Functional Characterization of a Novel OTU-like Deubiquitinase from Neospora caninum and Discovery of Small-Molecule Inhibitors

Neospora caninum is a major apicomplexan pathogen responsible for significant reproductive losses in livestock, yet lacks effective therapeutics. Here, we identify and functionally characterize a previously unstudied OTU-like deubiquitinase (ncOTU; XP_003886403) as a key modulator of host–pathogen interactions. Sequence and structural analyses revealed conservation of the catalytic triad (D257, C260, H362) and a Y305-W315-G316 inhibition pocket analogous to viral OTU proteases. Recombinant ncOTU exhibited robust deubiquitinase activity and significantly reduced global ubiquitination levels in mammalian cells, preferentially targeting mono-ubiquitinated and low-molecular-weight substrates. Transcriptomic analysis demonstrated that ncOTU expression correlates with suppressed NF-κB signaling, type I interferon responses, and downstream antiviral effectors, while partially uncoupling upstream nucleic acid sensing pathways. Structure-based virtual screening and biochemical validation identified multiple small-molecule inhibitors targeting the conserved inhibition pocket. Dose-response analysis revealed submicromolar potency for ncOTUi-9 (IC₅₀ = 0.1 μM), ncOTUi-8 (0.2 μM), and ncOTUi-19 (0.3 μM), whereas ncOTUi-3 showed lower activity (7.1 μM). Interaction analyses confirmed stable binding within the inhibition pocket, with more extensive contact networks correlating with increased potency. Collectively, these findings establish ncOTU as a functional deubiquitinase that contributes to evasion and highlight it as a promising therapeutic target for neosporosis.