Parkin, PINK1, and DJ-1 form a ubiquitin E3 ligase complex promoting unfolded protein degradation
Hui Xiong, Danling Wang, Linan Chen, Yeun Su Choo, Hong Ma, Chengyuan Tang, Kun Xia, Wei Jiang, Ze’ev Ronai, Xiaoxi Zhuang, Zhuohua Zhang
Hui Xiong, Danling Wang, Linan Chen, Yeun Su Choo, Hong Ma, Chengyuan Tang, Kun Xia, Wei Jiang, Ze’ev Ronai, Xiaoxi Zhuang, Zhuohua Zhang
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Research Article

Parkin, PINK1, and DJ-1 form a ubiquitin E3 ligase complex promoting unfolded protein degradation

Abstract

Mutations in PARKIN, pten-induced putative kinase 1 (PINK1), and DJ-1 are individually linked to autosomal recessive early-onset familial forms of Parkinson disease (PD). Although mutations in these genes lead to the same disease state, the functional relationships between them and how their respective disease-associated mutations cause PD are largely unknown. Here, we show that Parkin, PINK1, and DJ-1 formed a complex (termed PPD complex) to promote ubiquitination and degradation of Parkin substrates, including Parkin itself and Synphilin-1 in neuroblastoma cells and human brain lysates. Genetic ablation of either Pink1 or Dj-1 resulted in reduced ubiquitination of endogenous Parkin as well as decreased degradation and increased accumulation of aberrantly expressed Parkin substrates. Expression of PINK1 enhanced Parkin-mediated degradation of heat shock–induced misfolded protein. In contrast, PD-pathogenic Parkin and PINK1 mutations showed reduced ability to promote degradation of Parkin substrates. This study identified a functional ubiquitin E3 ligase complex consisting of PD-associated Parkin, PINK1, and DJ-1 to promote degradation of un-/misfolded proteins and suggests that their PD-pathogenic mutations impair E3 ligase activity of the complex, which may constitute a mechanism underlying PD pathogenesis.

Authors

Hui Xiong, Danling Wang, Linan Chen, Yeun Su Choo, Hong Ma, Chengyuan Tang, Kun Xia, Wei Jiang, Ze’ev Ronai, Xiaoxi Zhuang, Zhuohua Zhang

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Figure 1

Complex formation of Parkin, PINK1, and DJ-1.

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Complex formation of Parkin, PINK1, and DJ-1. (A–F) Association of Parki...
(AF) Association of Parkin, PINK1, and DJ-1 in transfected cells. Parkin-VSVG, PINK1-flag, and DJ-1–myc were expressed in various combinations and immunoprecipitated with antibodies to the corresponding tag, followed by detection of coprecipitation of PINK1 and DJ-1 (A), Parkin and DJ-1 (B), and Parkin and PINK1 (C), respectively. (DF) Inputs of Parkin (D), PINK1 (E), and DJ-1 (F). Note that cotransfection of PINK1 significantly reduced Parkin levels in lysates. Tub, cytosolic marker tubulin. (G and H) In vitro assembly of the PPD complex. Affinity-purified Parkin-myc-flag (Parkin), PINK1-VSVG-flag (PINK1), and GST–DJ-1–VSVG (DJ-1GST) were incubated in various combinations, followed by precipitation with either anti-myc agarose (G) or GST agarose (H). Precipitates were detected with an anti-VSVG antibody to detect both PINK1 and DJ-1–GST (G), an anti-Parkin antibody to detect Parkin (H), an anti-PINK1 antibody to detect PINK1 (H), or an anti–DJ-1 antibody to detect DJ-1 (H). (I) Association of Parkin, PINK1, and DJ-1 in vivo. Lysates of human brain cortex from 2 unrelated individuals (lanes 1 and 2 for one individual, lanes 3 and 4 for the other) were immunoprecipitated with an anti-Parkin monoclonal antibody (αParkin) or control mouse IgG (mIgG), followed by immunoblotting with a polyclonal anti-Parkin antibody, a polyclonal anti-PINK1 antibody, or a monoclonal anti–DJ-1 antibody. Multiple endogenous PINK1 proteolytic bands were detected (arrows). (J) A schematic illustration of interaction among PPD complex components. IBR, in between RING fingers; MTS, mitochondrial targeting sequence; UBL, ubiquitin-like.