Abstract
AbstractIt has recently been shown thatKAT8, a genome-wide association study (GWAS) candidate risk gene for Parkinson’s Disease, is involved in PINK1/Parkin-dependant mitophagy. TheKAT8gene encodes a lysine acetyltransferase and represents the catalytically active subunit of the non-specific lethal (NSL) epigenetic remodelling complex. In the current study, we show that contrary to KAT5 inhibition, dual inhibition of KAT5 and KAT8 via the MG149 compound inhibits the initial steps of the PINK1-dependant mitophagy process. More specifically, our study shows that following mitochondrial depolarisation induced by mitochondrial toxins, MG149 treatment inhibits PINK1-dependant mitophagy initiation by impairing PINK1 activation, and subsequent phosphorylation of Parkin and ubiquitin. While this inhibitory effect of MG149 on PINK1-activation is potent, MG149 treatment in the absence of mitochondrial toxins is sufficient to depolarise the mitochondrial membrane, recruit PINK1 and promote partial downstream recruitment of the autophagy receptor p62, leading to an increase in mitochondrial delivery to the lysosomes. Altogether, our study provides additional support for KAT8 as a regulator of mitophagy and autophagy processes.
Publisher
Cold Spring Harbor Laboratory
Reference49 articles.
1. Inhibition of Proteasomal Activity Causes Inclusion Formation in Neuronal and Non-Neuronal Cells Overexpressing Parkin
2. New insights into the genetic etiology of Alzheimer’s disease and related dementias;Nature Genetics,2022
3. The role of mitochondrial function and cellular bioenergetics in ageing and disease;British Journal of Dermatology,2013
4. Post-translational Protein Acetylation: An elegant mechanism for bacteria to dynamically regulate metabolic functions;Frontiers in Microbiology,2019
5. Drosophila pink1 is required for mitochondrial function and interacts genetically with parkin