Rhomboid proteases are evolutionary conserved intramembrane serine proteases. Because of their emerging role in many important biological pathways, rhomboids are potential drug targets. Unfortunately, few chemical tools are available for their study. Here, we describe a mass spectrometry-based assay to measure rhomboid substrate cleavage and inhibition. We have identified isocoumarin inhibitors and developed activity-based probes for rhomboid proteases. The probes can distinguish between active and inactive rhomboids due to covalent, reversible binding of the active-site serine and stable modification of a histidine residue. Finally, the structure of an isocoumarin-based inhibitor with Escherichia coli rhomboid GlpG uncovers an unusual mode of binding at the active site and suggests that the interactions between the 3-substituent on the isocoumarin inhibitor and hydrophobic residues on the protease reflect S′ subsite binding. Overall, these probes represent valuable tools for rhomboid study, and the structural insights may facilitate future inhibitor design.MALDI screening | covalent inhibition | regulated intramembrane proteolysis P roteolysis controls many important biological processes, such as apoptosis, antigen presentation, and blood coagulation. Selective digestion of protein substrates is possible by a combination of tight posttranslational control of protease activity (1) and the protease's substrate specificity, which generally is governed by the primary sequence around the scissile bond (2). The use of inhibitors and activity-based probes (ABPs) has led to a tremendous gain in understanding the roles of proteases within physiological and pathological processes (3). ABPs are small molecules that bind only to active enzymes, but not to zymogen or inhibitor-bound forms (4). ABPs generally consist of a detection tag, a spacer, and a "warhead." The warhead covalently binds to the target enzyme(s) and often is derived from a mechanism-based inhibitor. In the past, ABPs were used to study the activation, localization, and function of soluble proteases in a variety of organisms and disease models (5).Most proteases are soluble and surrounded by an aqueous environment. However, several families of intramembrane proteases exist (6-8): the metalloprotease family M50 (site-2 protease), the aspartic protease family A22 (signal peptide peptidase and γ-secretase), and the serine protease family S54 [rhomboid; numbering according to the MEROPS database (9)]. Rhomboid was discovered in 2001 as a protease in the EGF receptor signaling pathway in the fruitfly Drosophila melanogaster (10). Interestingly, rhomboid genes occur in all kingdoms of nature and are found in most sequenced organisms (11,12). Rhomboids appear to have a wide range of physiological functions, including bacterial protein export (13) and invasion by apicomplexan parasites (14,15), but the roles of many rhomboids remain to be discovered.Rhomboids catalyze peptide bond hydrolysis using a catalytic dyad formed by a serine residue in transmembrane domain...
