Kinetic Mechanism and Inhibitory Study of Protein Arginine Methyltransferase 1

Protein arginine methyltransferase 1 (PRMT1) is a key posttranslational modification enzyme that catalyzes the methylation of specific arginine residues in histone and nonhistone protein substrates, regulating diverse cellular processes such as transcriptional initiation, RNA splicing, DNA repair, and signal transduction. Recently the essential roles of PRMT1 in cancer and cardiovascular complications have intrigued much attention. Developing effective PRMT inhibitors therefore is of significant therapeutic value. The research on PRMT inhibitor development however is greatly hindered by poor understanding of the biochemical basis of protein arginine methylation and lack of effective assays for PRMT1 inhibitor screening. Herein, we report our effort in the kinetic mechanism study as well as the fluorescent probe and inhibitor development for PRMT1. New fluorescent reporters were designed and applied to perform single-step analysis of substrate binding and methylation of PRMT1. Using these reporters, we performed transient-state fluorescence measurements to dissect the rate constants along the PRMT1 catalytic coordinate. The data give evidence that the chemistry of