Molecular Mechanisms Controlling GLUT4 Intracellular Retention

Vincent Blot, and Timothy E. McGraw

Department of Biochemistry, Weill Cornell Medical College, New York, NY 10065

Submitted March 5, 2008; Revised May 12, 2008; Accepted June 4, 2008
Monitoring Editor: Sandra Lemmon

In basal adipocytes, glucose transporter 4 (GLUT4) is sequesteredintracellularly by an insulin-reversible retention mechanism.Here, we analyze the roles of three GLUT4 trafficking motifs(FQQI, TELEY, and LL), providing molecular links between insulinsignaling, cellular trafficking machinery, and the motifs inthe specialized trafficking of GLUT4. Our results support aGLUT4 retention model that involves two linked intracellularcycles: one between endosomes and a retention compartment, andthe other between endosomes and specialized GLUT4 transportvesicles. Targeting of GLUT4 to the former is dependent on theFQQI motif and its targeting to the latter is dependent on theTELEY motif. These two motifs act independently in retention,with the TELEY-dependent step being under the control of signalingdownstream of the AS160 rab GTPase activating protein. Segregationof GLUT4 from endosomes, although positively correlated withthe degree of basal retention, does not completely account forGLUT4 retention or insulin-responsiveness. Mutation of the LLmotif slows return to basal intracellular retention after insulinwithdrawal. Knockdown of clathrin adaptin protein complex-1(AP-1) causes a delay in the return to intracellular retentionafter insulin withdrawal. The effects of mutating the LL motifand knockdown of AP-1 were not additive, establishing that AP-1regulation of GLUT4 trafficking requires the LL motif.

This was published online ahead of print in MBC in Press(http://www.molbiolcell.org/cgi/doi/10.1091/mbc.E08-03-0236)on June 11, 2006.

Address correspondence to: Timothy E. McGraw (temcgraw{at}med.cornell.edu).