Identification and characterization of a non-peptidic cyclophilin ligand with antiviral activity against feline and porcine α-coronaviruses

Coronaviruses (CoVs) are emerging pathogens that have been extensively studied over the last 20 years and can cause acute respiratory diseases in humans, as exemplified by the SARS-CoV-2 pandemic. Coronaviruses are also known for their importance in veterinary medicine, being responsible for severe pathologies in pets and livestock. These include Feline Infectious Peritonitis Virus (FIPV), which causes a fatal disease in cats. In livestock, porcine coronaviruses such as Transmissible Gastroenteritis Virus (TGEV) and Porcine Epidemic Diarrhoea Virus (PEDV) are the causative agents of an acute enteric disease in piglets with a high mortality rate and a significant impact on the pork industry. In addition, animal coronaviruses may represent a zoonotic reservoir. Therefore, efficient antiviral strategies are required to inhibit the multiplication of coronaviruses infecting various animal species. Here, we synthesized 20 small-molecule ligands that target cyclophilins, a family of cellular chaperons hijacked by several viruses including CoVs. We screened their antiviral activity against feline and porcine alpha-CoVs, and identified a compound, F83233, as a potent inhibitor of FIPV, TGEV and PEDV replication at micromolar concentrations that was effective in feline, porcine and simian cells. As cyclophilins are highly conserved among mammals, F83233 could be a promising antiviral to treat different animal and zoonotic coronaviruses.