Abstract

Removal of damaged mitochondria is vital for cellular homeostasis especially in non-dividing cells, like neurons. Damaged mitochondria that cannot be repaired by the ubiquitin-proteasomal system are cleared by a form of selective autophagy known as mitophagy. Following damage, mitochondria become labelled with 'eat-me' signals that selectively determine their degradation. Recently, we identified the mitochondrial matrix proteins, NIPSNAP1 (nipsnap homolog 1) and NIPSNAP2 as 'eat-me' signals for damaged mitochondria. NIPSNAP1 and NIPSNAP2 accumulate on the mitochondrial outer membrane following mitochondrial depolarization, recruiting autophagy receptors and adaptors, as well as human Atg8 (autophagy-related 8)-family proteins to facilitate mitophagy. The NIPSNAPs allow a sustained recruitment of SQSTM1-like receptors (SLRs) to ensure efficient mitophagy. Zebrafish lacking Nipsnap1 show decreased mitophagy in the brain coupled with increased ROS production, loss of dopaminergic neurons and strongly reduced locomotion.