The characteristic and progressive morphological changes of glomerulosclerosis, interstitial fibrosis, and vascular obliteration that occur in renal allografts experiencing chronic rejection correlate directly with declining function and eventual graft loss. Using an established rat transplant model of chronic rejection where such changes occur in predictable sequence, allografts were retransplanted back into the donor strain at serial intervals after the initial engraftment to determine at what stage of development the lesions could still be reversed by removing the continuing immunological drive of the host. Morphological changes were compared with those in retransplanted isografts and nonretransplanted allografts at comparable time intervals. Histological and immunohistological characteristics of chronic rejection were reversible by retransplantation at or later than week 12 could not reverse the intense humoral and cellular immune responses, or the structural changes (particularly fibrosis) that developed after that period. However, the sparse but inevitably progressing cellular infiltration and cytokine expression in retransplanted and nonretransplanted isograft controls suggest the persistent influence of alloantigen-independent factors in addition to those of host immunity. Thus, the early stages of chronic rejection are alloantigen dependent and reversible, whereas the later changes were irreversible and alloantigen-independent factors appeared increasingly important.