Mitochondrial proton leak in brown adipose tissue mitochondria of Ucp1-deficient mice is GDP insensitive

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Mitochondrial proton leak in brown adipose tissue mitochondria of Ucp1-deficient mice is GDP insensitive

Shadi Monemdjou¹, Leslie P. Kozak², and Mary-Ellen Harper¹

¹ Department of Biochemistry, Microbiology and Immunology, Faculty of Medicine, University of Ottawa, Ottawa, Ontario, Canada K1H 8M5; and ² Pennington Biomedical Research Center, Baton Rouge, Lousiana 70808

Mice deficient in mitochondrial uncoupling protein (UCP) 1 are cold sensitive, despite abundant expression of the homologues,Ucp2 and Ucp3 (S. Enerbäck, A. Jacobsson, E. M. Simpson, C. Guerra,H. Yamashita, M.-E. Harper, and L. P. Kozak. Nature 387: 90-94,1997). We have analyzed characteristics of mitochondrial protonleak from brown adipose tissue (BAT) of Ucp1-deficient mice andnormal controls and conducted the first top-down metabolic controlanalysis of oxidative phosphorylation in BAT mitochondria. Becausepurine nucleotides inhibit UCP1 and because UCP2 and the longform of UCP3 have putative purine nucleotide-binding regions,we predicted that proton leak in BAT mitochondria from Ucp1-deficientmice would be sensitive to GDP. On the contrary, although controlover mitochondrial oxygen consumption and proton leak reactionsat state 4 are strongly affected by 1 mM GDP in mitochondria fromnormal mice, there is no effect in UCP1-deficient mitochondria.In the presence of GDP, the overall kinetics of proton leak werenot significantly different between Ucp1-deficient mice and controls.In its absence, state 4 respiration in normal BAT mitochondriawas double that in its presence. Leak-dependent oxygen consumptionwas higher over a range of membrane potentials in its absencethan in its presence. Thus proton leak, potentially includingthat through UCP2 and UCP3, is GDP insensitive. However, our measurementswere made in the presence of albumin and may not allow for thedetection of any fatty acid-induced UCP-mediated leak; this possibilityrequiresinvestigation.

oxidative phosphorylation; uncoupling protein(s); thermogenesis

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				W. E. Hofmann, X. Liu, C. M. Bearden, M.-E. Harper, and L. P. Kozak Effects of Genetic Background on Thermoregulation and Fatty Acid-induced Uncoupling of Mitochondria in UCP1-deficient Mice J. Biol. Chem., April 6, 2001; 276(15): 12460 - 12465. [Abstract] [Full Text] [PDF]

				S. Cadenas, K. S. Echtay, J. A. Harper, M. B. Jekabsons, J. A. Buckingham, E. Grau, A. Abuin, H. Chapman, J. C. Clapham, and M. D. Brand The Basal Proton Conductance of Skeletal Muscle Mitochondria from Transgenic Mice Overexpressing or Lacking Uncoupling Protein-3 J. Biol. Chem., January 18, 2002; 277(4): 2773 - 2778. [Abstract] [Full Text] [PDF]

				D.-W. Gong, S. Monemdjou, O. Gavrilova, L. R. Leon, B. Marcus-Samuels, C. J. Chou, C. Everett, L. P. Kozak, C. Li, C. Deng, et al. Lack of Obesity and Normal Response to Fasting and Thyroid Hormone in Mice Lacking Uncoupling Protein-3 J. Biol. Chem., May 19, 2000; 275(21): 16251 - 16257. [Abstract] [Full Text] [PDF]