Allosteric inhibitors of calpains: Reevaluating inhibition by PD150606 and LSEAL

Abstract

Background: The mercaptoacrylate calpain inhibitor, PD150606, has been shown by X-ray crystallography to bind to a hydrophobic groove in the enzyme's penta-EF-hand domains far away from the catalytic cleft and has been previously described as an uncompetitive inhibitor of calpains. The penta-peptide LSEAL has been reported to be an inhibitor of calpain and was predicted to bind in the same hydrophobic groove. The X-ray crystal structure of calpain-2 bound to its endogenous calpain inhibitor, calpastatin, shows that calpastatin also binds to the hydrophobic grooves in the two penta-EF-hand domains, but its inhibitory domain binds to the protease core domains and blocks the active site cleft directly.

Methods: The mechanisms of inhibition by PD150606 and LSEAL were investigated using steady-state kinetics of cleavage of a fluorogenic substrate by calpain-2 and the protease core of calpain1, as well as by examining the inhibition of casein hydrolysis by calpain and the autoproteolysis of calpain.

Results: PD150606 inhibits both full-length calpain-2 and the protease core of calpain-1 with an apparent noncompetitive kinetic model. The penta-peptide LSEAL failed to inhibit either whole calpain or its protease core in vitro.

Conclusions: PD150606 cannot inhibit cleavage by calpain-2 of small substrates via binding to the penta-EF-hand domain.

General significance: PD150606 is often described as a calpain-specific inhibitor due to its ability to target the penta-EF-hand domains of calpain, but we show that it must be acting at a site on the protease core domain instead.

Keywords: Allosteric inhibitor; Calcium-activated protease; Calpain; Enzyme kinetics; PD150606; Penta-EF-hand.