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  • Cytosolic PINK1 promotes the targeting of ubiquitinated proteins to the aggresome-autophagy pathway during proteasomal stress.

Cytosolic PINK1 promotes the targeting of ubiquitinated proteins to the aggresome-autophagy pathway during proteasomal stress.

Autophagy (2016-04-07)
Ju Gao, Mengen Li, Siyue Qin, Ting Zhang, Sicong Jiang, Yuan Hu, Yongkang Deng, Chenliang Zhang, Dujuan You, Hongchang Li, Dezhi Mu, Zhuohua Zhang, Changan Jiang
ABSTRACT

During proteasomal stress, cells can alleviate the accumulation of polyubiquitinated proteins by targeting them to perinuclear aggresomes for autophagic degradation, but the mechanism underlying the activation of this compensatory pathway remains unclear. Here we report that PINK1-s, a short form of Parkinson disease (PD)-related protein kinase PINK1 (PTEN induced putative kinase 1), is a major regulator of aggresome formation. PINK1-s is extremely unstable due to its recognition by the N-end rule pathway, and tends to accumulate in the cytosol during proteasomal stress. Overexpression of PINK1-s induces aggresome formation in cells with normal proteasomal activities, while loss of PINK1-s function leads to a significant decrease in the efficiency of aggresome formation induced by proteasomal inhibition. PINK1-s exerts its effect through phosphorylation of the ubiquitin-binding protein SQSTM1 (sequestosome 1) and increasing its ability to sequester polyubiquitinated proteins into aggresomes. These findings pinpoint PINK1-s as a sensor of proteasomal activities that transduces the proteasomal impairment signal to the aggresome formation machinery.

MATERIALS
Product Number
Brand
Product Description

Millipore
NP-40 Alternative
Sigma-Aldrich
Anti-Ubiquitin Antibody, Lys48-Specific, clone Apu2, rabbit monoclonal, clone Apu2, from rabbit