The elevation of glutamate content and the amplification of insulin secretion in glucose-stimulated pancreatic islets are not causally related.

Glucose increases insulin secretion by raising cytoplasmic Ca(2+) ([Ca(2+)](i)) in beta-cells (triggering pathway) and augmenting the efficacy of Ca(2+) on exocytosis (amplifying pathway). It has been suggested that glutamate formed from alpha-ketoglutarate is a messenger of the amplifying pathway (Maechler, P., and Wollheim, C. B. (1999) Nature 402, 685-689). This hypothesis was tested with mouse islets depolarized with 30 mm KCl (+ diazoxide) or with a saturating concentration of sulfonylurea. Because [Ca(2+)](i) was elevated under these conditions, insulin secretion was stimulated already in 0 mm glucose. The amplification of secretion produced by glucose was accompanied by an increase in islet glutamate. However, glutamine (0.5-2 mm) markedly augmented islet glutamate without affecting insulin secretion, whereas glucose augmented secretion without influencing glutamate levels when these were elevated by glutamine. Allosteric activation of glutamate dehydrogenase by BCH (2-amino 2-norbornane carboxylic acid) lowered islet glutamate but increased insulin secretion. Similar insulin secretion thus occurred at very different cellular glutamate levels. Glutamine did not affect islet [Ca(2+)](i) and pH(i), whereas glucose and BCH slightly raised pH(i) and either slightly decreased (30 mm KCl) or increased (tolbutamide) [Ca(2+)](i). The general dissociation between changes in islet glutamate and insulin secretion refutes a role of beta-cell glutamate in the amplification of insulin secretion by glucose.