The effects of vitamin A on insulin release and glucose oxidation in isolated rat islets.

We tested the effects of vitamin A, a membrane surface-active agent, on glucose (16.7 mM)-induced biphasic insulin release from collagenase-isolated rat islets. Also, efforts were made to correlate the effects of vitamin A with glucose oxidation. Vitamin A (10(-4) M) inhibited first- and second phase insulin release; 10(-5) M vitamin A inhibited second phase release only and to a lesser extent than that observed with 10(-4) M vitamin A; and 10(-6) M vitamin A had no effect. Vitamin A (10(-7) M) stimulated biphasic insulin release. Exposure to high glucose (27.8 mM) overcame the effects of 10(-4) M vitamin A on first phase release, but not on second phase release of insulin. Exposure to 10(-5) M hydrocortisone opposed the effects of 10(-4) M vitamin A on both phases of insulin release. Vitamin A (10(-4) and 10(-5) M) inhibited glucose oxidation by islets, as measured by the production of 14CO2 from [14C]glucose. The effects of vitamin A on insulin release were dissociated in part from those effects on glucose oxidation, in that hydrocortisone opposed the effect of vitamin A on insulin release but not on glucose oxidation. The effects of vitamin A on insulin secretion can best be explained by the interaction of vitamin A at multiple sites affecting the membrane and intracellular glucose oxidation.