Abstract
KATP channels play critical roles in many cellular functions by coupling cell metabolic status to electrical activity. First discovered in cardiomyocytes 1, KATP channels (comprised of Kir6.x and SUR subunits) have since been found in many other tissues, including pancreatic beta cells, skeletal muscle, smooth muscle, brain, pituitary, and kidney. By linking cellular metabolic state with membrane potential, KATP channels are able to regulate a number of cellular functions such as hormone secretion, vascular tone, and excitability. Specifically, a reduction in metabolism causes a decrease in the ATP:ADP ratio, opening of KATP channels and allowing K+ efflux, membrane hyperpolarization, and suppression of electrical activity. Conversely, increased cellular metabolism causes a decrease in the ATP:ADP ratio that leads to closure of the KATP channel, membrane depolarization, and stimulation of cell electrical activity.
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