Publication date: Jul 07, 2025
The 3CL protease, a highly conserved enzyme in the coronavirus, plays a crucial role in the viral life cycle by facilitating viral replication through precise cleavage of polyproteins. Beyond its proteolytic function, the 3CL protease also engages in intricate interactions with host cell proteins involved in critical cellular processes such as transcription, translation, and nuclear-cytoplasmic transport, effectively hijacking cellular machinery to promote viral replication. Additionally, it disrupts innate immune signaling pathways, suppresses interferon activity and cleaves antiviral proteins. Furthermore, it modulates host cell death pathways including pyroptosis and apoptosis, interferes with autophagy and inhibits stress granule formation to maintain viral infection and exacerbate viral pathogenesis. This review highlights the molecular mechanisms by which the 3CL protease orchestrates virus-host interactions, emphasizing its central role in coronavirus pathogenesis and highlighting potential therapeutic targets for future interventions.
| Concepts | Keywords |
|---|---|
| Apoptosis | 3CL protease |
| Coronavirus | Coronavirus |
| Host | Innate immunity |
| Molecular | Pathogenesis |
| Precise | Viral replication |
| Virus-host interactions |