are glucose transporters 1 and 4 (GLUT-1 and GLUT-4, respectively), receptors for insulin-like growth factor II (IGF-II)/mannose 6-phosphate (Man-6-P) and transferrin, the aminopeptidase gp 160, caveolin, and a few others. In the case of insulin-activated glucose transport, this translocation has been proven to be the major, if not the only regulatory mechanism of this process. It seems likely that the cell surface recruitment of the IGF-II/Man-6-P and transferrin receptors also serves the nutritional needs of cells, whereas the physiological role of the aminopeptidase gp160 remains uncertain. Analysis of the compartmentalization and trafficking pathways of translocatable proteins in fat cells identified more than one population of recycling vesicles, although all have identical sedimentation coefficients and buoyant densities in vitro. GLUT-4-containing vesicles include essentially all the intracellular GLUT-4, gp160, and the acutely recycling populations of receptors for IGF-II/Man-6-P and transferrin. Besides these proteins, which can be considered as vesicle "cargo", GLUT-4-containing vesicles have other components, like secretory carrier-associated membrane proteins (SCAMP), Rab(s), and vesicle-associated membrane protein (VAMP)/cellubrevin, which are ubiquitous to secretory vesicles and granules from different tissues. GLUT-1 and caveolin are excluded from GLUT-4-containing vesicles and form different vesicular populations of unknown polypeptide composition. In skeletal muscle, two independent populations of GLUT-4-containing vesicles are found, insulin sensitive and exercise sensitive, which explains the additive effect of insulin and exercise on glucose uptake. Both vesicular populations are similar to each other and to analogous vesicles in fat cells.

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				P. C. Geiger, D. H. Han, D. C. Wright, and J. O. Holloszy How muscle insulin sensitivity is regulated: testing of a hypothesis Am J Physiol Endocrinol Metab, December 1, 2006; 291(6): E1258 - E1263. [Abstract] [Full Text] [PDF]

				J. O. Holloszy Exercise-induced increase in muscle insulin sensitivity J Appl Physiol, July 1, 2005; 99(1): 338 - 343. [Abstract] [Full Text] [PDF]

				C. Roh, J. Han, A. Tzatsos, and K. V. Kandror Nutrient-sensing mTOR-mediated pathway regulates leptin production in isolated rat adipocytes Am J Physiol Endocrinol Metab, February 1, 2003; 284(2): E322 - E330. [Abstract] [Full Text] [PDF]

				L. L. Tortorella and P. F. Pilch C2C12 myocytes lack an insulin-responsive vesicular compartment despite dexamethasone-induced GLUT4 expression Am J Physiol Endocrinol Metab, September 1, 2002; 283(3): E514 - E524. [Abstract] [Full Text] [PDF]

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				T. Imamura, J. Huang, S. Dalle, S. Ugi, I. Usui, L. M. Luttrell, W. E. Miller, R. J. Lefkowitz, and J. M. Olefsky beta -Arrestin-mediated Recruitment of the Src Family Kinase Yes Mediates Endothelin-1-stimulated Glucose Transport J. Biol. Chem., November 16, 2001; 276(47): 43663 - 43667. [Abstract] [Full Text] [PDF]

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				C. Roh, G. Thoidis, S. R. Farmer, and K. V. Kandror Identification and characterization of leptin-containing intracellular compartment in rat adipose cells Am J Physiol Endocrinol Metab, October 1, 2000; 279(4): E893 - E899. [Abstract] [Full Text] [PDF]

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				M. Kawanishi, Y. Tamori, H. Okazawa, S. Araki, H. Shinoda, and M. Kasuga Role of SNAP23 in Insulin-induced Translocation of GLUT4 in 3T3-L1 Adipocytes. MEDIATION OF COMPLEX FORMATION BETWEEN SYNTAXIN4 AND VAMP2 J. Biol. Chem., March 10, 2000; 275(11): 8240 - 8247. [Abstract] [Full Text] [PDF]

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				M. Hashiramoto and D. E. James Characterization of Insulin-Responsive GLUT4 Storage Vesicles Isolated from 3T3-L1 Adipocytes Mol. Cell. Biol., January 1, 2000; 20(1): 416 - 427. [Abstract] [Full Text]

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				K. V. Kandror Insulin Regulation of Protein Traffic in Rat Adipose Cells J. Biol. Chem., September 3, 1999; 274(36): 25210 - 25217. [Abstract] [Full Text] [PDF]

