Protection against cardiac injury by small Ca2 +-sensitive K+ channels identified in guinea pig cardiac inner mitochondrial membrane

We tested if small conductance, Ca^2 +‐sensitive K⁺ channels (SK_Ca) precondition hearts against ischemia reperfusion (IR) injury by improving mitochondrial (m) bioenergetics, if O₂‐derived free radicals are required to initiate protection via SK_Ca channels, and, importantly, if SK_Ca channels are present in cardiac cell inner mitochondrial membrane (IMM). NADH and FAD, superoxide (O₂^?), and m[Ca^2 +] were measured in guinea pig isolated hearts by fluorescence spectrophotometry. SK_Ca and IK_Ca channel opener DCEBIO (DCEB) was given for 10 min and ended 20 min before IR. Either TBAP, a dismutator of O₂^?, NS8593, an antagonist of SK_Ca isoforms, or other K_Ca and K_ATP channel antagonists, were given before DCEB and before ischemia. DCEB treatment resulted in a 2-fold increase in LV pressure on reperfusion and a 2.5 fold decrease in infarct size vs. non-treated hearts associated with reduced O₂^? and m[Ca^2 +], and more normalized NADH and FAD during IR. Only NS8593 and TBAP antagonized protection by DCEB. Localization of SK_Ca channels to mitochondria and IMM was evidenced by a) identification of purified mSK_Ca protein by Western blotting, immuno-histochemical staining, confocal microscopy, and immuno-gold electron microscopy, b) 2-D gel electrophoresis and mass spectroscopy of IMM protein, c) [Ca^2 +]‐dependence of mSK_Ca channels in planar lipid bilayers, and d) matrix K⁺ influx induced by DCEB and blocked by SK_Ca antagonist UCL1684. This study shows that 1) SK_Ca channels are located and functional in IMM, 2) mSK_Ca channel opening by DCEB leads to protection that is O₂^? dependent, and 3) protection by DCEB is evident beginning during ischemia.