Ketogenesis

Ketogenesis is the process by which ketone bodies are produced as a result of fatty acid breakdown.

Contents

Production

Ketone bodies are produced mainly in the mitochondria of liver cells. Its synthesis occurs in response to low glucose levels in the blood, and after exhaustion of cellular carbohydrate stores, such as glycogen. The production of ketone bodies is then initiated to make available energy that is stored as fatty acids. Fatty acids are enzymatically broken down in β-oxidation to form acetyl-CoA. Under normal conditions, acetyl-CoA is further oxidized and its energy transferred as electrons to NADH, FADH2, and GTP in the citric acid cycle (TCA cycle). However, if the amounts of acetyl-CoA generated in fatty-acid β-oxidation challenge the processing capacity of the TCA cycle or if activity in the TCA cycle is low due to low amounts of intermediates such as oxaloacetate, acetyl-CoA is then used instead in biosynthesis of ketone bodies via acetoacyl-CoA and β-hydroxy-β-methylglutaryl-CoA (HMG-CoA).

Besides its role in the synthesis of ketone bodies, HMG-CoA is also an intermediate in the synthesis of cholesterol.

Types of ketone bodies

The three ketone bodies are:

Each of these compounds is synthesized from acetyl-CoA molecules.

Regulation

Ketogenesis may or may not occur, depending on levels of available carbohydrates in the cell or body. This is closely related to the paths of acetyl-CoA:

Pathology

Ketone bodies are created at moderate levels in everyone's bodies, such as during sleep and other times when no carbohydrates are available. However, when ketogenesis is happening at higher-than-normal levels, the body is said to be in a state of ketosis. It is unknown whether ketosis has negative long-term effects.

Both acetoacetate and beta-hydroxybutyrate are acidic, and, if levels of these ketone bodies are too high, the pH of the blood drops, resulting in ketoacidosis. Ketoacidosis is known to occur in untreated Type I diabetes (see diabetic ketoacidosis) and in alcoholics after prolonged binge-drinking without intake of sufficient carbohydrates (see alcoholic ketoacidosis). Less commonly, some patients with poorly controlled Type 2 diabetes may have detectable levels of plasma ketones without significant acidosis.

See also

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