Mitochondrial Transport of Cations: Channels, Exchangers, and Permeability Transition

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Mitochondrial Transport of Cations: Channels, Exchangers, and Permeability Transition

Paolo Bernardi

Department of Biomedical Sciences, University of Padova, and Consiglio Nazionale delle Ricerche Center for the Study of Biomembranes, Padova, Italy

Bernardi, Paolo Mitochondrial Transport of Cations: Channels, Exchangers, and Permeability Transition. J. Neurophysiol. 79: 1127-1155, 1999. This review provides a selective history of how studies of mitochondrial cation transport (K⁺, Na⁺, Ca²⁺) developed in relation to the major themes of research in bioenergetics.It then covers in some detail specific transport pathways forthese cations, and it introduces and discusses open problems abouttheir nature and physiological function, particularly in relationto volume regulation and Ca²⁺ homeostasis. The review should provide the basic elements neededto understand both earlier mitochondrial literature and currentproblems associated with mitochondrial transport of cations andhopefully will foster new interest in the molecular definitionof mitochondrial cation channels and exchangers as well as theirroles in cellphysiology.

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				C. Xu, W. Xu, A. E. Palmer, and J. C. Reed BI-1 Regulates Endoplasmic Reticulum Ca2+ Homeostasis Downstream of Bcl-2 Family Proteins J. Biol. Chem., April 25, 2008; 283(17): 11477 - 11484. [Abstract] [Full Text] [PDF]

				G. Szabadkai and M. R. Duchen Mitochondria: The Hub of Cellular Ca2+ Signaling Physiology, April 1, 2008; 23(2): 84 - 94. [Abstract] [Full Text] [PDF]

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				B. Kim and S. Matsuoka Cytoplasmic Na+-dependent modulation of mitochondrial Ca2+ via electrogenic mitochondrial Na+-Ca2+ exchange J. Physiol., March 15, 2008; 586(6): 1683 - 1697. [Abstract] [Full Text] [PDF]

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				K. S. Dimmer, F. Navoni, A. Casarin, E. Trevisson, S. Endele, A. Winterpacht, L. Salviati, and L. Scorrano LETM1, deleted in Wolf Hirschhorn syndrome is required for normal mitochondrial morphology and cellular viability Hum. Mol. Genet., January 15, 2008; 17(2): 201 - 214. [Abstract] [Full Text] [PDF]

				D. Lee, K.-H. Lee, W.-K. Ho, and S.-H. Lee Target Cell-Specific Involvement of Presynaptic Mitochondria in Post-Tetanic Potentiation at Hippocampal Mossy Fiber Synapses J. Neurosci., December 12, 2007; 27(50): 13603 - 13613. [Abstract] [Full Text] [PDF]

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				S. M. Moin, M. Panteva, and S. Jameel The Hepatitis E Virus Orf3 Protein Protects Cells from Mitochondrial Depolarization and Death J. Biol. Chem., July 20, 2007; 282(29): 21124 - 21133. [Abstract] [Full Text] [PDF]

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				S. H. Kang, W. S. Park, N. Kim, J. B. Youm, M. Warda, J.-H. Ko, E. A Ko, and J. Han Mitochondrial Ca2+-activated K+ channels more efficiently reduce mitochondrial Ca2+ overload in rat ventricular myocytes Am J Physiol Heart Circ Physiol, July 1, 2007; 293(1): H307 - H313. [Abstract] [Full Text] [PDF]

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				M. Forte, B. G. Gold, G. Marracci, P. Chaudhary, E. Basso, D. Johnsen, X. Yu, J. Fowlkes, M. Rahder, K. Stem, et al. Cyclophilin D inactivation protects axons in experimental autoimmune encephalomyelitis, an animal model of multiple sclerosis PNAS, May 1, 2007; 104(18): 7558 - 7563. [Abstract] [Full Text] [PDF]

				D. X. Zhang and D. D. Gutterman Mitochondrial reactive oxygen species-mediated signaling in endothelial cells Am J Physiol Heart Circ Physiol, May 1, 2007; 292(5): H2023 - H2031. [Abstract] [Full Text] [PDF]

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