Studies with peptide-based and macromolecular inhibitors of the caspase family of cysteine proteases have helped to define a central role for these enzymes in inflammation and mammalian apoptosis. A clear interpretation of these studies has been compromised by an incomplete understanding of the selectivity of these molecules. Here we describe the selectivity of several peptide-based inhibitors and the coxpox serpin CrmA against 10 human caspases. The peptide aldehydes that were examined (Ac-WEHD-CHO, Ac-DEVD-CHO, Ac-YVAD-CHO, t-butoxycarbonyl-IETD-CHO, and t-butoxycarbonyl-AEVD-CHO) included several that contain the optimal tetrapeptide recognition motif for various caspases. These aldehydes display a wide range of selectivities and potencies against these enzymes, with dissociation constants ranging from 75 pM to >10 M. The halomethyl ketone benzyloxycarbonyl-VAD fluoromethyl ketone is a broad specificity irreversible caspase inhibitor, with second-order inactivation rates that range from 2.9 ؋ 10 2 M ؊1 s ؊1 for caspase-2 to 2.8 ؋ 10
M
؊1s ؊1 for caspase-1. The results obtained with peptidebased inhibitors are in accord with those predicted from the substrate specificity studies described earlier. The cowpox serpin CrmA is a potent (K i < 20 nM) and selective inhibitor of Group I caspases (caspase-1, -4, and -5) and most Group III caspases (caspase-8, -9, and -10), suggesting that this virus facilitates infection through inhibition of both apoptosis and the host inflammatory response.Members of the caspase family of cysteine proteases, which at present includes 11 homologues of human origin, are important mediators of both inflammation, where they are involved in the production of several inflammatory cytokines, and apoptosis, where they participate in signaling and effector pathways (for review, see Ref. 1). The evidence for the central role of these enzymes in both of these biological processes was initially obtained using potent peptide-based and macromolecular inhibitors. For example, the finding that Ac-YVAD-CHO, a potent inhibitor of caspase-1, prevented the release of interleukin-1 (IL-1) 1 from monocytes, suggested that this enzyme was, in fact, the pro-IL-1-processing enzyme (2). This was later confirmed with the description of caspase-1-deficient mice, which are defective in the production of this cytokine (3,4). Similarly, the observation that apoptosis could be attenuated by the cowpox serpin CrmA, also known to be a potent caspase-1 inhibitor, provided the first compelling evidence that caspases play an important role in mammalian cell death (5). This has recently been confirmed by several studies, including the description of caspase-3-deficient mice, which have a striking defect in the programmed cell deaths that occur during neuronal development (6).Studies using these and other caspase inhibitors continue to be an important component of the repertoire of scientists investigating these complex biological processes in whole cells and in vivo. Regarding the latter, there are numerous recent re...
