Characterization, application and potential uses of biotin-tagged inhibitors for lymphocyte serine proteases (granzymes)

Abstract

Cytotoxic lymphocytes and natural killer cells are able to kill their target cells in minutes. The death of the target cell occurs after the release of cytoplasmic granules from the effector cell. These granules contain the pore-forming protein perforin and serine proteases (granzymes). To date 10 genes encoding lymphocyte granzymes have been discovered; of these only four have been purified and characterized for their substrate specificity. Several are predicted to have a common chymase-like specificity which is found in the granule extracts. Others may need to be enriched as active enzymes before they can be evaluated for substrate hydrolysis. Due to the limitations of detection by substrate hydrolysis, a more sensitive method for the detection of dilute granules was needed. We report the differing reactivities of seven biotin (Bi)-tagged isocoumarin (IC) inhibitors for Asp-ase, chymase, tryptase and Met-ase granzymes. The inhibitors contained different substituents at their no. 3 position: methoxy (OMe), ethoxy (OEt), propoxy (OPr) or 2-phenylethoxy (OEtPh) groups. The OMe group conferred general reactivity, whereas the OEtPh group conferred selective reactivity with chymase granzymes. The inhibitors that contained the longest aminocaproyl (Aca) spacers between the biotin-tag and the isocoumarin ring mediated the most stable granzyme inactivation. These inhibitors were the most effective at blocking lysis of red blood cells by the granule extracts. The inhibitors were used in protein blotting experiments where the biotin was detected with an avidin-enzyme complex. Over 10 granzymes were labelled by the inhibitor Bi-Aca-Aca-IC-OMe. The inhibitors detected granzymes when they were not readily detected by substrate hydrolysis.