Elsässer D, Valerius T, Repp R, Weiner G J, Deo Y, Kalden J R, van de Winkel J G, Stevenson G T, Glennie M J, Gramatzki M
Department of Medicine III, University Erlangen, Nürnberg, Germany.
Blood. 1996 May 1;87(9):3803-12.
We have investigated the capacity of polymorphonuclear phagocytes (PMN) to lyse malignant B-cell lines using antibodies and antibody derivates to a range of different B-cell antigens. PMN were found to mediate lysis of all tested B-cell lines in the presence of HLA class II antibodies L227, L243, F3.3, and CR3/43. Target cell lysis was significantly enhanced when PMN isolated during granulocyte colony-stimulating factor (G-CSF) treatment were compared with PMN from healthy donors. Only G-CSF primed PMN, expressing Fc gamma RI (CD64), lysed B cells in the presence of monoclonal antibody (MoAb) 1D10 or Lym-1 to HLA class II related epitopes. Remarkably, PMN were consistently unable to kill malignant B cells with antibodies to the B-cell related antigens CD19, CD20, CD21, CD37, and CD38. These target antigen restriction was not observed with mononuclear effector cells, which mediated cytotoxicity with antibodies to HLA class II, but also with mouse/human chimeric constructs to CD19, CD37, and CD38. Blocking studies with Fc gamma RI antibodies and reverse antibody-dependent cellular cytotoxicity (ADCC) experiments against Fc gamma R antibody expressing hybridoma targets confirmed the pivotal role of Fc gamma RI in enhanced killing by G-CSF primed neutrophils. Bispecific antibodies (BsAb) with one specificity for Fc gamma RI, and another for a tumor associated antigen, offer an interesting approach to improve effector cell recruitment for immunotherapy. In our studies, very effective lysis was observed with G-CSF primed PMN and an [HLA class II x Fc gamma RI] BsAb. The therapeutic implications of these findings and the possible use of BsAb in combination with G-CSF are discussed.
我们研究了多形核吞噬细胞(PMN)利用针对一系列不同B细胞抗原的抗体及抗体衍生物裂解恶性B细胞系的能力。发现在存在HLA II类抗体L227、L243、F3.3和CR3/43的情况下,PMN可介导所有测试B细胞系的裂解。与来自健康供体的PMN相比,粒细胞集落刺激因子(G-CSF)治疗期间分离的PMN能显著增强靶细胞裂解。只有经G-CSF预处理且表达FcγRI(CD64)的PMN在存在针对HLA II类相关表位的单克隆抗体(MoAb)1D10或Lym-1时才能裂解B细胞。值得注意的是,PMN始终无法用针对B细胞相关抗原CD19、CD20、CD21、CD37和CD38的抗体杀死恶性B细胞。单核效应细胞未观察到这种靶抗原限制,它们既能用针对HLA II类的抗体介导细胞毒性,也能用针对CD19、CD37和CD38的鼠/人嵌合构建体介导细胞毒性。用FcγRI抗体进行的阻断研究以及针对表达FcγR抗体的杂交瘤靶标的反向抗体依赖性细胞毒性(ADCC)实验证实了FcγRI在G-CSF预处理的中性粒细胞增强杀伤作用中的关键作用。对FcγRI具有一种特异性且对肿瘤相关抗原有另一种特异性的双特异性抗体(BsAb)为改善免疫治疗中效应细胞募集提供了一种有趣的方法。在我们的研究中,观察到经G-CSF预处理的PMN与一种[HLA II类x FcγRI]BsAb能产生非常有效的裂解作用。讨论了这些发现的治疗意义以及BsAb与G-CSF联合使用的可能性。
