Selective hydrolysis of a mitochondrial pool of sphingomyelin induces apoptosis

doi:10.1096/fj.01-0539com

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Selective hydrolysis of a mitochondrial pool of sphingomyelin induces apoptosis

HELENE BIRBES^*, SAMER EL BAWAB, YUSUF A. HANNUN and LINA M. OBEID^*^,1

^* Ralph H. Johnson Veterans Administration and the Departments of Medicine and
Biochemistry and Molecular Biology, Medical University of South Carolina, South Carolina 29425, USA

Our previous results have indicated that the major cellularpool of sphingomyelin present on the outer leaflet of the plasmamembrane is not involved in the ceramide pathway of apoptosis.Thus, in this study we aimed at defining which intracellularpools of sphingomyelin and ceramide are involved in cell death.The bacterial sphingomyelinase (SMase) gene fused with greenfluorescent protein was subcloned into mammalian vectors containingsequences that target the fusion proteins to cytoplasm, plasmamembrane, mitochondria, Golgi apparatus, endoplasmic reticulum,or nucleus. Transfection of MCF7 breast cancer cells showedfor all constructs an increase in SMase activity ranging from2- to 60-fold, concomitant with an increase in total cellularceramide levels (10–100%) as compared with vector-transfectedcells. Next, the effect of overexpression of the SMase on celldeath was examined. Results demonstrate that only when bacterialSMase was targeted to mitochondria did cells undergo apoptosis;its targeting to the other intracellular compartments was ineffective.Further, the results show that apoptosis induced by mitochondrialtargeting of bacterial SMase requires SMase catalytic activity,is prevented by the overexpression of Bcl-2, and is mediatedby inducing cytochrome c release. These results demonstratethat ceramide induces cell death specifically when generatedin mitochondria. The results highlight the significance of compartment-specificlipid-mediated cell regulation, and they offer a novel generalapproach for these studies.—Birbes, H., El Bawab, S.,Hannun, Y. A., Obeid, L. M. Selective hydrolysis of a mitochondrialpool of sphingomyelin induces apoptosis.

Key Words: targeting • ceramide • mitochondria • apoptosis • Bcl-2 • cytochrome c

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				D. E. Modrak, D. V. Gold, and D. M. Goldenberg Sphingolipid targets in cancer therapy. Mol. Cancer Ther., February 1, 2006; 5(2): 200 - 208. [Abstract] [Full Text] [PDF]

				S. A. Novgorodov, Z. M. Szulc, C. Luberto, J. A. Jones, J. Bielawski, A. Bielawska, Y. A. Hannun, and L. M. Obeid Positively Charged Ceramide Is a Potent Inducer of Mitochondrial Permeabilization J. Biol. Chem., April 22, 2005; 280(16): 16096 - 16105. [Abstract] [Full Text] [PDF]

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				N. Marchesini, W. Osta, J. Bielawski, C. Luberto, L. M. Obeid, and Y. A. Hannun Role for Mammalian Neutral Sphingomyelinase 2 in Confluence-induced Growth Arrest of MCF7 Cells J. Biol. Chem., June 11, 2004; 279(24): 25101 - 25111. [Abstract] [Full Text] [PDF]

				S. Ochi, M. Oda, H. Matsuda, S. Ikari, and J. Sakurai Clostridium perfringens {alpha}-Toxin Activates the Sphingomyelin Metabolism System in Sheep Erythrocytes J. Biol. Chem., March 26, 2004; 279(13): 12181 - 12189. [Abstract] [Full Text] [PDF]

				S. V. de Avalos, Y. Okamoto, and Y. A. Hannun Activation and Localization of Inositol Phosphosphingolipid Phospholipase C, Isc1p, to the Mitochondria during Growth of Saccharomyces cerevisiae J. Biol. Chem., March 19, 2004; 279(12): 11537 - 11545. [Abstract] [Full Text] [PDF]

				R. J. Perry and N. D. Ridgway The role of de novo ceramide synthesis in the mechanism of action of the tricyclic xanthate D609 J. Lipid Res., January 1, 2004; 45(1): 164 - 173. [Abstract] [Full Text] [PDF]

				B.-J. Kroesen, S. Jacobs, B. J. Pettus, H. Sietsma, J. W. Kok, Y. A. Hannun, and L. F. M. H. de Leij BcR-induced Apoptosis Involves Differential Regulation of C16 and C24-Ceramide Formation and Sphingolipid-dependent Activation of the Proteasome J. Biol. Chem., April 18, 2003; 278(17): 14723 - 14731. [Abstract] [Full Text] [PDF]

				N. Marchesini, C. Luberto, and Y. A. Hannun Biochemical Properties of Mammalian Neutral Sphingomyelinase2 and Its Role in Sphingolipid Metabolism J. Biol. Chem., April 11, 2003; 278(16): 13775 - 13783. [Abstract] [Full Text] [PDF]

				L. A. Cowart, Z. Szulc, A. Bielawska, and Y. A. Hannun Structural determinants of sphingolipid recognition by commercially available anti-ceramide antibodies J. Lipid Res., December 1, 2002; 43(12): 2042 - 2048. [Abstract] [Full Text] [PDF]

				C. Luberto, D. F. Hassler, P. Signorelli, Y. Okamoto, H. Sawai, E. Boros, D. J. Hazen-Martin, L. M. Obeid, Y. A. Hannun, and G. K. Smith Inhibition of Tumor Necrosis Factor-induced Cell Death in MCF7 by a Novel Inhibitor of Neutral Sphingomyelinase J. Biol. Chem., October 18, 2002; 277(43): 41128 - 41139. [Abstract] [Full Text] [PDF]

				C. Garcia-Ruiz, A. Colell, A. Morales, M. Calvo, C. Enrich, and J. C. Fernandez-Checa Trafficking of Ganglioside GD3 to Mitochondria by Tumor Necrosis Factor-alpha J. Biol. Chem., September 20, 2002; 277(39): 36443 - 36448. [Abstract] [Full Text] [PDF]

				H. Le Stunff, I. Galve-Roperh, C. Peterson, S. Milstien, and S. Spiegel Sphingosine-1-phosphate phosphohydrolase in regulation of sphingolipid metabolism and apoptosis J. Cell Biol., September 16, 2002; 158(6): 1039 - 1049. [Abstract] [Full Text] [PDF]

				Y. A. Hannun and L. M. Obeid The Ceramide-centric Universe of Lipid-mediated Cell Regulation: Stress Encounters of the Lipid Kind J. Biol. Chem., July 12, 2002; 277(29): 25847 - 25850. [Full Text] [PDF]