Contact with cultured fibroblasts induced and maintained motile behavior in autologous and allogeneic human lymphocytes. After 3 h of contact with fibroblasts, 50 +/- 19% of the autologous lymphocytes were motile and after 24 h the corresponding figure was 49 +/- 18%. On a plastic surface the number of motile lymphocytes in the same individuals generally persisted below 15%. SDS-PAGE of iodine-labeled lymphocytes indicated that contact with fibroblasts but not with plastic for a 3-h period caused the appearance of a 300-kda band and the disappearance of several bands of lower molecular weight. During the course of T-lymphocyte activation by concanavalin A or allogeneic cells on a plastic surface, the number of motile forms did not reach a maximum (30 to 50% in separate individuals) until after 2 to 4 days in culture. Thus, in terms of both rate of development and number of motile forms, the fibroblast-dependent motility mechanism was more effective than conventional lymphocyte activation to blast transformation. Conditioned medium from fibroblasts did not induce motile behavior in the lymphocytes and did not provoke alteration of surface membrane polypeptides as revealed by iodination. Fibroblasts also triggered lymphocyte locomotion in serum-free medium, but their triggering effect was enhanced markedly by serum. The development and maintenance of lymphocyte motility required protein synthesis. These data suggest that during contact with fibroblasts lymphocytes acquire locomotor capacity by a mechanism different from activation to blast transformation.