Kinetin Riboside and Its ProTides Activate the Parkinson's Disease Associated PTEN-Induced Putative Kinase 1 (PINK1) Independent of Mitochondrial Depolarization.

Laura OsgerbyYu-Chiang LaiPeter J ThorntonJoseph AmalfitanoCécile S Le DuffIqra JabeenHachemi KadriAgeo MiccoliJames H R TuckerMiratul M K MuqitYoucef Mehellou

Published in: Journal of medicinal chemistry (2017)

Since loss of function mutations of PINK1 lead to early onset Parkinson's disease, there has been growing interest in the discovery of small molecules that amplify the kinase activity of PINK1. We herein report the design, synthesis, serum stability, and hydrolysis of four kinetin riboside ProTides. These ProTides, along with kinetin riboside, activated PINK1 in cells independent of mitochondrial depolarization. This highlights the potential of modified nucleosides and their phosphate prodrugs as treatments for neurodegenerative diseases.

Keyphrases

early onset
oxidative stress
late onset
induced apoptosis
protein kinase
tyrosine kinase
small molecule
cell cycle arrest
diabetic rats
pi k akt
signaling pathway
endothelial cells
human health
cell death