Production of human cathepsins using Expi293™ mammalian cell expression system for off-target activity of cysteine protease inhibitor screening.
Zoe Turner, Elena Arutyunova, Duong T Bui, Ling Han, Appan Srinivas Kandadai, Bing Bai, Howard S Young, Lara K Mahal, John S Klassen, M Joanne Lemieux
Abstract
Open AccessFollowing the SARS-CoV-2 pandemic, many direct-acting antivirals targeting viral cysteine protease were developed. SARS-CoV-2, as well as other viruses, rely on cysteine proteases for their replication, suggesting future generations of antivirals targeting cysteine proteases will emerge. A major concern for these first-generation drugs is the off-target effects on host cysteine proteases. Therefore, screening for inhibitor specificity is a crucial step in antiviral drug development. Cathepsins are one of the most abundant human proteases, which have roles in maintaining cell health and are key to many physiological processes. Here we describe a general expression and purification protocol for cathepsins B, S, and L using the Expi293™ mammalian expression system. We characterized the glycosylation pattern and kinetic parameters of purified enzymes with commercially available cathepsin-specific fluorogenic substrates and also established cathepsin inhibition screen assays. We tested specificity indices of peptidic inhibitors of SARS-CoV-2 Mpro synthesized by our team and nirmatrelvir as a benchmark for all three cathepsins. Establishing a reliable cathepsin inhibition assay would assist with screening of newly developed cysteine protease inhibitors for off-target activity within the scope of pandemic preparedness.