The PINK1 advantage: recycling mitochondria in times of trouble?
Zak DoricHuihui LiKen NakamuraPublished in: Autophagy (2021)
Parkinson disease remains a debilitating neurodegenerative disorder, despite the discovery of multiple causative genes that account for familial forms. Prominent among these are PRKN/Parkin and PINK1, whose protein products participate in mitochondrial turnover, or mitophagy. But our poor understanding of the basic biological mechanisms driven by those genes in neurons limits our ability to target them therapeutically. Here, we summarize our recent findings enabled by a new platform to track individual mitochondria in neurons. Our analysis delineates the steps of PINK1- and PRKN-dependent mitochondrial turnover, including the unexplored fates of mitochondria after fusion with lysosomes. These studies reveal unexpected mechanisms of mitochondrial quality control, which may contribute to the reliance of neurons on PINK1 under conditions of stress.
Keyphrases
- parkinson disease
- quality control
- oxidative stress
- genome wide
- spinal cord
- cell death
- deep brain stimulation
- endoplasmic reticulum
- reactive oxygen species
- bone mineral density
- high throughput
- small molecule
- dna methylation
- genome wide identification
- gene expression
- single cell
- protein protein
- bioinformatics analysis
- body composition
- genome wide analysis
- spinal cord injury
- transcription factor
- binding protein