Azelnidipine Exhibits In Vitro and In Vivo Antiviral Effects against Flavivirus Infections by Targeting the Viral RdRp

Drug screening identified that handelin inhibits feline calicivirus infection by inhibiting HSP70 expression in vitro

Feline calicivirus (FCV) is considered one of the major pathogens of cats worldwide and causes upper respiratory tract disease in all cats. In some cats, infection is by a highly virulent strain of FCV (vs.-FCV), which can cause severe and fatal systemic disease symptoms. At present, few antiviral drugs are approved for clinical treatment against FCV. Therefore, there is an imminent need for effective FCV antiviral agents. Here, we used observed a cytopathic effect (CPE) assay to screen 1746 traditional Chinese medicine monomer compounds and found one that can effectively inhibit FCV replication, namely, handelin, with an effective concentration (EC50) value of approximately 2.5 µM. Further study showed that handelin inhibits FCV replication via interference with heat shock protein 70 (HSP70), which is a crucial host factor and plays a positive role in regulating viral replication. Moreover, handelin and HSP70 inhibitors have broad-spectrum antiviral activity. These findings indicate that handelin is a potential candidate for the treatment of FCV infection and that HSP70 may be an important drug target.

Investigation of novel 5'-amino adenosine derivatives with potential anti-Zika virus activity

The Zika virus (ZIKV) infections remains a global health threat. However, no approved drug for treating ZIKV infection. We previously found TZY12-9, a 5'-amino NI analog, that showed anti-ZIKV activity without chemical phosphorylation. Here, a series of 5'-amino NI analogs were synthesized and evaluated. The compound XSJ2-46 exhibited potent in vitro activity without requiring chemical phosphorylation, favorable pharmacokinetic and acute toxicity profiles. Preliminary mechanisms of anti-ZIKV activity of XSJ2-46 were investigated via a series of ZIKV non-structural protein inhibition assays and host cell RNA-seq. XSJ2-46 acted at the replication stage of viral infection cycle, and exhibited reasonable inhibition of RNA-dependent RNA polymerases (RdRp) with an IC50 value of 8.78 μM, while not affecting MTase. RNA-seq analysis also revealed differential expression genes involved in cytokine and cytokine receptor pathway in ZIKV-infected U87 cells treated with XSJ2-46. Importantly, treatment with XSJ2-46 (10 mg/kg/day) significantly enhanced survival protection (70% survival) in ZIKV-infected ICR mice. Additionally, XSJ2-46 administration resulted in a significant decrease in serum levels of ZIKV viral RNA in the IFNα/β receptor-deficient (Ifnar-/-) A129 mouse model. Therefore, the remarkable in vitro and in vivo anti-ZIKV activity of compound XSJ2-46 highlights the promising research direction of utilizing the 5'-amino NI structure skeleton for developing antiviral NIs.

In vitro and in vivo efficacy of Molnupiravir against Zika virus infections

•Molnupiravir exhibits effective antiviral activity against ZIKV in vitro. •Intraperitoneal administration of Molnupiravir protects mice from lethal ZIKV challenge. •Molnupiravir might act on the replication phase of the ZIKV life cycle.