Biochemical Functions of Coenzyme Q10

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Biochemical Functions of Coenzyme Q₁₀

Frederick L. Crane, PhD

Department of Biological Sciences, Purdue University, West Lafayette, Indiana

Address correspondence to: Frederick L. Crane, Ph D, Department of Biological Sciences, Purdue University, West Lafayette, Indiana.

Coenzyme Q is well defined as a crucial component of the oxidativephosphorylation process in mitochondria which converts the energyin carbohydrates and fatty acids into ATP to drive cellularmachinery and synthesis. New roles for coenzyme Q in other cellularfunctions are only becoming recognized. The new aspects havedeveloped from the recognition that coenzyme Q can undergo oxidation/reductionreactions in other cell membranes such as lysosomes, Golgi orplasma membranes. In mitochondria and lysosomes, coenzyme Qundergoes reduction/oxidation cycles during which it transfersprotons across the membrane to form a proton gradient. The presenceof high concentrations of quinol in all membranes provides abasis for antioxidant action either by direct reaction withradicals or by regeneration of tocopherol and ascorbate. Evidencefor a function in redox control of cell signaling and gene expressionis developing from studies on coenzyme Q stimulation of cellgrowth, inhibition of apoptosis, control of thiol groups, formationof hydrogen peroxide and control of membrane channels. Deficiencyof coenzyme Q has been described based on failure of biosynthesiscaused by gene mutation, inhibition of biosynthesis by HMG coAreductase inhibitors (statins) or for unknown reasons in ageingand cancer. Correction of deficiency requires supplementationwith higher levels of coenzyme Q than are available in the diet.

Key words: energy coupling, antioxidant, transmembrane signaling, gene expression

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				H. B. Levy and H. K Kohlhaas Considerations for Supplementing with Coenzyme Q10 During Statin Therapy Ann. Pharmacother., February 1, 2006; 40(2): 290 - 294. [Abstract] [Full Text] [PDF]

				K. A Weant and K. M Smith The Role of Coenzyme Q10 in Heart Failure Ann. Pharmacother., September 1, 2005; 39(9): 1522 - 1526. [Abstract] [Full Text] [PDF]

				C. M. Quinzii, A. G. Kattah, A. Naini, H. O. Akman, V. K. Mootha, S. DiMauro, and M. Hirano Coenzyme Q deficiency and cerebellar ataxia associated with an aprataxin mutation Neurology, February 8, 2005; 64(3): 539 - 541. [Abstract] [Full Text] [PDF]

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				R. Stocker and J. F. Keaney Jr. Role of Oxidative Modifications in Atherosclerosis Physiol Rev, October 1, 2004; 84(4): 1381 - 1478. [Abstract] [Full Text] [PDF]

				G.T. Chew and G.F. Watts Coenzyme Q10 and diabetic endotheliopathy: oxidative stress and the 'recoupling hypothesis' QJM, August 1, 2004; 97(8): 537 - 548. [Abstract] [Full Text] [PDF]

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				S. W. Baba, G. I. Belogrudov, J. C. Lee, P. T. Lee, J. Strahan, J. N. Shepherd, and C. F. Clarke Yeast Coq5 C-Methyltransferase Is Required for Stability of Other Polypeptides Involved in Coenzyme Q Biosynthesis J. Biol. Chem., March 12, 2004; 279(11): 10052 - 10059. [Abstract] [Full Text] [PDF]

				T. Jonassen, D. E. Davis, P. L. Larsen, and C. F. Clarke Reproductive Fitness and Quinone Content of Caenorhabditis elegans clk-1 Mutants Fed Coenzyme Q Isoforms of Varying Length J. Biol. Chem., December 19, 2003; 278(51): 51735 - 51742. [Abstract] [Full Text] [PDF]

				T. Jonassen, B. N. Marbois, K. F. Faull, C. F. Clarke, and P. L. Larsen Development and Fertility in Caenorhabditis elegans clk-1 Mutants Depend upon Transport of Dietary Coenzyme Q8 to Mitochondria J. Biol. Chem., November 15, 2002; 277(47): 45020 - 45027. [Abstract] [Full Text] [PDF]

				O. Ogawa, X. Zhu, G. Perry, and M. A. Smith Mitochondrial Abnormalities and Oxidative Imbalance in Neurodegenerative Disease Sci. Aging Knowl. Environ., October 16, 2002; 2002(41): pe16 - 16. [Abstract] [Full Text]