The effects of d- and l-glyceraldehyde on glucose oxidation, insulin secretion and insulin biosynthesis by pancreatic islets of the rat

d-glyceraldehyde stimulated insulin secretion from isolated rat pancreatic islets in static incubation and perifusion systems. At low concentrations (2–4 mM) d-glyceraldehyde was a more potent secretagogue than glucose. The insulinotropic action of 15 mM d-glyceraldehyde was not affected by d-mannoheptulose, was potentiated by cytochalasin B (5 μg/ml) and theophylline (4 mM), and was inhibited by both adrenalin (2 μM) and somatostatin (10 μg/ml). D-glyceraldehyde at a concentration of 1.5 mM produced a 10-fold increase of l-4,5-³ H]leucine incorporation into proinsulin and insulin without a significant increase into other islet proteins. Glucose at 1.5 mM did not stimulate proinsulin biosynthesis. d-Glyceraldehyde at concentrations higher than 1.5 mM, in marked contrast to glucose, progressively inhibited incorporation of labelled leucine into proinsulin + insulin and other islet proteins. d-glyceraldehyde also inhibited the oxidation of glucose. l-Glyceraldehyde did not stimulate proinsulin biosynthesis and had less effect than the d-isomer on insulin release and glucose oxidation. The results strongly suggest that metabolites below d-glyceraldehyde-3-P are signals for insulin biosynthesisand release. Interaction of d-glyceraldehyde with a “membrane receptor” cannot, however, be excluded with certainty.