Thompson J A, Peace D J, Klarnet J P, Kern D E, Greenberg P D, Cheever M A
J Immunol. 1986 Dec 1;137(11):3675-80.
Interleukin 2 (IL 2) in high concentration induces lymphocytes to become nonspecifically cytolytic to a wide variety of tumor targets. We evaluated the therapeutic potential of such lymphokine-activated killer (LAK) cells in vivo and high-dose II 2 in vivo against disseminated murine leukemia. To quantitate the potential anti-leukemia effect of LAK cells in vivo, B6 mice were injected i.p. with graded doses of FBL-3 leukemia cells followed by LAK cells. In this Winn-type assay, 1 X 10(7) LAK cells were able to prevent the outgrowth of 1 X 10(2) FBL-3 cells in only 50% of mice and did not prevent the outgrowth of 1 X 10(6) tumor cells. Thus LAK cells, highly cytolytic to FBL-3 in vitro, mediated only a limited anti-tumor effect when applied directly to leukemia cells in vivo. LAK cells used as an adjunct to chemotherapy induced a small but non-curative effect against FBL-3, however. In this circumstance, LAK cells were markedly less effective than were immune spleen cells from mice previously sensitized to FBL-3. To test the anti-leukemia effect of high-dose IL 2 in vivo, B6 mice were inoculated with 5 X 10(6) FBL-3 cells followed by repeated doses of IL 2 at dose levels shown to induce LAK in vivo. "LAK-inducing" IL 2 doses on days 5 to 9 after FBL-3 inoculation, when tumor was disseminated, cured 50% of the mice. Treatment on days 5 to 9 was far more effective than on days 0 to 4, implying that the evolution of a host-tumor interaction was essential for the therapeutic effect of IL 2. Mice cured of FBL-3 by high-dose IL 2 were found to be immune to FBL-3, suggesting that tumor eradication resulted from a collaboration between LAK activity and tumor-specific immunity.
高浓度的白细胞介素2(IL-2)可诱导淋巴细胞对多种肿瘤靶标产生非特异性细胞溶解作用。我们评估了此类淋巴因子激活的杀伤细胞(LAK细胞)在体内以及高剂量IL-2在体内对播散性小鼠白血病的治疗潜力。为了定量LAK细胞在体内的潜在抗白血病作用,给B6小鼠腹腔注射梯度剂量的FBL-3白血病细胞,随后注射LAK细胞。在这种温氏试验中,1×10⁷个LAK细胞仅能在50%的小鼠中阻止1×10²个FBL-3细胞的生长,而不能阻止1×10⁶个肿瘤细胞的生长。因此,LAK细胞在体外对FBL-3具有高度细胞溶解作用,但直接应用于体内白血病细胞时,仅介导了有限的抗肿瘤作用。然而,LAK细胞作为化疗辅助手段,对FBL-3诱导了微小但非治愈性的作用。在这种情况下,LAK细胞的效果明显不如先前对FBL-3致敏的小鼠的免疫脾细胞。为了测试高剂量IL-2在体内的抗白血病作用,给B6小鼠接种5×10⁶个FBL-3细胞,随后以能在体内诱导LAK的剂量水平重复注射IL-2。在接种FBL-3后第5至9天,当肿瘤播散时,“诱导LAK”剂量的IL-2治愈了50%的小鼠。第5至9天的治疗远比第0至4天有效,这意味着宿主与肿瘤相互作用的演变对于IL-2的治疗效果至关重要。通过高剂量IL-2治愈FBL-3的小鼠被发现对FBL-3具有免疫力,这表明肿瘤根除是LAK活性与肿瘤特异性免疫协同作用的结果。
