Bolhuis R L, Sturm E, Braakman E
Department of Immunology, Dr. Daniel den Hoed Cancer Center, Rotterdam, The Netherlands.
Cancer Immunol Immunother. 1991;34(1):1-8. doi: 10.1007/BF01741317.
Targeting of immune cells by bispecific antibodies has proven a powerful tool for the investigation of cellular cytotoxicity, lymphocyte activation and induction of cytokine production, as well as to represent an innovative form of immunotherapy for the treatment of cancer. The hallmark of this approach is the use of the specificity of monoclonal antibodies to join target and immune cells by virtue of the dual specificity of bispecific antibodies for the two entities. More precisely the bispecific antibody has two different binding sites, which are capable of recognizing tumor associated antigens on the one hand and lymphocyte activation sites on the other. This process of crosslinking results in the activation of the lymphocyte and triggering of its lytic machinery, as well as lymphokine production. A major advantage of this therapeutic modality is, that use is made of the normal cellular immune defence system and therefore is only associated with minor toxicity. The distinct lymphocyte populations, which can be used for adoptive immunotherapy and the various bispecific antibody preparations, as well as the chimeric immunoglobulin/T cell receptor construction are the major topics of this review.
双特异性抗体靶向免疫细胞已被证明是研究细胞毒性、淋巴细胞激活和细胞因子产生诱导的有力工具,也是一种用于癌症治疗的创新免疫疗法形式。这种方法的标志是利用单克隆抗体的特异性,凭借双特异性抗体对两种实体的双重特异性来连接靶细胞和免疫细胞。更确切地说,双特异性抗体有两个不同的结合位点,一方面能够识别肿瘤相关抗原,另一方面能够识别淋巴细胞激活位点。这种交联过程导致淋巴细胞的激活及其裂解机制的触发,以及淋巴因子的产生。这种治疗方式的一个主要优点是利用了正常的细胞免疫防御系统,因此仅具有轻微毒性。可用于过继免疫疗法的不同淋巴细胞群体、各种双特异性抗体制剂以及嵌合免疫球蛋白/T细胞受体构建是本综述的主要主题。