The High-Affinity Sulphonylurea Receptor Regulates KATP Channels in Nerve Terminals of the Rat Motor Cortex

Abstract: The coexpression of sulphonylurea binding sites and ATP-sensitive K⁺ (K_ATP) channels was examined in the rat motor cortex, an area of the CNS exhibiting a high density of sulphonylurea binding. These channels were not detected on neuronal cell bodies, but sulphonylurea-sensitive K_ATP channels and charybdotoxin-sensitive, large-conductance calcium-activated K⁺ BK_Ca channels were detected by patch clamping of fused nerve terminals from the motor cortex. Subcellular fractionation revealed that high-affinity sulphonylurea binding sites were enriched in the nerve terminal fraction, whereas glibenclamide increased calcium-independent glutamate efflux from isolated nerve terminals. It is concluded that neuronal sulphonylurea receptors and K_ATP channels are functionally linked in the motor cortex and that they are both selectively expressed in nerve terminals, where the K_ATP channel may serve to limit glutamate release under conditions of metabolic stress.