Adenovirus Protease: An Overlooked but Druggable Antiviral Target

Human adenovirus infections are typically self-limiting but can become life-threatening in pediatric populations and immunocompromised individuals. Despite this clinical importance, efforts to develop antiviral drugs against adenoviruses remain limited. A promising strategy is to target the adenovirus protease (AVP), an enzyme essential for viral maturation and infectivity. Yet, research on AVP has lagged far behind that on other viral proteases. In this work, we aimed to reposition AVP as a viable target for antiviral therapy. We first discuss why AVP research has fallen behind and emphasize the need to redirect attention toward this protease. Building on advances in SARS-CoV-2 drug discovery, we evaluated the potential of repurposing inhibitors of the main protease (M^pro) and papain-like protease (PL^pro) as modulators of AVP. Additionally, we examined the untapped potential of phytochemicals as novel scaffolds. These analyses were supported by original molecular docking studies. Our results revealed that previously reported SARS-CoV-2 inhibitors, such as the M^pro inhibitor ensitrelvir and the PL^pro inhibitor (compound) 19, engage the catalytic site of AVP and may serve as starting scaffolds for inhibitor design. Screening of phytochemicals further identified promising candidates, including apigenin, camptothecin, kaempferol, and piperine. Together, these findings highlight AVP’s druggability and suggest that both repurposed antivirals and natural products provide complementary avenues for inhibitor development. Finally, we provide some recommendations to facilitate efforts in the discovery of novel AVP inhibitors.