Designed inhibitors of insulin-degrading enzyme regulate the catabolism and activity of insulin


Background- Insulin is a vital peptide hormone that is a central regulator of glucose homeostasis, and impairments in insulin signaling cause diabetes mellitus. In principle, it should be possible to enhance the activity of insulin by inhibiting its catabolism, which is mediated primarily by insulin-degrading enzyme (IDE), a structurally and evolutionarily distinctive zinc-metalloprotease. Despite interest in pharmacological inhibition of IDE as an attractive anti-diabetic approach dating to the 1950s, potent and selective inhibitors of IDE have not yet emerged. Methodology/Principal Findings- We used a rational design approach based on analysis of combinatorial peptide mixtures and focused compound libraries to develop novel peptide hydroxamic acid inhibitors of IDE. The resulting compounds are ?106 times more potent than existing inhibitors, non-toxic, and surprisingly selective for IDE vis-à-vis conventional zinc-metalloproteases. Crystallographic analysis of an IDE-inhibitor complex reveals a novel mode of inhibition based on stabilization of IDE's “closed,” inactive conformation. We show further that pharmacological inhibition of IDE potentiates insulin signaling by a mechanism involving reduced catabolism of internalized insulin. Conclusions/Significance The inhibitors we describe are the first to potently and selectively inhibit IDE or indeed any member of this atypical zinc-metalloprotease superfamily. The distinctive structure of IDE's active site, and the mode of action of our inhibitors, suggests that it may be possible to develop inhibitors that cross-react minimally with conventional zinc-metalloproteases. Significantly, our results reveal that insulin signaling is normally regulated by IDE activity not only extracellularly but also within cells, supporting the longstanding view that IDE inhibitors could hold therapeutic value for the treatment of diabetes.



Insulin, catabolism, proteases, hydroxamic acids, oils, insulin signaling, foam, esters


Copyright 2010 PLoS ONE. Recommended citation: Leissring, Malcolm A., Enrico Malito, Sabrine Hedouin, Lael Reinstatler, Tomoko Sahara, Samer O. Abdul-Hay, Shakeel Choudhry et al. "Designed inhibitors of insulin-degrading enzyme regulate the catabolism and activity of insulin." PloS one 5, no. 5 (2010): e10504. doi:10.1371/journal.pone.0010504. URL: Reproduced in accordance with the original publisher's licensing terms and wirth permission from the authors.