With the agar diffusion test and BS-C-1 cells, mycophenolic acid was found to give a straight-line dose-response activity in inhibiting the cytopathic effects of vaccinia, herpes simplex, and measles viruses. Plaque tests have shown 100% reduction of virus plaques by mycophenolic acid over drug ranges of 10 to 50 Ag/ml and virus input as high as 6,000 plaque-forming units (PFU) per flask. Back titration studies with measles virus inhibited by mycophenolic acid have indicated that extracellular virus titers were reduced by approximately 3 logs1o and total virus was reduced by 1 logl0. The agar diffusion test system lends itself readily to drug reversal studies. Mycophenolic acid incorporated into agar at 10 ,g/ml gave 100% protection to virus-infected cells. Filter paper discs impregnated with selected chemical agents at concentrations of 1,000 ,ug/ml (20 Ag per filter paper disc) were placed on the agar surface. Reversal of the antiviral activity of mycophenolic acid was indicated by virus breakthrough in those cells in close proximity to the filter paper disc. Chemicals showing the best reversal of the antiviral activity of mycophenolic acid were guanine, guanosine, guanylic acid, deoxyguanylic acid, and 2,6diaminopurine. The reversal of antiviral activity was confirmed by titrations of virus produced with various amounts of both mycophenolic acid and guanine present and by isotope tracer methods with uptakes of labeled uridine, guanine, leucine, and thymidine in treated and nontreated, infected and noninfected cells as parameters. All antiviral effects of mycophenolic acid at 10 ,ug/ml could be reversed to the range shown by untreated controls by the addition of 10 ,ug/ml of those chemicals exhibiting reversal activity.
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