Turatti Fabio, Figini Mariangela, Balladore Emanuela, Alberti Paola, Casalini Patrizia, Marks James D, Canevari Silvana, Mezzanzanica Delia
Molecular Therapies Unit, Department of Experimental Oncology, Istituto Nazionale Tumori, Milan, Italy.
J Immunother. 2007 Oct;30(7):684-93. doi: 10.1097/CJI.0b013e3180de5d90.
Novel Ab-based immunotherapeutic strategies have exploited T-cell receptor-like chimeric immune receptors (CIR) expressed on the surface of transduced human peripheral blood mononuclear cell (PBMC) to redirect potent non-major histocompatibility complex-dependent cytotoxicity to tumor cells expressing a tumor-associated antigens. We transduced human PBMC with 2 fully human CIRs that trigger through the zeta-chain of CD3 and contain either one of two human scFv specific for the same epitope on the extracellular domain of HER2 but with distinctly different affinities (KD 1616 and 1 nM) for this antigen. Potent direct CIR-mediated killing and in vitro tumor growth inhibition mediated by transduced PBMC were observed against targets expressing different levels of HER2. High-affinity CIR showed stronger ability to bind Ag and retain binding than low-affinity CIR. When lytic potential of the 2 CIRs was evaluated, their efficiency was comparable under conditions of high CIR and Ag expression, whereas low-affinity CIR was more efficient than high-affinity CIR in conditions of limiting Ag and CIR expression levels. When tumor growth inhibition was evaluated, Ag and CIR levels, rather than CIR affinity appeared relevant. Ag-driven CIR activation resulted in the production of soluble factors mediating efficient bystander effect. By carefully defining CIR surface expression and increasing affinity for a specific target antigen, it may be possible to selectively exclude CIR-mediated activity against targets expressing low levels of antigen, as normal cells. On the contrary, low antigen-expressing tumor variants could be eliminated by decreasing CIR affinity. Tuning CIR expression and affinity might help in discriminating different biologic contexts.
基于抗体的新型免疫治疗策略利用了转导的人外周血单个核细胞(PBMC)表面表达的T细胞受体样嵌合免疫受体(CIR),将强大的非主要组织相容性复合体依赖性细胞毒性重定向至表达肿瘤相关抗原的肿瘤细胞。我们用两种完全人源的CIR转导人PBMC,这两种CIR通过CD3的ζ链触发,并且包含针对HER2细胞外结构域上相同表位的两种人源单链抗体片段(scFv)之一,但对该抗原具有明显不同的亲和力(解离常数KD分别为1616和1 nM)。观察到转导的PBMC介导的针对表达不同水平HER2的靶标的强效直接CIR介导的杀伤作用和体外肿瘤生长抑制作用。高亲和力CIR显示出比低亲和力CIR更强的结合抗原和保持结合的能力。当评估这两种CIR的裂解潜力时,在高CIR和抗原表达条件下它们的效率相当,而在抗原和CIR表达水平受限的条件下,低亲和力CIR比高亲和力CIR更有效。当评估肿瘤生长抑制时,抗原和CIR水平而非CIR亲和力似乎具有相关性。抗原驱动的CIR激活导致产生介导有效旁观者效应的可溶性因子。通过仔细定义CIR表面表达并增加对特定靶抗原的亲和力,有可能选择性地排除CIR介导的针对低水平表达抗原的靶标的活性,如正常细胞。相反,低抗原表达的肿瘤变体可以通过降低CIR亲和力来消除。调节CIR表达和亲和力可能有助于区分不同的生物学背景。