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MitoBKCa channel is functionally associated with its regulatory β1 subunit in cardiac mitochondria.

Enrique BalderasNatalia S TorresManuel Rosa-GarridoDipayan ChaudhuriLigia ToroEnrico StefaniRiccardo Olcese
Published in: The Journal of physiology (2019)
Association of the plasma membrane BKCa channel with auxiliary BK-β1-4 subunits profoundly affects the regulatory mechanisms and physiological processes in which this channel participates. However, functional association of mitochondrial BK (mitoBKCa ) with regulatory subunits is unknown. We report that mitoBKCa functionally associates with its regulatory subunit BK-β1 in adult rodent cardiomyocytes. Cardiac mitoBKCa is a calcium- and voltage-activated channel that is sensitive to paxilline with a large conductance for K+ of 300 pS. Additionally, mitoBKCa displays a high open probability (Po ) and voltage half-activation (V1/2  = -55 mV, n = 7) resembling that of plasma membrane BKCa when associated with its regulatory BK-β1 subunit. Immunochemistry assays demonstrated an interaction between mitochondrial BKCa -α and its BK-β1 subunit. Mitochondria from the BK-β1 knockout (KO) mice showed sparse mitoBKCa currents (five patches with mitoBKCa activity out of 28 total patches from n = 5 different hearts), displaying a depolarized V1/2 of activation (+47 mV in 12 µm matrix Ca2+ ). The reduced activity of mitoBKCa was accompanied by a high expression of BKCa transcript in the BK-β1 KO, suggesting a lower abundance of mitoBKCa channels in this genotype. Accordingly, BK-β1subunit increased the localization of BKDEC (i.e. the splice variant of BKCa that specifically targets mitochondria) into mitochondria by two-fold. Importantly, both paxilline-treated and BK-β1 KO mitochondria displayed a more rapid Ca2+ overload, featuring an early opening of the mitochondrial transition pore. We provide strong evidence that mitoBKCa associates with its regulatory BK-β1 subunit in cardiac mitochondria, ensuring proper targeting and activation of the mitoBKCa channel that helps to maintain mitochondrial Ca2+ homeostasis.
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