Protein kinases reduce mitochondrial Ca2+ uptake through an action on the outer mitochondrial membrane

Abstract Cytosolic Ca 2+ signal induces mitochondrial Ca 2+ uptake that has far-reaching effect on several cellular functions. We have previously shown in H295R cells that the transfer of cytosolic Ca 2+ signal into mitochondria is attenuated by the simultaneous activation of p38 MAPK and novel-type PKC isoforms (Szanda et al. (2008) [1] , Koncz et al. (2009) [2] ). In the present study we show that (i) kinase-mediated inhibition of mitochondrial Ca 2+ uptake persists after clamping or dissipation of the mitochondrial membrane potential; (ii) kinase activation increases the [Ca 2+ ] required for half-maximal Ca 2+ uptake rate in permeabilized cells; (iii) inhibition of the Ca 2+ uptake by the kinases is dependent on an intact mitochondrial outer membrane; (iv) when p38 MAPK and novel-type PKC isoforms are activated, the outer mitochondrial membrane may limit Ca 2+ diffusion even in the low micromolar [Ca 2+ ] range. These findings confirm the concept that the outer mitochondrial membrane impedes mitochondrial Ca 2+ uptake by reducing the availability of Ca 2+ at the transport sites (i.e. the inner mitochondrial membrane), and suggest that Ca 2+ transport through the outer membrane is controlled by the activity of p38 MAPK and novel-type PKC isoforms.