thor Straten P, Guldberg P, Schrama D, Andersen M H, Moerch U, Seremet T, Siedel C, Reisfeld R A, Becker J C
Department of Tumor Cell Biology, Division of Cancer Biology, Danish Cancer Society, Copenhagen, Denmark.
Eur J Immunol. 2001 Jan;31(1):250-8. doi: 10.1002/1521-4141(200101)31:1<250::AID-IMMU250>3.0.CO;2-8.
Immunity to tumors relies on recirculating antigen-specific T cells. Whilst induction of antigen-specific T cells by immunotherapy has been convincingly proven, direct evidence for recirculation of such cells is still lacking. Here, employing a recently established in situ immunotherapy model for murine melanoma we directly demonstrate the redistribution of clonally expanded T cells. In this model IL-2 is targeted to the tumor microenvironment by means of specific antibody-IL-2 fusion proteins resulting in the expansion of T cells. The therapeutic effect of the fusion protein is not restricted to tumors expressing the targeted antigen, but extends to antigen negative variants of the tumor if present in the same animal. Analysis of the T cell infiltrate by quantitative reverse transcription-PCR revealed the presence of highly expressed TCR BV regions in both tumor variants. TCR clonotype mapping revealed that the high expressions of these regions were caused by clonal expansions and, notably, that these specific clonotypic TCR transcripts were identical in both tumors. Thus, T cell clones activated locally by targeted IL-2 therapy recirculate and mediate eradication of distant tumor sites not subjected to in situ cytokine therapy.
肿瘤免疫依赖于循环的抗原特异性T细胞。虽然免疫疗法诱导抗原特异性T细胞已得到令人信服的证明,但此类细胞再循环的直接证据仍然缺乏。在这里,我们利用最近建立的小鼠黑色素瘤原位免疫疗法模型,直接证明了克隆扩增的T细胞的重新分布。在这个模型中,白细胞介素-2(IL-2)通过特异性抗体-IL-2融合蛋白靶向肿瘤微环境,从而导致T细胞扩增。融合蛋白的治疗效果不仅限于表达靶向抗原的肿瘤,还可扩展到同一动物体内存在的肿瘤抗原阴性变体。通过定量逆转录聚合酶链反应分析T细胞浸润情况,发现在两种肿瘤变体中均存在高表达的TCR BV区域。TCR克隆型图谱显示,这些区域的高表达是由克隆扩增引起的,值得注意的是,这两种肿瘤中这些特定的克隆型TCR转录本是相同的。因此,通过靶向IL-2疗法在局部激活的T细胞克隆会再循环,并介导根除未接受原位细胞因子治疗的远处肿瘤部位。
