A new series of 2-substituted 5,6-dichlorobenzimidazole ribonucleosides has been synthesized and tested for activity against two human herpes viruses and for cytotoxicity. 2,5,6-Trichloro-1-(beta-D-ribofuranosyl)benzimidazole (TCRB) was prepared by ribosylation of the heterocycle 2,5,6-trichlorobenzimidazole followed by a removal of the protecting groups. The 2-bromo derivative (BDCRB) was made in a similar fashion from 2-bromo-5,6-dichlorobenzimidazole. In contrast, the 2-iodo derivative presented a more difficult problem since the appropriate heterocycle was unavailable. This prompted us to prepare the 2-amino derivative followed by nonaqueous diazotization and removal of the blocking groups. Biological evaluation revealed marked differences in the activities of these compounds and the closely related known compound 5,6-dichloro-1-(beta-D-ribofuranosyl)benzimidazole (DRB). DRB was weakly active against both human cytomegalovirus (HCMV) and herpes simplex virus type 1 (HSV-1), (IC50's = 42 and 30 microM, respectively) but was cytotoxic to uninfected human foreskin fibroblasts and KB cells in the same dose range. Similar results were obtained with the heterocycle 2,5,6-trichlorobenzimidazole. In marked contrast, the ribonucleoside of 2,5,6-trichlorobenzimidazole (TCRB) was active against HCMV (IC50 = 2.9 microM, plaque assay; IC90 = 1.4 microM, yield assay) but only weakly active against HSV-1 (IC50 = 102 microM, plaque assay). Little to no cytotoxicity was observed in HFF and KB cells at concentrations up to 100 microM. By changing the substituent at the 2-position from chlorine to bromine (BDCRB), a 4-fold increase in activity against HCMV was observed without any significant increase in cytotoxicity. In contrast, the 2-I and 2-NH2 derivatives were only weakly active against HCMV and HSV-1 with activity not well-separated from cytotoxicity. These data establish that for maximum activity against HCMV with separation from cytotoxicity, ribose is preferred at the 1-position and that Cl or Br is apparently preferred at the 2-position. The activity and selectivity of both TCRB and BDCRB were better than that observed with either ganciclovir or foscarnet.
Seven arabinosyl, 2'-deoxyribosyl, and ribosyl pyrrolo[2,3-dlpyrimidines were evaluated in vitro for activity against human cytomegalovirus and for cytotoxicity in primary and established cell lines of human origin. The parent ribosyl analogs exhibited little antiviral selectivity owing to high cytotoxicity. In contrast, aratubercidin, ara-toyocamycin, ara-sangivamycin, and deoxysangivamycin exhibited selectivity between antiviral effect (measured by plaque or titer reduction or both) and cytotoxicity (measured microscopically and by incorporation of radioactive precursors into DNA, RNA, and protein). The selectivity (in vitro therapeutic indexes) for these four compounds ranged from 2 to 40. The two sangivamycin analogs were the most potent and selective. Ara-sangivamycin, for example, inhibited virus replication 105-fold at a concentration (10 ,uM) which produced only partial inhibition of cell growth and labeled precursor incorporation. The four arabinosyl and deoxyribosyl nucleosides appeared to act by inhibition of viral DNA synthesis as quantitated by DNA-DNA dot blot hybridization. These four analogs also were tested for activity against two strains of type 1 herpes simplex virus by a plaque reduction assay. Unexpectedly, all compounds inhibited herpes simplex virus to a lesser extent than human cytomegalovirus.
Although the virus yield reduction assay is a powerful technique for evaluating the efficacy of antiviral compounds, it is not routinely utilized due to its labor-intensive nature. This procedure was modified, developed, thereby reducing greatly the time and effort required to perform yield reduction assays. Monolayer cultures of mammalian cells were grown in 96-well microtiter tissue culture plates and infected with virus. Test compounds were added and serially diluted directly with the plates. Following a cycle of virus replication, culture lysates were made and serially diluted in a separate set of uninfected cultures grown in microtiter plates. The cultures were incubated, plaques were enumerated in wells containing 5 to 20 plaques, and virus titers were calculated. To illustrate the use of the assay the known antiviral drugs acyclovir and ganciclovir were evaluated using this procedure. Ninety percent inhibitory concentrations for the respective drugs were 3 microM and 0.7 microM against herpes simplex virus type 1 and 60 microM and 1 microM against human cytomegalovirus.
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