Herpes Simplex Virus (HSV) is the cause of cold sores, blindness and encephalitis and often leads to recurrent infections. Use of current anti-viral therapies can be limited when drug resistant HSV mutants arise. Thus, novel drugs for the treatment of HSV are needed. Previous research in our laboratory has determined that the telomerase inhibitor, MST-312, interferes with multiple steps of the HSV life cycle. The structure of MST-312 contains moieties related to a natural compound found in green tea, epigallocatechin gallate (EGCG). EGCG has been reported to possess direct virucidal activities toward HSV-1. Here, we tested the virucidal activity of MST-312 and compared it to that of EGCG. Specifically, HSV-1 was exposed to various concentrations of MST-312 or EGCG for time periods between 1 and 60 min and then the ability of the treated virions to form plaques on Vero cells was assessed. When treated for 60 min, 40 μM MST-312 and 0.5-1.0 μM EGCG significantly reduced the number of HSV-1 plaque forming units. The temperature at which treatment occurred impacted the ability of the compounds to limit viral replication. Both compounds were effective when treatment occurred at 37 °C and room temperature (RT). However, no inhibition was seen when virions were treated with MST-312 at 4 °C. 1 min treatment with 2 μM EGCG at RT was sufficient to significantly reduce HSV titers. Higher concentrations of MST-312 were required to inactivate HSV-1 virions compared to EGCG. These data indicate that both EGCG and MST-312 possess direct virucidal properties on HSV-1.
Keywords: Antiviral; EGCG; Herpes simplex virus; MST-312; Telomerase; Virucidal.
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