Development of Activity-Based Chemical Probes for Human Sirtuins.

Abstract

Sirtuins consume stoichiometric amounts of nicotinamide adenine dinucleotide (NAD+) to remove an acetyl group from lysine residues. These enzymes have been implicated in regulating various cellular events and have also been suggested to mediate the beneficial effects of calorie restriction (CR). However, controversies on sirtuin biology also peaked during the past few years because of conflicting results from different research groups. This is partly because these enzymes have been discovered recently and the intricate interaction loops between sirtuins and other proteins make the characterization of them extremely difficult. Current molecular biology and proteomics techniques report protein abundance rather than active sirtuin content. Innovative chemical tools that can directly probe the functional state of sirtuins are desperately needed. We have obtained a set of powerful activity-based chemical probes that are capable of assessing the active content of sirtuins in model systems. These probes consist of a chemical "warhead" that binds to the active site of active enzyme and a handle that can be used for the visualization of these enzymes by fluorescence. In complex native proteome, the probes can selectively "highlight" the active sirtuin components. Furthermore, these probes were also able to probe the dynamic change of sirtuin activity in response to cellular stimuli. These chemical probes and the labeling strategies will provide transformative technology to allow the direct linking of sirtuin activity to distinct physiological processes. They will create new opportunities to investigate how sirtuins provide health benefits in adapting cells to environmental cues and provide critical information to dissect sirtuin regulatory networks.