Chemoproteomic discovery of ligand binding hotspots in the lipid kinome

Abstract

Diacylglycerol kinases (DGKs) are integral components of signal transduction cascades that regulate cell biology through phosphorylation of the ubiquitous secondary messenger diacylglycerol. Methods for direct evaluation of DGK activity in native biological systems are lacking and needed to develop chemical probes for studying isoform‐specific functions. Here, I will discuss efforts from my group to utilize ATP acyl phosphate activity‐based probes and quantitative mass spectrometry to map previously undefined ATP‐ and small molecule‐binding sites of representative members from all subtypes of the DGK family. We use our chemoproteomics strategy to discover an unusual binding mode for the DGK‐alpha (DGKA) inhibitor ritanserin, including interactions at a novel binding site remote from the ATP binding pocket. I will also describe our efforts towards discovery of fragment leads for future development of highly potent and selective DGKA inhibitors. Collectively, our studies illustrate the power of chemoproteomics to site‐specifically profile protein‐small molecule interactions and reveal key ligand binding sites for selective inactivation of the DGK family of lipid kinases.

Document Details

Document Type

Pub Defense Publication

Publication Date

Apr 01, 2018

Source ID

10.1096/fasebj.2018.32.1_supplement.540.1

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