Abstract
Ceramides are known to play a major regulatory role in apoptosis by inducing cytochrome c release from mitochondria. We have previously reported that C(2)- and C(16)-ceramide, but not dihydroceramide, form large channels in planar membranes (Siskind, L. J., and Colombini, M. (2001) J. Biol. Chem. 275, 38640-38644). Here we show that ceramides do not trigger a cytochrome c secretion or release mechanism, but simply raise the permeability of the mitochondrial outer membrane, via ceramide channel formation, to include small proteins. Exogenously added reduced cytochrome c was able to freely permeate the mitochondrial outer membrane with entry to and exit from the intermembrane space facilitated by ceramides in a dose- and time-dependent manner. The permeability pathways were eliminated upon removal of C(2)-ceramide by bovine serum albumin, thus ruling out a detergent-like effect of C(2)-ceramide on membranes. Ceramide channels were not specific to cytochrome c, as ceramides induced release of adenylate kinase, but not fumerase from isolated mitochondria, showing some specificity of these channels for the outer mitochondrial membrane. SDS-PAGE results show that ceramides allow release of intermembrane space proteins with a molecular weight cut-off of about 60,000. These results indicate that the ceramide-induced membrane permeability increases in isolated mitochondria are via ceramide channel formation and not a release mechanism, as the channels that allow cytochrome c to freely permeate are reversible, and are not specific to cytochrome c.
Highlights
Ceramide is a sphingosine-based lipid involved in the regulation of several cellular processes, including differentiation, growth suppression, cell senescence, and apoptosis [1,2,3,4,5]
These results indicate that the ceramide-induced membrane permeability increases in isolated mitochondria are via ceramide channel formation and not a release mechanism, as the channels that allow cytochrome c to freely permeate are reversible, and are not specific to cytochrome c
Ceramide Increases the Permeability of the Mitochondrial Outer Membrane to Cytochrome c—It has already been reported that addition of either C2- or C16-ceramide to isolated mitochondria results in cytochrome c release [27,28,29]
Summary
Ceramide is a sphingosine-based lipid involved in the regulation of several cellular processes, including differentiation, growth suppression, cell senescence, and apoptosis [1,2,3,4,5]. Montes et al [37] showed that long-chain ceramides, both externally added or enzymatically produced, can induce release of vesicle contents They showed that sphingomyelinase treatment of large unilamellar vesicles containing sphingomyelin gives rise to release of fluoresceinderivatized dextrans of molecular weight of about 20,000, i.e. larger than cytochrome c [37]. This paper is available on line at http://www.jbc.org the activities of various components of the mitochondrial electron transport chain [28, 43] It is unclear whether ceramide acts directly or indirectly on cytochrome c release. The permeability increase induced by C2-ceramide is largely reversed by treatment with fatty acid-depleted bovine serum albumin (BSA) These results bolster the hypothesis that ceramide-induced cytochrome c release from mitochondria is via the formation of ceramide channels in dynamic equilibrium with ceramide in other structural states
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