Colon transplantation has been proposed as a method to improve the function of an intestinal allograft. The present study examined the risk of colon rejection and the effect of FK506 on colon rejection in BN-->LEW rats with orthotopic bowel transplants. The first 4 groups included rats with untreated allografts (group 1), rats with isografts treated with 0.6 mg/kg FK506 (group 2), rats with allografts treated with 0.6 mg/kg FK506 (group 3), and rats with allografts treated with 0.4 mg/kg FK506 (group 4). In each of these groups (10-12 rats), half of the animals received a small bowel graft only (SB), while the other half received a small bowel, ascending colon, and cecum graft (SBC). The animals were followed daily until they died or were killed at 4 weeks. In group 5, an additional 18 untreated rats with SBC allografts were randomly killed on the third, fifth, seventh, and tenth postoperative days to study the sequential histopathologic and immunopathologic changes of colon rejection. There was no difference in survival, body weight, nutritional parameters, or bacterial contamination after SB and SBC transplantation. Intestinal transit was slower after SBC than SB transplantation (P < 0.05). Sequential histopathologic studies revealed that (1) the severity and time course of colon rejection was similar to small intestine rejection, and (2) the features of colon rejection were similar to ulcerative colitis. There was no evidence of graft-versus-host disease after SBC transplantation. In summary, adding a segment of large bowel to a small bowel allograft does not increase the risk of rejection or surgical complications. The transplanted colon slows intestinal transit. Treatment with FK506 effectively prevents colon rejection. These data suggest that adding a colon graft may improve the outcome of clinical small bowel transplantation.