We have developed a dual infection model in immunosuppressed rats for evaluating drugs against Pneumocystis carinii and Toxoplasma gondii, two important opportunistic pathogens in patients with AIDS. Using this model, we reported that the macrolide roxithromycin was effective at a daily dose of 400 mg/kg in preventing the development of T. gondii infection but did not have a prophylactic effect against P. carinii in the same rats. A lower dose (200 mg/kg/day) had only marginal effects. Extending these experiments, we have now shown that roxithromycin at doses of 400 or 200 mg/kg/day combined with dapsone at doses of 5, 25 or 50 mg/kg/day completely prevented the development of T. gondii infection, with no parasites being detected in any of the tissues sampled. Roxithromycin at either dose combined with dapsone at 25 or 50 mg/kg/day was also effective in preventing the development of P. carinii infection in the lungs. The lowest dose of dapsone (5 mg/kg/day) was not fully effective. Pyrimethamine-dapsone, a combination used clinically, was tested in the same experiment, and gave results comparable to those with roxithromycin-dapsone combinations. In a further experiment combining roxithromycin with sulphamethoxazole, roxithromycin was effective in preventing the T. gondii infection, even when given at only 200 mg/kg/day with 20 mg/kg/day of sulphamethoxazole. When the dose of sulphamethoxazole was reduced to 2 mg/kg/day and given with roxithromycin 200 mg/kg/day, T. gondii infection developed in two of the five rats treated. P. carinii infection was prevented by sulphamethoxazole at 20 mg/kg/day but not completely by 2 mg/kg/day. Roxithromycin also has activity against Mycobacterium avium, another important cause of opportunistic infections in AIDS patients, and the compound penetrates mammalian cells well. Taken together with the favourable pharmacokinetic profile of roxithromycin, these results suggest that it may have a clinical utility, when used with other agents, in controlling the development of opportunistic infections caused by M. avium complex, T. gondii and P. carinii in HIV-infected individuals.