Mitochondrial hexokinase HKI is a novel substrate of the Parkin ubiquitin ligase

Dysfunction of Parkin, a RING-IBR-RING motif containing protein, causes autosomal recessive familial Parkinsonism. Biochemically, Parkin is a ubiquitin-ligating enzyme (E3) that catalyzes ubiquitin transfer from ubiquitin-activating and -conjugating enzymes (E1/E2) to a substrate. Recent studies have revealed that Parkin localizes in the cytoplasm and its E3 activity is repressed under steady-state conditions. In contrast, Parkin moves to mitochondria with low membrane potential, thereby activating the latent enzymatic activity of the protein, which in turn triggers Parkin-mediated ubiquitylation of numerous mitochondrial substrates. However, the mechanism of how Parkin-catalyzed ubiquitylation maintains mitochondrial integrity has yet to be determined. To begin to address this, we screened for novel Parkin substrate(s) and identified mitochondrial hexokinase I (HKI) as a candidate. Following a decrease in membrane potential, Parkin ubiquitylation of HKI leads to its proteasomal degradation. Moreover, most disease-relevant mutations of Parkin hinder this event and endogenous HKI is ubiquitylated upon dissipation of mitochondrial membrane potential in genuine-Parkin expressing cells, suggesting its physiological importance.

► Dysfunction of Parkin, a ubiquitin-ligating enzyme, causes familial Parkinsonism.
► Parkin ubiquitylates numerous mitochondrial substrates on damaged mitochondria.
► We identified mitochondrial hexokinase I (HKI) as a novel Parkin substrate.
► Endogenous HKI is ubiquitylated upon dissipation of mitochondrial membrane potential.