Coenzyme Q
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Coenzyme Q (CoQ), also known as ubiquinone or ubiquinol, is a biologically active quinone with an isoprenoid side chain, related in structure to vitamin K and vitamin E.
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[edit] History
Coenzyme Q was first discovered by professor Fred L. Crane and colleagues at the University of Wisconsin Enzyme Institute. In 1958, its chemical structure was reported by Dr. D.E. Wolf and a research group at Merck Laboratories led by Dr. Karl Folkers[1].
[edit] Chemical properties
The oxidized structure of CoQ, or Q, is given here:
The various kinds of Coenzyme Q can be distinguished by the number of isoprenoid side chains they have. The most common CoQ in human mitochondria is Q10. The image above has three isoprenoid units and would be called Q3.
If Coenzyme Q is reduced by one equivalent, the following structure results, a ubisemiquinone, and is denoted QH. Note the free radical on one of the ring oxygens (either oxygen may become a free radical, in this case the top oxygen is shown as such).
If Coenzyme Q is reduced by two equivalents, the compound becomes a ubiquinol, denoted QH2:
[edit] Biochemical role
CoQ is found in the membranes of endoplasmic reticulum, peroxisomes, lysosomes, vesicles and notably the inner membrane of the mitochondrion where it is an important part of the electron transport chain; there it passes reducing equivalents to acceptors such as Coenzyme Q : cytochrome c - oxidoreductase:
- CoQH2+ 2 FeIII-cytochrome c → CoQ + 2 FeII-cytochrome c
CoQ is also essential in the formation of the apoptosome along with other adapter proteins. The loss of trophic factors activates pro-apoptotic enzymes, causing the breakdown of mitochondria.
[edit] Supplementation
Because of its ability to transfer electrons and therefore act as an antioxidant, Coenzyme Q has become a valued dietary supplement. CoQ10 has been widely used for the treatment of heart disease (especially heart failure), gum diseases, and also breast cancer [2][3].
Young people are able to make Q10 from the lower numbered ubiquinones such as Q6 or Q8.[citation needed] The sick and elderly may not be able to make enough, thus Q10 becomes a vitamin later in life and in illness.
Supplementation of Coenzyme Q10 has been found to have a beneficial effect on the condition of some sufferers of migraine headaches [4], and is a common component of the "mito cocktail" used to treat mitochondrial disorders and other metabolic disorders. It is also being investigated as a treatment for cancer, and as relief from cancer treatment side effects.
Recent studies have shown that the antioxidant properties of Coenzyme Q10 benefit the body and the brain.[5] [6] Some of these studies indicate that Coenzyme Q10 protects the brain from neurodegenerative disease such as Parkinsons[7] and also from the damaging side effects of a transient ischemic attack (stroke)[8] in the brain. Another recent study shows a survival benefit after cardiac arrest if coenzyme Q10 is administered in addition to commencing active cooling (to 32–34 degrees Celsius).[9]
[edit] Synthesis and its inhibition by statins and beta blockers
The isoprene sidechain of Coenzyme Q10 is synthesized from acetyl CoA by a series of enzymatic reactions, while the benzoquinone portion is synthesized from amino acids.
Coenzyme Q10 shares a common biosynthetic pathway with cholesterol. Isopentenyl pyrophosphate and its isomer, dimethylallyl pyrophosphate, are linked alternatingly in polyprenyl chains, which are also called isoprenes. The 15-carbon isoprene chain is farnesyl pyrophosphate, which is a precursor to cholesterol, while the 50-carbon isoprene chain forms the sidechain of coenzyme Q10.
The synthesis of an intermediary precursor of Coenzyme Q10, mevalonate, is inhibited by some beta blockers, blood pressure lowering medication [10], and statins, a class of cholesterol lowering drugs [11]. Statins can reduce serum levels of coenzyme Q10 by up to 40% [12]. Some research suggests the logical option of supplementation with coenzyme Q10 as a routine adjunct to any treatment which may reduce endogenous production of coenzyme Q10, based on a balance of likely benefit against very small risk. [13][14]
[edit] References
- ^ http://nutrition-health.info/index.php/Coenzyme_Q10
- ^ http://nutrition-health.info/index.php/Coenzyme_Q10
- ^ http://nutrition-health.info/index.php/Heart_failure
- ^ http://www.blackwell-synergy.com/doi/full/10.1046/j.1468-2982.2002.00335.x
- ^ Singh, R. B., et al. (January 1998). "Randomized, Double-Blind Placebo-Controlled Trial of Coenzyme Q10 in Patients with Acute Myocardial Infarction". Cardiovascular Drugs and Therapy 12: 347-353. Retrieved on 2006-12-01.
- ^ Matthews, R. T., et al. (July 1998). "Coenzyme Q10 administration increases brain mitochondrial concentrations and exerts neuroprotective effects". PNAS 95: 8892-8897. Retrieved on 2006-12-01.
- ^ Biol Signals Recept. 2001 May-Aug;10(3-4):224-53
- ^ Berbel-Garcia, A., et al. (July 2004). "Coenzyme Q 10 improves lactic acidosis, strokelike episodes, and epilepsy in a patient with MELAS". Clinical Neuropharmacology 27: 187-191. Retrieved on 2006-12-01.
- ^ Damian, M. S., et al. (July 2004). "Coenzyme Q10 Combined With Mild Hypothermia After Cardiac Arrest". Circulation, American Heart Foundation 110: 3011-3016. Retrieved on 2006-12-01.
- ^ http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=17892&query_hl=2&itool=pubmed_docsum
- ^ http://www.cholesterol-and-health.com/Synthesis-Of-Cholesterol.html
- ^ http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=8463436&query_hl=2
- ^ http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=12597259&query_hl=2&itool=pubmed_docsum
- ^ http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=9816194&query_hl=38&itool=pubmed_docsum
[edit] External links
- Synthesis of Coenzyme Q10 Flow Chart
- An Introduction to Coenzyme Q10
- Side Effects of Coenzyme Q10
- Vitamin Q - Herbs & Supplements - Drug Library - DrugDigest
- Co-Q10 Energizes the Heart and Brain
- Possible Health Benefits of Coenzyme Q10
- Coenzyme Q10 administration increases brain mitochondrial concentrations and exerts neuroprotective effects
- Study Suggests Coenzyme Q10 Slows Functional Decline in Parkinson's Disease
- Oral coenzyme Q10 administration prevents the development of ischemic brain lesions in a rabbit model of symptomatic vasospasm