Cardiolipin Is Essential for Organization of Complexes III and IV into a Supercomplex in Intact Yeast Mitochondria*

Digitonin extracts of mitochondria from cardiolipin-containing (wild type) and cardiolipin-lacking (crd1Δ mutant) Saccharomyces cerevisiae subjected to colorless native polyacrylamide gel electrophoresis in the presence of 0.003% digitonin displayed a supercomplex composed of homodimers of complexes III and IV in the former case but only the individual homodimers in the latter case. To avoid treatment with any detergent or dye, we compared organization of the respiratory chain in intact mitochondria from wild type and cardiolipin-lacking cells by using a functional analysis developed previously for the study of the organization of the respiratory chain of S. cerevisiae (Boumans, H., Grivell, L. A., and Berden, J. A. (1998) J. Biol. Chem. 273, 4872–4877). Dependence of the kinetics of NADH oxidation via complexes III, IV, and cytochrome c on the concentration of the complex III-specific inhibitor antimycin A was studied. A linear relationship between respiratory activity and saturation of complex III with antimycin A was obtained for wild type mitochondria consistent with single functional unit kinetics of the respiratory chain. Under the same conditions, cardiolipin-lacking mitochondria displayed a hyperbolic relationship indicating cytochrome c pool behavior. No release of cytochrome c from cardiolipin-lacking mitochondria or mitoplasts under our standard experimental conditions was detected. Identical cytochrome c pool behavior was observed for both wild type and cardiolipin-lacking mitochondria in the presence of a chaotropic agent, which disrupts the interaction between respiratory complexes. The results demonstrate that cardiolipin is essential for association of complexes III and IV into a supercomplex in intact yeast mitochondria.

[1]  H. Schägger,et al.  Blue native electrophoresis for isolation of membrane protein complexes in enzymatically active form. , 1991, Analytical biochemistry.

[2]  H. Matsubara,et al.  Kinetic mechanism of beef heart ubiquinol:cytochrome c oxidoreductase. , 1992, Journal of biochemistry.

[3]  R. Hallberg,et al.  Cytochromes c 1 and b 2 are sorted to the intermembrane space of yeast mitochondria by a stop-transfer mechanism , 1992, Cell.

[4]  William Dowhan,et al.  Diversity and versatility of lipid-protein interactions revealed by molecular genetic approaches. , 2004, Biochimica et biophysica acta.

[5]  R A Stuart,et al.  The Cytochrome bc 1 and Cytochromec Oxidase Complexes Associate to Form a Single Supracomplex in Yeast Mitochondria* , 2000, The Journal of Biological Chemistry.

[6]  K. Pfeiffer,et al.  The ratio of oxidative phosphorylation complexes I-V in bovine heart mitochondria and the composition of respiratory chain supercomplexes. , 2001, The Journal of biological chemistry.

[7]  W. Dowhan,et al.  Cardiolipin Is Not Required to Maintain Mitochondrial DNA Stability or Cell Viability for Saccharomyces cerevisiae Grown at Elevated Temperatures* , 2003, Journal of Biological Chemistry.

[8]  L. Pon,et al.  Isolation of highly purified mitochondria from Saccharomyces cerevisiae. , 1995, Methods in enzymology.

[9]  L. Grivell,et al.  The Respiratory Chain in Yeast Behaves as a Single Functional Unit* , 1998, The Journal of Biological Chemistry.

[10]  N. C. Robinson,et al.  Phospholipase A(2) digestion of cardiolipin bound to bovine cytochrome c oxidase alters both activity and quaternary structure. , 1999, Biochemistry.

[11]  B. Chance,et al.  A Method for the Localization of Sites for Oxidative Phosphorylation , 1955, Nature.

[12]  B. Trumpower,et al.  Specific roles of protein–phospholipid interactions in the yeast cytochrome bc1 complex structure , 2001, The EMBO journal.

[13]  V. Gogvadze,et al.  Cardiolipin Is Not Required for Bax-mediated Cytochrome c Release from Yeast Mitochondria* , 2004, Journal of Biological Chemistry.

[14]  L. Grivell,et al.  Isolation and inactivation of the nuclear gene encoding the rotenone-insensitive internal NADH: ubiquinone oxidoreductase of mitochondria from Saccharomyces cerevisiae. , 1991, European journal of biochemistry.

[15]  H. Schägger Respiratory chain supercomplexes of mitochondria and bacteria. , 2002, Biochimica et biophysica acta.

[16]  Cristina Bianchi,et al.  Structural organization of the mitochondrial respiratory chain. , 2003, The Italian journal of biochemistry.

[17]  Kathy Pfeiffer,et al.  Cardiolipin Stabilizes Respiratory Chain Supercomplexes* , 2003, Journal of Biological Chemistry.

[18]  G. Palmer,et al.  Purification and characterization of highly purified cytochrome b from complex III of baker's yeast. , 1982, Biochimica et biophysica acta.

[19]  William Dowhan,et al.  Gluing the Respiratory Chain Together , 2002, The Journal of Biological Chemistry.

[20]  N. Dencher,et al.  “Respirasome”-like Supercomplexes in Green Leaf Mitochondria of Spinach* , 2004, Journal of Biological Chemistry.

[21]  K. Pfeiffer,et al.  Supercomplexes in the respiratory chains of yeast and mammalian mitochondria , 2000, The EMBO journal.

[22]  M. L. Greenberg,et al.  The biosynthesis and functional role of cardiolipin. , 2000, Progress in lipid research.

[23]  N. C. Robinson,et al.  Phospholipase digestion of bound cardiolipin reversibly inactivates bovine cytochrome bc1. , 1999, Biochemistry.

[24]  Carola Hunte,et al.  Lipids in membrane protein structures. , 2004, Biochimica et biophysica acta.

[25]  G. Palmer,et al.  The role of phospholipids in the binding of antimycin to yeast Complex III. , 1986, Biochimica et biophysica acta.

[26]  M. Zhang,et al.  Cardiolipin in energy transducing membranes , 2005, Biochemistry (Moscow).

[27]  E. C. Slater,et al.  The reaction of antimycin with a cytochrome b preparation active in reconstitution of the respiratory chain. , 1970, Biochimica et biophysica acta.

[28]  B. Glick Pathways and energetics of mitochondrial protein import in Saccharomyces cerevisiae. , 1995, Methods in enzymology.

[29]  S. Vries,et al.  The mitochondrial respiratory chain of yeast. Structure and biosynthesis and the role in cellular metabolism. , 1987, Biochimica et biophysica acta.