ABSTRACT
Abstract-Carriers of herpes simplex virus type 1 (HSV-1) account for more than 90% of the global population. Infection manifests itself in the formation of blisters and ulcers on the face or genitals and can cause blindness, encephalitis, and generalized infection. All first- and second-line modern antiherpetic drugs selectively inhibit viral DNA polymerase. The purine-benzoxazine conjugate LAS-131 ((S)-4-[6-(purin-6-yl)aminohexanoyl]-7,8-difluoro-3,4-dihydro-3-methyl-2H-[1,4]benzoxazine), which we have described earlier, uses the large subunit of the HSV-1 terminase complex as a biotarget and selectively inhibits HSV-1 reproduction in vitro. Basically new results were for the first time obtained to characterize the combined effect on human herpesvirus infection for LAS-131 used in combination with practically significant antiviral compounds, including the nucleoside analogs acyclovir (ACV), penciclovir (PCV), ganciclovir (GCV), brivudine (BVdU), iododeoxyuridine (IdU), and adenine arabinoside (Ara-A); the nucleoside phosphonate analog cidofovir (CDV); and the pyrophosphate analog foscarnet (FOS). A cytopathic effect (CPE) inhibition assay showed that the drug concentration that inhibited the virus-induced CPE by 50% decreased by a factor of 2 (an additive effect, FOS) or more (a synergistic effect; ACV, PCV, GCV, IdU, BVdU, Ara-A, and CDV) when the drugs were used in combination with LAS-131. Nonpermissive conditions for HSV-1 reproduction were thus created at lower drug concentrations, opening up new real possibilities to control human herpesvirus infection.
ABSTRACT
INTRODUCTION: Herpes simplex viruses type 1 (HSV-1) are extremely widespread throughout the world and, similar to other herpesviruses, establish lifelong persistent infection in the host. Reactivating sporadically, HSV-1 elicits recurrences in both immunocompetent and immunocompromised individuals and can cause serious diseases (blindness, encephalitis, generalized infections). The currently available antiherpetic drugs that aimed mainly at suppressing replication of viral DNA are not always effective enough, for example, due to the development of drug resistance. As we showed earlier the newly discovered compound LAS-131 exhibits the strong and highly selective inhibitory activity against HSV1, including strain resistant to acyclovir (selective index, SI = 63). The presence of LAS-131 at a concentration of 20 µg/ml leads to a decrease in the titer of HSV-1 (strain L2) by 4 lg in a one round of HSV-1 replication. MATERIAL AND METHODS: To establish the step(s) of the virus life cycle that is sensitive to the action of LAS-131, we have applied a widely used approach, that made it possible to determine how long the addition of a compound can be postponed before it loses its antiviral activity (time-of-addition assay), and to compare this indicator with the crucial time of application of inhibitors with a well-known mechanism of action (in cell culture). RESULTS: It has been shown for the first time that LAS-131 retains a pronounced antiviral effect when introduced into the experimental system no later than 9 hours post-infection (p.i.). However, LAS-131 does not affect the release of HSV-1 from the cell. DISCUSSION: Together with published data on the termination of the synthesis of viral DNA 9-12 h after the adsorption in a cell culture infected with HSV with a high multiplicity (≥1 PFU/cell), our results suggest that LAS-131 interferes the life cycle of HSV-1 during synthesis of viral DNA. Further studies of the mechanism of action are necessary to establish definitely the biological target for this compound,.