Fas/Fas ligand interactions serve as a signaling pathway for apoptosis (1-3), an important regulatory mechanism in the development and function of the immune system (4-9). Recent evidence that Fas-dependent apoptosis is also an important mode of T cell cytotoxicity (10-13) suggested that Fas might play a critical role in the effector phase of T-dependent immune responses, such as allograft rejection. We observed that Fas transcripts are constitutively expressed in syngeneic and allogeneic murine cardiac transplants, while Fas ligand (FasL) is up-regulated only in rejecting allografts. Surprisingly, the absence of an intact Fas/FasL pathway did not alter the tempo of allograft rejection, even CD4-dependent rejection. These results indicate that Fas/FasL interactions are not essential mediators of T cell-induced allograft damage. Rather, as suggested in other studies, the Fas pathway may be principally involved in the regulation of clonal expansion and subsequent contraction of T cell populations during immune responses.