1. Discovery and structure of a new inhibitor scaffold of the autophagy initiating kinase ULK1
- Author
-
Michael B. Lazarus and Kevan M. Shokat
- Subjects
Scaffold ,Molecular Structure ,Chemistry ,Kinase ,Mechanism (biology) ,Vesicle ,Organic Chemistry ,Clinical Biochemistry ,Autophagy ,Intracellular Signaling Peptides and Proteins ,Pharmaceutical Science ,ULK1 ,Protein Serine-Threonine Kinases ,BAG3 ,Biochemistry ,Energy homeostasis ,Article ,Cell biology ,Drug Discovery ,Molecular Medicine ,Autophagy-Related Protein-1 Homolog ,Humans ,Molecular Biology - Abstract
Energy homeostasis in eukaryotic cells is a complex and fundamental process that is misregulated in several human diseases. A key component of energy regulation is a process called autophagy that involves the recycling of cellular components. There has been much recent interest in studying the mechanism of autophagy to understand an important cellular process and to evaluate the therapeutic potential in targeting autophagy. Activation of a kinase called ULK1 initiates autophagy by driving downstream pathways that lead to the formation of double membrane bound vesicles that surround the cellular contents that are to be degraded. Here, we report the discovery of an inhibitor of ULK1 with improved selectivity and a high-resolution crystal structure of the compound bound to the kinase, which will be useful tools for studying autophagy in cells.
- Published
- 2015