Abstract
We have investigated the effects of arachidonic and palmitic acids in isolated rat liver mitochondria and in rat hepatoma MH1C1 cells. We show that both compounds induce the mitochondrial permeability transition (PT). At variance from palmitic acid, however, arachidonic acid causes a PT at concentrations that do not cause PT-independent depolarization or respiratory inhibition, suggesting a specific effect on the PT pore. When added to intact MH1C1 cells, arachidonic acid but not palmitic acid caused a mitochondrial PT in situ that was accompanied by cytochrome c release and rapidly followed by cell death. All these effects of arachidonic acid could be prevented by cyclosporin A but not by the phospholipase A(2) inhibitor aristolochic acid. In contrast, tumor necrosis factor alpha caused phospholipid hydrolysis, induction of the PT, cytochrome c release, and cell death that could be inhibited by both cyclosporin A and aristolochic acid. These findings suggest that arachidonic acid produced by cytosolic phospholipase A(2) may be a mediator of tumor necrosis factor alpha cytotoxicity in situ through induction of the mitochondrial PT.
Highlights
We have investigated the effects of arachidonic and palmitic acids in isolated rat liver mitochondria and in rat hepatoma MH1C1 cells
These findings suggest that arachidonic acid produced by cytosolic phospholipase A2 may be a mediator of tumor necrosis factor ␣ cytotoxicity in situ through induction of the mitochondrial permeability transition (PT)
We show that AA is a powerful PT inducer that mimics the mitochondrial effects of TNF␣ in MH1C1 cells and that AA generated by PLA2 activation plays a role in apoptotic signaling through the mitochondrial pathway
Summary
We have investigated the effects of arachidonic and palmitic acids in isolated rat liver mitochondria and in rat hepatoma MH1C1 cells We show that both compounds induce the mitochondrial permeability transition (PT). When added to intact MH1C1 cells, arachidonic acid but not palmitic acid caused a mitochondrial PT in situ that was accompanied by cytochrome c release and rapidly followed by cell death All these effects of arachidonic acid could be prevented by cyclosporin A but not by the phospholipase A2 inhibitor aristolochic acid. Tumor necrosis factor ␣ caused phospholipid hydrolysis, induction of the PT, cytochrome c release, and cell death that could be inhibited by both cyclosporin A and aristolochic acid These findings suggest that arachidonic acid produced by cytosolic phospholipase A2 may be a mediator of tumor necrosis factor ␣ cytotoxicity in situ through induction of the mitochondrial PT. Ceramide itself has prominent effects on mitochondria (14 –19) and may turn physiological Ca2ϩ signals acting through the inositol 1,4,5-trisphosphate receptor into initiators of cell death [20]
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