Abstract
Mitochondrial quality control is a key element of neuronal health and viability. When left untouched, defective mitochondria can initiate neuronal degeneration. Cytosolic proteins PINK1 and Parkin comprise one key pathway responsible for clearing damaged mitochondria. Neurons, however, pose a unique challenge to this process because proteins need to be abundantly available at locations distant from the cell body. Recent study has confirmed that local translation of PINK1 in axons and dendrites is the solution. Pink1 transcripts are tethered to mitochondria via SYNJ2a and active translation, then subsequently co-transported to distal locations. Once arriving in the neuron's periphery, local translation of PINK1 can facilitate mitophagy and ultimately sustain mitochondrial health.
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