<P> Ketone bodies are three water - soluble molecules (acetoacetate, beta - hydroxybutyrate, and their spontaneous breakdown product, acetone) that are produced by the liver from fatty acids during periods of low food intake (fasting), carbohydrate restrictive diets, starvation, prolonged intense exercise, or in untreated (or inadequately treated) type 1 diabetes mellitus . These ketone bodies are readily picked up by the extra-hepatic tissues, and converted into acetyl - CoA which then enters the citric acid cycle and is oxidized in the mitochondria for energy . In the brain, ketone bodies are also used to make acetyl - CoA into long - chain fatty acids . </P> <P> Ketone bodies are produced by the liver under the circumstances listed above (i.e. fasting, starving, low carbohydrate diets, prolonged exercise and untreated type 1 diabetes mellitus) as a result of intense gluconeogenesis, which is the production of glucose from non-carbohydrate sources (not including fatty acids). They are therefore always released into the blood by the liver together with newly produced glucose, after the liver glycogen stores have been depleted . (These glycogen stores are depleted after only 24 hours of fasting .) </P> <P> When two acetyl - CoA molecules lose their - CoAs, (or Co-enzyme A groups) they can form a (covalent) dimer called acetoacetate . Beta - hydroxybutyrate is a reduced form of acetoacetate, in which the ketone group is converted into an alcohol (or hydroxyl) group (see illustration on the right). Both are 4 - carbon molecules, that can readily be converted back into acetyl - CoA by most tissues of the body, with the notable exception of the liver . Acetone is the decarboxylated form of acetoacetate which cannot be converted back into acetyl - CoA except via detoxification in the liver where it is converted into lactic acid, which can, in turn, be oxidized into pyruvic acid, and only then into acetyl - CoA . </P>

Biochemical importance of ketone bodies in the body