Serine hydrolase inhibitors block necrotic cell death by preventing calcium overload of the mitochondria and permeability transition pore formation (756.2)

Abstract

Perturbation of calcium signaling occurs during cell injury and disease and promotes cell death. In mouse lung fibroblasts A23187 triggered mitochondrial permeability transition pore (MPTP) formation, necrotic cell death and LDH release that were blocked by cyclosporin A (CsA) and EGTA. LDH release temporally correlated with arachidonic acid release but did not involve cytosolic phospholipase A2 (cPLA2) or calcium independent PLA2. Surprisingly, release of arachidonic acid and LDH from cPLA2‐deficient fibroblasts was inhibited by the cPLA2 inhibitor pyrrophenone, and another serine hydrolase inhibitor KT195, by preventing mitochondrial calcium loading. Inhibitors of calmodulin‐dependent protein kinase II, a mitochondrial Ca2+ uniporter (MCU) regulator, also prevented MPTP formation and arachidonic acid release induced by A23187 and by H2O2. Pyrrophenone blocked MCU‐mediated mitochondrial calcium uptake in permeabilized fibroblasts but not in isolated mitochondria. Unlike pyrrophenone, the diacylglycerol analogue 1‐oleoyl‐2‐acetyl‐sn‐glycerol (OAG) and CsA blocked cell death and arachidonic acid release not by preventing mitochondrial calcium loading but by inhibiting MPTP formation. In fibroblasts stimulated with thapsigargin, which induces MPTP formation by a direct effect on mitochondria, LDH and arachidonic acid release were blocked by CsA and OAG but not by pyrrophenone or EGTA. Therefore serine hydrolase inhibitors prevent necrotic cell death by blocking mitochondrial calcium uptake but not fatty acid release that occurs by a novel pathway during MPTP formation. This work reveals the potential for development of small molecule cell permeable serine hydrolase inhibitors that block MCU‐mediated mitochondrial calcium overload, MPTP formation and necrotic cell death.Grant Funding Source: NIH HL34303, HL61378, HL50040, DA009789, DA033760, MH084512