The insulin-like effect of sodium vanadate on adipocyte glucose transport is mediated at a post-insulin-receptor level.

Sodium vanadate has several insulin-like effects. To determine whether vanadate acts via the insulin receptor, I investigated the effect of vanadate on glucose transport (2-deoxyglucose uptake) in adipocytes that had been treated to decrease the number of insulin receptors. Trypsin (100 micrograms/ml) caused greater than 95% loss of 125I-insulin binding and rendered glucose transport resistant to both insulin and an anti-insulin-receptor antibody. However, vanadate caused an 8-fold increase in the transport rate [EC50 (concn. giving 50% of maximum effect) 0.2 mM] in both control and trypsin-treated cells, demonstrating that the insulin receptor does not have to be intact for vanadate to stimulate glucose transport. Insulin receptors were depleted by treatment of adipocytes with insulin (100 ng/ml) in the presence of Tris (which blocks receptor recycling). A 2 h treatment caused 60% loss of receptors, and a shift to the right in the dose-response curve for insulin stimulation of glucose transport (EC50 0.3 ng of insulin/ml in controls, 1.2 ng/ml in treated cells). The response to vanadate was again unaffected. Treatment with insulin for 4 h caused a 67% decrease in insulin binding and, in addition to the rightward shift in the insulin dose-response curve, a decrease in basal and maximal transport rates (which cannot be explained by decreased insulin receptor number). The EC50 of vanadate was again equal in control and treated cells, but glucose transport in the presence of a maximally effective concentration of vanadate (1 mM) was decreased. I conclude that the effect of vanadate on glucose transport is independent of the insulin receptor. Induction of a post-receptor defect (which may be a decrease in the total number of cellular glucose transporters) by prolonged exposure to insulin decreases the potency of a maximally effective concentration of vanadate. The findings demonstrate that vanadate stimulates glucose transport by an effect at a level distal to the insulin receptor.