A regulatory signaling loop comprising the PGAM5 phosphatase and CK2 controls receptor-mediated mitophagy

Receptor-mediated mitophagy in yeast and mammalian systems

Mitophagy, or mitochondria autophagy, plays a critical role in selective removal of damaged or unwanted mitochondria. Several protein receptors, including Atg32 in yeast, NIX/BNIP3L, BNIP3 and FUNDC1 in mammalian systems, directly act in mitophagy. Atg32 interacts with Atg8 and Atg11 on the surface of mitochondria, promoting core Atg protein assembly for mitophagy. NIX/BNIP3L, BNIP3 and FUNDC1 also have a classic motif to directly bind LC3 (Atg8 homolog in mammals) for activation of mitophagy. Recent studies have shown that receptor-mediated mitophagy is regulated by reversible protein phosphorylation. Casein kinase 2 (CK2) phosphorylates Atg32 and activates mitophagy in yeast. In contrast, in mammalian cells Src kinase and CK2 phosphorylate FUNDC1 to prevent mitophagy. Notably, in response to hypoxia and FCCP treatment, the mitochondrial phosphatase PGAM5 dephosphorylates FUNDC1 to activate mitophagy. Here, we mainly focus on recent advances in our understanding of the molecular mechanisms underlying the activation of receptor-mediated mitophagy and the implications of this catabolic process in health and disease.

Monitoring mitophagy in mammalian cells

It is essential for a cell to maintain a proper mitochondrial quality and quantity for normal cellular functions. Damaged or unwanted mitochondria can be selectively removed through mitophagy. Mitophagy research has attracted great attention from life sciences and biomedical fields, it is thus important for the community to properly measure mitophagy. Here, we will focus on the current techniques that have been used to monitor mitophagy in mammalian cells, including morphological and biochemical parameters for monitoring the occurrence of mitophagy.