DBA/2 mice were inoculated i.p. with syngeneic SL2 lymphoma or P815 mastocytoma on day 0 and treated i.p. with 20,000 units IL-2/day on day 10-14. This treatment is curative for 70-90% of the tumor bearing mice. Peritoneal cells and/or spleen cells were isolated from responding mice at the last day of IL-2 therapy. The in vivo antitumor activity of these cells was tested in Winn Assays (i.p.) and by adoptive transfer (i.v.) into mice injected s.c. with tumor previously. Peritoneal exudate cells isolated on day 14 (PEC14) from mice cured of SL2 tumor were highly effective in Winn Assays. Up to 5 x 10(7) SL2 cells could be eliminated in naive mice when injected i.p. together with 2 x 10(7) PEC14. Adoptive transfer (i.v.) of PEC14, without the addition of IL-2, into mice s.c. injected with SL2 tumor cells 1 or 3 days earlier, also prevented outgrowth of the tumor cells. T cells isolated from the spleens were less effective. Only at E:T ratios of 100:1 and 10:1 was tumor outgrowth inhibited. The adoptive transfer of PEC14 resulted in a long lasting immunity of the recipient mice. Furthermore, it was shown that depletion of both the CD8+ and CD4+ T cells from the suspensions used in the transfer studies, resulted in a significant decrease of tumor inhibition. However, the effect was not abrogated completely. PEC14 isolated from IL-2-treated DBA/2 mice cured of P815 tumor, protected naive mice against P815 tumor at E:T ratio 20:1. Adoptive transfer (i.v.) of these PEC14 into mice bearing s.c. P815 did not have an antitumor effect. In conclusion, low dose i.p. IL-2 therapy predominantly induces locally both CD4+ and CD8+ T cells with a strong antitumor activity in vivo. The potency of the IL-2-induced immunity seems related to the type of tumor used.