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Loss of HSPA9 induces peroxisomal degradation by increasing pexophagy.

Autophagy (2020-01-23)
Doo Sin Jo, So Jung Park, Ae-Kyeong Kim, Na Yeon Park, Joon Bum Kim, Ji-Eun Bae, Hyun Jun Park, Ji Hyun Shin, Jong Wook Chang, Peter K Kim, Yong-Keun Jung, Jae-Young Koh, Seong-Kyu Choe, Kyu-Sun Lee, Dong-Hyung Cho
RESUMEN

Quality control of peroxisomes is essential for cellular homeostasis. However, the mechanism underlying pexophagy is largely unknown. In this study, we identified HSPA9 as a novel pexophagy regulator. Downregulation of HSPA9 increased macroautophagy/autophagy but decreased the number of peroxisomes in vitro and in vivo. The loss of peroxisomes by HSPA9 depletion was attenuated in SQSTM1-deficient cells. In HSPA9-deficient cells, the level of peroxisomal reactive oxygen species (ROS) increased, while inhibition of ROS blocked pexophagy in HeLa and SH-SY5Y cells. Importantly, reconstitution of HSPA9 mutants found in Parkinson disease failed to rescue the loss of peroxisomes, whereas reconstitution with wild type inhibited pexophagy in HSPA9-depleted cells. Knockdown of Hsc70-5 decreased peroxisomes in Drosophila, and the HSPA9 mutants failed to rescue the loss of peroxisomes in Hsc70-5-depleted flies. Taken together, our findings suggest that the loss of HSPA9 enhances peroxisomal degradation by pexophagy.

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Sigma-Aldrich
Anticuerpo anti-actina, clon C4, ascites fluid, clone C4, Chemicon®
Sigma-Aldrich
1,10-Phenanthroline monohydrate, ACS reagent, puriss. p.a., ≥99.5% (calc. to the dried substance), for redox titration