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Ketone body formation

Authoring team

Ketone body formation occurs as an alternative energy source during times of prolonged stress e.g. starvation. It occurs in the liver from an initial substrate of:

  • long chain fatty acids; the fatty acids undergo beta-oxidation by their normal pathway within mitochondria until acetyl-CoA is produced, or
  • ketogenic amino acids; amino acids such as leucine and lysine, released at times of energy depletion, are interconverted only to acetyl-CoA

Then, three molecules of acetyl-CoA are effectively joined together in three enzyme steps sequentially catalyzed by:

  • acetyl CoA acetyltransferase
  • HMG-CoA transferase
  • HMG-CoA lyase

Coenzyme A is regenerated and the ketone body acetoacetate is formed. Finally, acetoacetate is reduced to another ketone body, D-3-hydroxybutyrate, in a reaction catalyzed by 3-hydroxybutyrate dehydrogenase. This requires NADH. The oxidate state of the liver is such that the forward reaction is generally favoured; this results in more hydroxybutyrate being formed than acetoacetate.

There are 3 products - acetoacetate, 3 hydroxybutyrate and acetone.


The significance is that acetoacetate is tested via urine keto stix and 3 hydroxybutyrate is tested by blood ketone monitors. Acetone is smelt on the breath.

 

Reference

  1. Pranita Ghimire; Amit S. Dhamoon. Ketoacidosis. Treasure Island (FL): StatPearls Publishing. 2024 Jan

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