Comparative effects of linogliride fumarate and tolbutamide sodium on insulin secretion and glucose utilization in rat pancreatic islets

The effects of linogliride fumarate (0.1 mmol/liter) and tolbutamide sodium (0.5 mmol/liter) on insulin secretion and glucose utilzation were directly compared in isolated perifused rat islets. Both compounds potentiated glucose‐primed (5.5 mmol/liter) insulin release. The insulin secretory response at the concentration chosen was qualitatively different for the two agents. In the presence of glucose, the insulin secretory effect of tolbutamide was biphasic, whereas linoglirde predominantly increased second‐phase insulin secretion. In the absence of exogenous glucos, tolbutamide stimulated first‐phase insulin release wherease linogliride was ineffective without glucose in the perifusion medium. Neither linogliride (0.1 mmol/liter) nor tolbutamide (0.5 mmol/liter) stimulated islet cell glucose usage as measured by conversion of [5− 3 H]‐glucose to 3 H 2 O. The insulin secretagogue effect of linogliride was completely abolished when islet cell glucose usage was partially blocked (22% reduction) by mannoheptulose (MH) (10 mmol/liter). When glucose usage was significantly inhibited (55%) by 2‐deoxyglucose (2DG) (10 mmol/liter), linogliride‐stimulated insulin secretion was not significantly reduced. In contrast, tolbutamide‐stimulated first‐phase insulin release was not inhibited when glucose usage was reduced by either MH or 2‐DG, wherease secondphase insulin release was significantly inhibited. In summary, linogliride potentiates insulin secretion in isolated islets by a glucose‐dependent process, but with a kinetic profile and response to metabolic inhibitors different from that of tolbutamide.