Alpha oxidation

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Enzymatic steps of alpha oxidation

Alpha oxidation (α-oxidation) is a process by which certain branched-chain[1] fatty acids are broken down by removal of a single carbon from the carboxyl end. In humans, alpha-oxidation is used in peroxisomes to break down dietary phytanic acid, which cannot undergo beta-oxidation due to its β-methyl branch, into pristanic acid. Pristanic acid can then acquire CoA and subsequently become beta oxidized, yielding propionyl-CoA.

Pathway

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Alpha-oxidation of phytanic acid is believed to take place entirely within peroxisomes.

  1. Phytanic acid is first attached to CoA to form phytanoyl-CoA.
  2. Phytanoyl-CoA is oxidized by phytanoyl-CoA dioxygenase, in a process using Fe2+ and O2, to yield 2-hydroxyphytanoyl-CoA.
  3. 2-hydroxyphytanoyl-CoA is cleaved by 2-hydroxyphytanoyl-CoA lyase in a TPP-dependent reaction to form pristanal and formyl-CoA (in turn later broken down into formate and eventually CO2).
  4. Pristanal is oxidized by aldehyde dehydrogenase to form pristanic acid (which can then undergo beta-oxidation).

(Propionyl-CoA is released as a result of beta oxidation when the beta carbon is substituted)

Deficiency

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Enzymatic deficiency in alpha-oxidation (most frequently in phytanoyl-CoA dioxygenase) leads to Refsum's disease, in which the accumulation of phytanic acid and its derivatives leads to neurological damage. Other disorders of peroxisome biogenesis also prevent alpha-oxidation from occurring.

References

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