Effects of sulfonylureas on K(ATP) channel-dependent vasodilation

Sulfonylureas are widely prescribed for the treatment of type 2 diabetes. Their therapeutic efficacy resides in the ability to bind to sulfonylurea receptors (SURs) present on the beta-cell plasma membrane, to close the ATP-regulated potassium (K(ATP)) channel, and thereby to enhance glucose-stimulated insulin secretion. These receptors are also found in a wide variety of extra-pancreatic tissues such as brain, peripheral nerves, heart, and vascular smooth muscle where they contribute to the regulation of the vascular tone. The objective of the present study was to determine the potency of three sulfonylureas, glibenclamide, gliclazide, and glimepiride, in antagonizing the vasorelaxant action of diazoxide, an ATP-regulated K(+) channel (K(ATP)) opener, in vivo, using the hamster cheek pouch preparation and evaluating the changes in mean internal diameter and blood flow of arterioles and venules. Cheek pouches of anesthetized male hamsters superfused with a HEPES-supported HCO(3)(-)-buffered saline solution were placed under an intravital microscope coupled to a closed-circuit TV system. All substances were applied topically. Mean arteriolar and venular internal diameters using an image shearing device, red blood cell (RBC) velocity by the dual-slit photometric technique and microvessel volume flow was calculated from diameters and RBC velocities. The numbers are given in order, first diameter and then flow, always for the highest concentration of diazoxide tested, by itself or in combination with a given sulfonylurea: (1) diazoxide, used in doses of 0.01, 1, and 100 microM, elicited a dose-dependent dilation and flow increase in arterioles [increase of 52.1% (P