Nolan K F, Yun C O, Akamatsu Y, Murphy J C, Leung S O, Beecham E J, Junghans R P
Biotherapeutics Development Lab, Harvard Institute of Human Genetics, Harvard Medical School, and Division of Hematology-Oncology, Beth Israel Deaconess Medical Center, Boston, Massachusetts 02215, USA.
Clin Cancer Res. 1999 Dec;5(12):3928-41.
Tumor-associated antigens are typically nonimmunogenic in cancer patients, "immune surveillance" having manifestly failed. The fact that most tumor antigens are normal human proteins presents significant obstacles to current cancer immunization approaches that researchers are presently striving to overcome. An alternative strategy bypasses immunization altogether by direct genetic alteration of autologous patient T cells, to create "designer T cells" specific to a particular antigen. Chimeric immunoglobulin-T cell receptors (IgTCR) with a specificity for carcinoembryonic antigen (CEA) were created to evaluate the optimal IgTCR structure for cancer therapy. Antigen-binding domains of a humanized antibody were combined with TCR signaling chains to yield four different chimeric IgTCR: single chain Fv fragment (sFv)-zeta, fragment antigen-binding (Fab)-zeta, sFv-epsilon, and Fab-epsilon. All of the IgTCR were well expressed on T cells, and all showed specific binding and activation, as demonstrated by IL-2 production on contact with immobilized or cellular CEA, excepting sFv-epsilon alone which was inert solely against cellular targets for steric reasons unique to this construct. In contrast to prior studies of isolated TCR chains that related increased tyrosine-based activation motifs in zeta as a reason for superior signaling potency, these tests are the first to show that epsilon and zeta are indistinguishable for T cell signaling when assayed in the context of the intact TCR complex. Further, Fab was equivalent to sFv as an IgTCR component for expression and antigen binding, establishing an important alternative for IgTCR antigen recognition because sFvs may often lose antigen affinity. When IgTCR was expressed on normal human T cells, cytotoxic potency was demonstrated at low E:T ratios, with T cell recycling and progressive tumor cell destruction. Contrary to recent speculations, these observations prove that high affinity TCR interactions are not an impediment to serial target engagement and disengagement by cytotoxic T cells. The multivalent intercellular interactions of target cell binding, activation, and cytotoxicity were resistant to inhibition by soluble CEA. These studies establish a potentially important new immunotherapeutic modality for the treatment of CEA-expressing tumors.
肿瘤相关抗原在癌症患者中通常是无免疫原性的,“免疫监视”显然已经失败。大多数肿瘤抗原是正常人类蛋白质这一事实给目前研究人员正在努力克服的癌症免疫方法带来了重大障碍。一种替代策略是通过对自体患者T细胞进行直接基因改造,完全绕过免疫,以产生针对特定抗原的“定制T细胞”。为了评估用于癌症治疗的最佳嵌合免疫球蛋白-T细胞受体(IgTCR)结构,创建了对癌胚抗原(CEA)具有特异性的嵌合免疫球蛋白-T细胞受体(IgTCR)。将人源化抗体的抗原结合域与TCR信号链相结合,产生了四种不同的嵌合IgTCR:单链Fv片段(sFv)-ζ、抗原结合片段(Fab)-ζ、sFv-ε和Fab-ε。所有的IgTCR在T细胞上均表达良好,并且在与固定化或细胞CEA接触时均表现出特异性结合和激活,这通过IL-2的产生得以证明,但sFv-ε单独作用时除外,由于该构建体特有的空间位阻原因,它仅对细胞靶标无活性。与先前关于分离的TCR链的研究不同,先前的研究将ζ中基于酪氨酸的激活基序增加作为信号传导效力更高的原因,这些测试首次表明,在完整的TCR复合物背景下进行检测时,ε和ζ在T细胞信号传导方面没有区别。此外,Fab作为IgTCR组件在表达和抗原结合方面等同于sFv,这为IgTCR抗原识别建立了重要的替代方案,因为sFv可能经常失去抗原亲和力。当IgTCR在正常人T细胞上表达时,在低E:T比下显示出细胞毒性效力,同时T细胞循环并逐渐破坏肿瘤细胞。与最近的推测相反,这些观察结果证明高亲和力TCR相互作用并非细胞毒性T细胞连续靶向结合和脱离的障碍。靶细胞结合、激活和细胞毒性的多价细胞间相互作用对可溶性CEA的抑制具有抗性。这些研究为治疗表达CEA的肿瘤建立了一种潜在重要的新免疫治疗方式。
