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Antioxid Redox Signal 2019 May 10;3014:1731-1745. doi: 10.1089/ars.2018.7507.
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Peroxiredoxin5 Controls Vertebrate Ciliogenesis by Modulating Mitochondrial Reactive Oxygen Species.

Ji Y , Chae S , Lee HK , Park I , Kim C , Ismail T , Kim Y , Park JW , Kwon OS , Kang BS , Lee DS , Bae JS , Kim SH , Moon PG , Baek MC , Park MJ , Kil IS , Rhee SG , Kim J , Huh YH , Shin JY , Min KJ , Kwon TK , Jang DG , Woo HA , Kwon T , Park TJ , Lee HS .

AIMS: Peroxiredoxin5 (Prdx5), a thioredoxin peroxidase, is an antioxidant enzyme that is widely studied for its antioxidant properties and protective roles in neurological and cardiovascular disorders. This study is aimed at investigating the functional significance of Prdx5 in mitochondria and at analyzing its roles in ciliogenesis during the process of vertebrate development. RESULTS: We found that several Prdx genes were strongly expressed in multiciliated cells in developing Xenopus embryos, and their peroxidatic functions were crucial for normal cilia development. Depletion of Prdx5 increased levels of cellular reactive oxygen species (ROS), consequently leading to mitochondrial dysfunction and abnormal cilia formation. Proteomic and transcriptomic approaches revealed that excessive ROS accumulation on Prdx5 depletion subsequently reduced the expression level of pyruvate kinase (PK), a key metabolic enzyme in energy production. We further confirmed that the promotor activity of PK was significantly reduced on Prdx5 depletion and that the reduction in PK expression and its promoter activity led to ciliary defects observed in Prdx5-depleted cells. INNOVATION: Our data revealed the novel relationship between ROS and Prdx5 and the consequent effects of this interaction on vertebrate ciliogenesis. The normal process of ciliogenesis is interrupted by the Prdx5 depletion, resulting in excessive ROS levels and suggesting cilia as vulnerable targets of ROS. CONCLUSION: Prdx5 plays protective roles in mitochondria and is critical for normal cilia development by regulating the levels of ROS. The loss of Prdx5 is associated with excessive production of ROS, resulting in mitochondrial dysfunction and aberrant ciliogenesis.

PubMed ID: 30191719
Article link: Antioxid Redox Signal

Species referenced: Xenopus
Genes referenced: casp3.2 mapk8 pax3 prdx1 prdx2 prdx3 prdx4 prdx5 prdx6 sox3 txn2
Morpholinos: prdx5 MO1

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