IARC, a Novel Arachidonate-regulated, Noncapacitative Ca2+ Entry Channel

Abstract

Along with the inositol trisphosphate-induced release of stored Ca(2+), a receptor-enhanced entry of Ca(2+) is a critical component of intracellular Ca(2+) signals generated by agonists acting at receptors coupled to the activation of phospholipase C. Although the simple emptying of the intracellular Ca(2+) stores is known to be capable of activating Ca(2+) entry via the so-called "capacitative" mechanism, recent evidence suggests that Ca(2+) entry at physiological agonist concentrations, where oscillatory Ca(2+) signals are typically observed, does not conform to such a model. Instead, a noncapacitative Ca(2+) entry pathway regulated by arachidonic acid appears to be responsible for Ca(2+) entry under these conditions. Using whole-cell patch clamp techniques we demonstrate that low concentrations of arachidonic acid activate a Ca(2+)-selective current that is superficially similar to the store-operated current I(CRAC), but which also demonstrates certain distinct features. We have named this novel current I(ARC) (for arachidonate-regulated calcium current). Importantly, I(ARC) can be readily activated in cells whose Ca(2+) stores have been maximally depleted. I(ARC) represents a novel Ca(2+) entry pathway that is entirely separate from those activated by store depletion and is specifically activated at physiological levels of stimulation.