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Abstract
Insulin increases cellular glucose uptake and metabolism in the postprandial state by acutely stimulating the translocation of the Glut4 glucose transporter from intracellular membrane compartments to the cell surface in muscle and fat cells. The intracellular targeting of Glut4 is dictated by specific structural motifs within cytoplasmic domains of the transporter. We demonstrate that two leucine residues at the extreme C-terminus of Glut4 are critical components of a motif (IRM, insulin responsive motif) involved in the sorting of the transporter to insulin responsive vesicles in 3T3L1 adipocytes. Light microscopy, immunogold electron microscopy, subcellular fractionation, and sedimentation analysis indicate that mutations in the IRM cause the aberrant targeting of Glut4 to large dispersed membrane vesicles that are not insulin responsive. Proteomic characterization of rapidly and slowly sedimenting membrane vesicles (RSVs and SSVs) that were highly enriched by immunoadsorption for either wild-type Glut4 or an IRM mutant revealed that the major vesicle fraction containing the mutant transporter (IRM-RSVs) possessed a relatively small and highly distinct protein population that was enriched for proteins associated with stress granules. We suggest that the IRM is critical for an early step in the sorting of Glut4 to insulin-responsive subcellular membrane compartments and that IRM mutants are miss-targeted to relatively large, amorphous membrane vesicles that may be involved in a degradation pathway for miss-targeted or miss-folded proteins or represent a transitional membrane compartment that Glut4 traverses en route to insulin responsive storage compartments.
Highlights
The rapid rise in circulating insulin levels after the ingestion of a carbohydrate-containing meal stimulates glucose transport into fat and muscle cells by causing the acute redistribution of the Glut4 glucose transporter from intracellular membrane storage compartments to the cell surface [1,2,3,4,5]
We previously noted the presence of sequence similarity between the extreme cytoplasmic C- terminal tail of Glut4 and a region within the amino terminus of the insulin responsive amino peptidase (IRAP), two membrane proteins that appear to share a major portion of their intracellular trafficking pathways in adipocytes
We have previously demonstrated that wild type Glut4 targets indistinguishably whether it is tagged at its carboxyl-terminus with GFP or RFP, and that the tagged fusion proteins target very to endogenous IRAP in 3T3L1 adipocytes [34]
Summary
The rapid rise in circulating insulin levels after the ingestion of a carbohydrate-containing meal stimulates glucose transport into fat and muscle cells by causing the acute redistribution of the Glut glucose transporter from intracellular membrane storage compartments to the cell surface [1,2,3,4,5]. A defect in the ability of Glut in muscle and fat cells to appropriately translocate to the cell surface in response to elevated circulating insulin levels is the proximal cause of peripheral insulin resistance [6,7], a pathological state that is associated with obesity, metabolic syndrome, and type 2 diabetes mellitus [8,9,10,11]. There is disagreement as to whether Glut recycles through the plasma membrane in the absence of insulin, and the extent to which recycling occurs may be dependent on the specific experimental conditions used, at least in 3T3-L1 adipocytes [14,21,22]
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