Tnfaip8l1/Oxi-β binds to FBXW5, increasing autophagy through activation of TSC2 in a Parkinson's disease model.

Abnormal autophagy may contribute to neurodegeneration in Parkinson's disease (PD). However, it is largely unknown how autophagy is dysregulated by oxidative stress (OS), one of major pathogenic causes of PD. We recently discovered the potential autophagy regulator gene family including Tnfaip8/Oxi-α, which is an mTOR activator downregulated by OS in dopaminergic neurons (Choi et al., 2010). Here we demonstrate that the OS-induced Tnfaip8l1/Oxi-β could increase autophagy by a unique mechanism that increases the stability of TSC2, a critical negative regulator of mTOR. Tnfaip8l1/Oxi-β and Tnfaip8/Oxi-α are the novel regulators of mTOR acting in opposition in DA neurons. Specifically, 6-hydroxydopamine (6-OHDA) treatment upregulated Tnfaip8l1/Oxi-β in DA neurons, thus inducing autophagy, while knockdown of Tnfaip8l1/Oxi-β prevented significantly activation of autophagic markers by 6-OHDA. FBXW5 was identified as a novel binding protein for Tnfaip8l1/Oxi-β. FBXW5 is a TSC2 binding receptor within CUL4 E3 ligase complex, and it promotes proteasomal degradation of TSC2. Thus, Tnfaip8l1/Oxi-β competes with TSC2 to bind FBXW5, increasing TSC2 stability by preventing its ubiquitination. Our data show that the OS-induced Tnfaip8l1/Oxi-β stabilizes TSC2 protein, decreases mTOR phosphorylation and enhances autophagy. Therefore, altered regulation of Tnfaip8l1/Oxi-β may contribute significantly to dysregulated autophagy observed in dopaminergic neurons under pathogenic OS condition. This article is protected by copyright. All rights reserved. This article is protected by copyright. All rights reserved.

Citation

Ji-Young Ha, Ji-Soo Kim, Young-Hee Kang, Eugene Bok, Yoon-Seong Kim, Jin H Son. Tnfaip8l1/Oxi-β binds to FBXW5, increasing autophagy through activation of TSC2 in a Parkinson's disease model. Journal of neurochemistry. 2013 Dec 26

PMID: 24372178

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