Local strategies directed against vascular smooth muscle cell (VSMC) proliferation such as drug-eluting stents reduce the occurrence of restenosis. However, these approaches may also inhibit endothelial cell (EC) proliferation and, thus, impair reendothelialization. We compared the effects of tacrolimus on human VSMC and EC proliferation and migration to sirolimus, a compound with similar molecular structure. Thymidine incorporation was determined in growth factor-stimulated VSMC and EC. The drug concentration at which maximal VSMC proliferation was inhibited by 50% (IC50) was about 10-fold higher for tacrolimus (3.8 x 10 M) than for sirolimus (4.1 x 10 M; P = 0.055). It is interesting that the molar IC50 value in EC was around 10-fold higher for tacrolimus (2.3 x 10 M) than for sirolimus (7.1 x 10 M; P < 0.01). The profile of these drugs on VSMC and EC migration was similar to the one found in the proliferation assays. Inhibition of VSMC proliferation by both tacrolimus and sirolimus was associated with upregulation of the cell-cycle inhibitor p27. Thus, tacrolimus is less potent than sirolimus for inhibiting VSMC proliferation or migration. However, tacrolimus exerts markedly less antiproliferative effects on EC compared with sirolimus. In combination with its potent antiinflammatory effects, tacrolimus may represent a promising compound for the use in drug-eluting stents.