Click-generated triazole ureas as ultrapotent, in vivo-active serine hydrolase inhibitors

Serine hydrolases (SHs) are a diverse enzyme class representing > 1% of all human proteins. The biological functions for most SHs remain poorly characterized due to a lack of selective inhibitors to probe their activity in living systems. Here, we show that a substantial number of SHs can be irreversibly inactivated by 1,2,3-triazole ureas, which exhibit negligible cross-reactivity with other protein classes. Rapid lead optimization by click chemistry-enabled synthesis and competitive activity-based profiling identified 1,2,3-triazole ureas that selectively inhibit enzymes from diverse branches of the SH superfamily, including peptidases (acyl-peptide hydrolase or APEH), lipases (platelet-activating factor acetylhyrolase-2 or PAFAH2), and uncharacterized hydrolases (α, β-hydrolase 11 or ABHD11), with exceptional potency in cells (sub-nM) and mice (< 1 mg/kg). We show that APEH inhibition leads to accumulation of N-acetylated proteins and promotes proliferation in T-cells. These data designate 1,2,3-triazole ureas as a pharmacologically privileged chemotype for SH inhibition that shows broad activity across the SH class coupled with tunable selectivity for individual enzymes.