Several immunomodulators were compared for immunomodulatory and antiviral activity in B6C3F1 female mice. Our results demonstrate that murine recombinant gamma interferon (rIFN-G), human recombinant alpha A/D interferon (rIFN-A), ampligen (a polyribonucleotide) and CL246,738 modulate nonspecific immunity and are effective antiviral agents in vivo. Administration of each of these agents 1 day before cell harvest induced high levels of splenic natural killer (NK) cell activity against YAC-1 target cells. rIFN-G was also a potent activator of peritoneal macrophages (M phi), as evidenced by high levels of antitumor activity and changes in ectoenzyme phenotype that is characteristic of tumoricidal M phi. rIFN-A, ampligen and CL246,738 induced moderate to low levels of M phi activation by these criteria. In vivo protection experiments showed that repeated therapeutic treatment with rIFN-A protected mice against i.p. infection with Venezuelan equine encephalitis (an alpha togavirus, VEE), Banzi (a flavivirus) and herpes simplex virus type 2 (HSV-2). Similar treatment with rIFN-G was effective against VEE and HSV-2, but ineffective against Banzi virus. A single prophylactic i.p. dose of ampligen 1 day before virus challenge was very effective against Banzi virus, moderately effective against HSV-2, and ineffective against VEE and Caraparu (a bunyavirus) infection. A single prophylactic oral dose of CL246,738 provided almost complete protection of mice against VEE, Banzi, and HSV-2, and also increased the mean survival time for Caraparu infected mice. Collectively, these results indicate that rIFN-A, r-IFN-G, ampligen and CL246,738 may be useful in prophylactic or early therapeutic treatment of several serious virus infections. Since these agents stimulate NK cells and M phi, their antiviral activity may result, in part, from the alterations they induce in the natural immune system.