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Review
. 2019 Mar 27;8(4):77.
doi: 10.3390/antiox8040077.

Mouse Models of Genetically Altered Peroxiredoxin 6

Sheldon I Feinstein  1   2
Affiliations
Review

Mouse Models of Genetically Altered Peroxiredoxin 6

Sheldon I Feinstein. Antioxidants (Basel). .

Abstract

Peroxiredoxin 6 (Prdx6) has been shown to have three enzymatic activities: peroxidase, phospholipase A₂ (PLA₂) and acyl transferase. The peroxidase activity is unusual, as it is capable of reducing phospholipid hydroperoxides (as well as hydrogen peroxide and short chain organic peroxides). Knockout and overexpressing mice have been produced that demonstrate the effect that eliminating or overproducing Prdx6 has on the animals' physiology. In addition, mutations in various amino acids of Prdx6 have been identified that interfere with different enzymatic functions as well as protein transport. These mutations were originally characterized biochemically; subsequently, several knock-in mouse strains have been produced, each containing one mutation. These mice include the S32T knock-in that affects protein transport, the C47S knock-in that inactivates the peroxidase enzymatic activity, the D140A knock-in that inactivates the PLA₂ enzymatic activity and the H26A knock-in that inactivates the peroxidase and blocks binding to phospholipids. This review summarizes the properties of these mice based upon studies conducted with the knockout, overexpressing and knock-in mice and the effect of the genetic changes on the biochemistry and physiology of these mice. The availability of these mice is also briefly discussed.

Keywords: knock-in mouse; knockout mouse; lipid peroxidation; membrane repair; peroxidase; phospholipase A2; phospholipid hydroperoxide.

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Conflict of interest statement

S.I.F. and A.B.F. have a patent application pending for a peptide inhibitor of peroxiredoxin 6 PLA2 activity and have part ownership of a start-up company to promote clinical use of the peptide inhibitor.

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