				P. R. Shepherd and B. B. Kahn Glucose Transporters and Insulin Action -- Implications for Insulin Resistance and Diabetes Mellitus N. Engl. J. Med., July 22, 1999; 341(4): 248 - 257. [Full Text] [PDF]

				D. Chen, R. V. Fucini, A. L. Olson, B. A. Hemmings, and J. E. Pessin Osmotic Shock Inhibits Insulin Signaling by Maintaining Akt/Protein Kinase B in an Inactive Dephosphorylated State Mol. Cell. Biol., July 1, 1999; 19(7): 4684 - 4694. [Abstract] [Full Text] [PDF]

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Compartmentalization of protein traffic in insulin-sensitive cells

				G. Thoidis, T. Kupriyanova, J. M. Cunningham, P. Chen, S. Cadel, T. Foulon, P. Cohen, R. E. Fine, and K. V. Kandror Glucose Transporter Glut3 Is Targeted to Secretory Vesicles in Neurons and PC12 Cells J. Biol. Chem., May 14, 1999; 274(20): 14062 - 14066. [Abstract] [Full Text] [PDF]

				A. K. El-Jack, K. V. Kandror, and P. F. Pilch The Formation of an Insulin-responsive Vesicular Cargo Compartment Is an Early Event in 3T3-L1 Adipocyte Differentiation Mol. Biol. Cell, May 1, 1999; 10(5): 1581 - 1594. [Abstract] [Full Text]

				A. K. El-Jack, J. K. Hamm, P. F. Pilch, and S. R. Farmer Reconstitution of Insulin-sensitive Glucose Transport in Fibroblasts Requires Expression of Both PPARgamma and C/EBPalpha J. Biol. Chem., March 19, 1999; 274(12): 7946 - 7951. [Abstract] [Full Text] [PDF]

				B. A. Marshall, P. A. Hansen, N. J. Ensor, M. A. Ogden, and M. Mueckler GLUT-1 or GLUT-4 transgenes in obese mice improve glucose tolerance but do not prevent insulin resistance Am J Physiol Endocrinol Metab, February 1, 1999; 276(2): E390 - E400. [Abstract] [Full Text] [PDF]

				J. E. Pessin, D. C. Thurmond, J. S. Elmendorf, K. J. Coker, and S. Okada Molecular Basis of Insulin-stimulated GLUT4 Vesicle Trafficking. LOCATION! LOCATION! LOCATION! J. Biol. Chem., January 29, 1999; 274(5): 2593 - 2596. [Full Text] [PDF]

				T. A. Kupriyanova and K. V. Kandror Akt-2 Binds to Glut4-containing Vesicles and Phosphorylates Their Component Proteins in Response to Insulin J. Biol. Chem., January 15, 1999; 274(3): 1458 - 1464. [Abstract] [Full Text] [PDF]

				D. C. Thurmond, B. P. Ceresa, S. Okada, J. S. Elmendorf, K. Coker, and J. E. Pessin Regulation of Insulin-stimulated GLUT4 Translocation by Munc18c in 3T3L1 Adipocytes J. Biol. Chem., December 11, 1998; 273(50): 33876 - 33883. [Abstract] [Full Text] [PDF]

				T. Imanaka, H. Hayashi, K. Kishi, L. Wang, K. Ishii, O. Hazeki, T. Katada, and Y. Ebina Reconstitution of Insulin Signaling Pathways in Rat 3Y1 Cells Lacking Insulin Receptor and Insulin Receptor Substrate-1. EVIDENCE THAT ACTIVATION OF Akt IS INSUFFICIENT FOR INSULIN-STIMULATED GLYCOGEN SYNTHESIS OR GLUCOSE UPTAKE IN RAT 3Y1 CELLS J. Biol. Chem., September 25, 1998; 273(39): 25347 - 25355. [Abstract] [Full Text] [PDF]

				B. Lin, S. Coughlin, and P. F. Pilch Bidirectional regulation of uncoupling protein-3 and GLUT-4 mRNA in skeletal muscle by cold Am J Physiol Endocrinol Metab, September 1, 1998; 275(3): E386 - E391. [Abstract] [Full Text] [PDF]

				L. D. Shrode, B. S. Gan, S. J.�A. D'Souza, J. Orlowski, and S. Grinstein Topological analysis of NHE1, the ubiquitous Na+/H+ exchanger using chymotryptic cleavage Am J Physiol Cell Physiol, August 1, 1998; 275(2): C431 - C439. [Abstract] [Full Text] [PDF]