From Wikipedia, the free encyclopedia
Coenzyme Q10 (also known as ubiquinone, ubidecarenone, coenzyme Q, and a
bbreviated at time
s to CoQ10, CoQ, Q10, or Q) is a benzoquinone, where Q refers to the quinone chemical group, and 10 refers to the isoprenyl chemical subunits.
This vitamin-like substance is, by nature, present in most human cells except red blood cells and eye lens cells (no mitochondria) and is responsible for the production of the body’s own energy. In each human cell, food energy is converted into energy in the mitochondria with the aid of CoQ10. Ninety-five percent of all the human body’s energy requirements (ATP) is converted with the aid of CoQ10. Therefore, those organs with the highest energy requirements – such as the heart and the liver – have the highest CoQ10 concentrations.
History
Coenzyme Q was first discovered by professor Fred L. Crane and colleagues at the University of Wisconsin-Madison Enzyme Institute in 1957. In 1958, its chemical structure was reported by Professor Karl Folkers and coworkers at Merck.
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 to the right 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:
Biochemical role
Electron transport chain (”UQ” visible in green near center.)
CoQ is found in the membranes of endoplasmic reticulum, peroxisomes, lysosomes, vesicles, and 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.
Supplementation
Because of its ability to transfer electrons and therefore act as an antioxidant, Coenzyme Q is also used as a dietary supplement. When you are younger the body can synthesize 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.
Mitochondrial disorders
Supplementation of Coenzyme Q10 is a treatment for some of the very rare and serious mitochondrial disorders and other metabolic disorders, where patients are not capable of producing enough coenzyme Q10 because of their disorder. Coenzyme Q10 is then prescribed by a physician.
Migraine headaches
Supplementation of Coenzyme Q10 has been found to have a beneficial effect on the condition of some sufferers of migraine headaches. So far, three studies have been done, of which two were small, did not have a placebo group, were not randomized, and were open-label, and one was a double-blind, randomized, placebo-controlled trial, which found statistically significant results despite its small sample size of 42 patients. Dosages were 150 to 300 mg/day.
Cancer
It is also being investigated as a treatment for cancer, and as relief from cancer treatment side-effects.
Brain health and neurodegenerative diseases
Recent studies have shown that the antioxidant properties of Coenzyme Q10 benefit the body and the brain in animal models. Some of these studies indicate that Coenzyme Q10 protects the brain from neurodegenerative disease such as Parkinson’s, although it does not relieve the symptoms. Dosage was 300 mg per day.
Cardiac arrest
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).
Blood pressure
There are several reports concerning the effect of CoQ10 on blood pressure in human studies. In a recent meta-analysis of the clinical trials of CoQ10 for hypertension, a research group led by Professor FL Rosenfeldt (from the Cardiac Surgical Research Unit, Alfred Hospital, Melbourne, Australia) reviewed all published trials of Coenzyme Q10 for hypertension, and assessed overall efficacy, consistency of therapeutic action, and side-effect incidence. Meta-analysis was performed in 12 clinical trials (362 patients) comprising three randomized controlled trials, one crossover study, and eight open-label studies. The research group concluded that coenzyme Q10 has the potential in hypertensive patients to lower systolic blood pressure by up to 17 mm Hg and diastolic blood pressure by up to 10 mm Hg without significant side-effects.
Lifespan
Studies have shown that low dosages of Coenzyme Q10 reduce oxidation and DNA double-strand breaks, and a combination of a diet rich in polyunsaturated fatty acids and Coenzyme Q10 supplementation leads to a longer lifespan in rats
Biosynthesis
The benzoquinone portion of Coenzyme Q10 is synthesized from tyrosine, whereas the isoprene sidechain is synthesized from acetyl-CoA through the mevalonate pathway. The mevalonate pathway is used for the first steps of cholesterol biosynthesis.
Inhibition by statins and beta blockers
Coenzyme Q10 shares a common biosynthetic pathway with cholesterol. The synthesis of an intermediary precursor of Coenzyme Q10, mevalonate, is inhibited by some beta blockers, blood pressure-lowering medication, and statins, a class of cholesterol-lowering drugs. Statins can reduce serum levels of coenzyme Q10 by up to 40%. Some research suggests the logical option of supplementation with coenzyme Q10 as a routine adjunct to any treatment that may reduce endogenous production of coenzyme Q10, based on a balance of likely benefit against very small risk.
Occurrence in nature
CoQ10 occurs in mackerel and herring fresh heart tissue in concentrations of 105-148 ?g/g. In fresh mackerel “red and white tissue,” CoQ10 concentrations of 67 and 15 ?g/g, respectively, have been reported. In fresh herring tissue, an amount of 15–24 ?g/g of CoQ10 has been reported.
CoQ10 Content of various foods:
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CoQuinone (56 Soft gel capsule)
The energy that every cell needs to function is produced through a complex process in the mitochondria, an organelle within the cell, often called the cellular powerhouse. Cells store energy in a molecule called adenosine-5-triphosphate, or ATP. CoQ10 is an essential part of the electron transport chain used to make ATP. Thus ATP is synthesized and used by every cell in the body. Cells with the highest energy demands contain the highest levels of CoQ10. CoQ10 has been studied for years in the U.S., Europe, and Japan for its role in producing cellular energy. Several human clinical trials demonstrate maintenance of good muscle function.
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Best to take this supplement with Essiantials
Nash Sapardi on 01-11-2008 
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