Anti-CD3 monoclonal antibody (mAb) has been administered in clinical organ transplantation to reverse acute allograft rejection; however, severe immunodeficiency can result from such mAb treatment and cause an increased incidence of opportunistic infections. Therefore, new model systems are required in order to establish better methods for suppressing allograft rejection while preserving resistance to opportunistic infections. In this study, we compared the effects of the in vivo administration of anti-T-cell receptor-alpha beta (TcR alpha beta) mAb, H57-597, with those of anti-CD3 mAb, 145-2C11. Much to our surprise, the in vivo administration of anti-TcR alpha beta mAb prior to skin grafting led to a longer allograft survival than that of anti-CD3 mAb at any of the comparable dosages examined. In the lymphoid organs of mice treated with anti-TcR alpha beta mAb, TcR alpha beta-bearing cells were almost completely depleted, while TcR gamma delta-bearing cells remained at a relatively increased level on day 14 after anti-TcR alpha beta mAb treatment. The in vitro stimulation by anti-TcR gamma delta mAb clearly showed that such TcR gamma delta-bearing cells were functionally intact. Furthermore, the mice treated with anti-TcR alpha beta mAb, but not anti-CD3 mAb, were observed to be resistant to infection with Listeria monocytogenes. Finally, treatment with H57-597, but not with 145-2C11, led to a marked prolongation of skin allograft survival in the thymectomized mice. These results strongly suggest that anti-TcR alpha beta mAb, which partially preserved anti-bacterial resistance, may be more effective in preventing graft rejection than anti-CD3 mAb in the periphery, and indicate that anti-TcR alpha beta mAb may thus be potentially applicable for human transplantation. In addition, these results also indicate that the TcR gamma delta-bearing cells alone, at least in the absence of TcR alpha beta-bearing cells, do not contribute to allograft rejection in vivo.