Molecular mechanisms underlying PINK1 and Parkin catalyzed ubiquitylation of substrates on damaged mitochondria

PINK1 and Parkin are gene products that cause genetic recessive Parkinsonism. PINK1 is a protein kinase and Parkin is a ubiquitin ligase (E3) that links ubiquitin to a substrate. Importantly, under steady state conditions, the enzymatic activity of Parkin is completely suppressed, but is activated when mitochondria become abnormal. In 2013 and 2014, biochemical and structure-function analyses revealed a number of critical mechanistic insights. First, Parkin is a self-inhibitory E3 that suppresses its E3 activity via intramolecular interactions. Second, in response to a decrease in mitochondrial membrane potential, PINK1 phosphorylates Ser65 in both the Parkin ubiquitin-like domain and ubiquitin itself. These phosphorylation events cooperate to relieve the Parkin autoinhibition. Third, activated Parkin forms a ubiquitin-thioester bond at Cys431 to produce a reaction intermediate that catalyzes ubiquitylation of substrates on damaged mitochondria. While the molecular mechanism regulating Parkin enzymatic activity has largely eluded clarification, a complete picture is now emerging. This article is part of a Special Issue entitled: Mitophagy.