The antiproliferative effects of MMF are believed to be the mechanism of its immunosuppressive action. We further investigated the mechanisms of action by assessing the pharmacodynamics (PD) of MMF in treated animals using whole blood assays not only of lymphocyte proliferation but also of activation. In vitro, different MPA concentrations were added to rat whole blood. In vivo, Lewis rats were treated with single doses of 5, 10 or 20 mg/kg MMF (n = 6 rats/dose group). Blood was obtained before and at different times after drug administration. For both in vitro and in vivo studies, different mitogens with calcium-dependent (TCR) or -independent (co-stimulatory) pathways of lymphocyte activation were added to the blood for stimulation. Proliferation was measured by [3H]TdR incorporation and by flow cytometric detection of DNA content. Activation was measured by changes in T cell surface expression of CD25, CD134, CD71, CD11a and CD54. In vitro and in vivo studies showed a dose-dependent inhibition by MPA and MMF, respectively, of lymphocyte proliferation and surface antigen expression. We observed high correlations between MMF PD effects over time with both MMF dose and MPA plasma concentrations in vivo. We show that MMF, apart from its antiproliferative effect, induced a dose-dependent suppression of calcium-dependent and -independent stimulated expression of important lymphocyte cell surface antigens. These data suggest that the ex vivo assessment of immune function in whole blood can uncover new mechanisms of MMF action. Our results demonstrated that the measurement of the PD is a means to assess the functional effects of MMF after its administration in vivo.