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Deubiquitinase CYLD acts as a negative regulator of dopamine neuron survival in Parkinson’s disease

Authors
Sheila K. Pirooznia,Hu Wang
Nikhil Panicker,Manoj Kumar,Stewart Neifert,Mohamad Aasif Dar,Evan Lau,Bong Gu Kang,Javier Redding-Ochoa,Juan C. Troncoso,Valina L. Dawson,Ted M. Dawson,Sheila Pirooznia,Mohammad Dar,Bong Kang,Javier Redding‐Ochoa,Juan Troncoso,Valina Dawson
+16 authors
,Ted Dawson
Published
Apr 1, 2022
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Abstract

Mutations in PINK1 and parkin highlight the mitochondrial axis of Parkinson’s disease (PD) pathogenesis. PINK1/parkin regulation of the transcriptional repressor PARIS bears direct relevance to dopamine neuron survival through augmentation of PGC-1α–dependent mitochondrial biogenesis. Notably, knockout of PARIS attenuates dopaminergic neurodegeneration in mouse models, indicating that interventions that prevent dopaminergic accumulation of PARIS could have therapeutic potential in PD. To this end, we have identified the deubiquitinase cylindromatosis (CYLD) to be a regulator of PARIS protein stability and proteasomal degradation via the PINK1/parkin pathway. Knockdown of CYLD in multiple models of PINK1 or parkin inactivation attenuates PARIS accumulation by modulating its ubiquitination levels and relieving its repressive effect on PGC-1α to promote mitochondrial biogenesis. Together, our studies identify CYLD as a negative regulator of dopamine neuron survival, and inhibition of CYLD may potentially be beneficial in PD by lowering PARIS levels and promoting mitochondrial biogenesis.

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