The efficacy of adoptive immunotherapy for solid tumors with lymphokine-activated effector cells presumably depends on the ability of these cells to localize adequately in tumor tissues. We present here the first quantitative study of the in vivo movement of fluorescently labeled adherent lymphokine-activated killer (A-LAK) cells. These cells were injected intra-arterially along with low-dose interleukin-2 into normal (mature granulation) tissue and an implant of VX2 carcinoma grown in the rabbit ear chamber. A small proportion of A-LAK cells accumulated preferentially in the tumor microcirculation in vivo because of an increased frequency of long-term adhesive interactions with the tumor vasculature. Stasis of blood flow in the tumor vasculature was observed 1 to 2 days after injection. Subsequent necrosis of the tumors was observed, along with diffuse infiltrates of lymphocytes, monocytes, and granulocytes in the interstitial space within the tumor. Development of necrosis despite low ratios of effector cells to target cells suggests that in addition to direct cytotoxicity, the response to adoptive immunotherapy is mediated via the tumor vasculature. This novel mechanism for adoptive immunotherapy must be taken into account in the development of improved strategies for cancer treatment.