Department of Pediatrics; Memorial Sloan-Kettering Cancer Center; New York, NY USA.
Oncoimmunology. 2012 Jul 1;1(4):477-486. doi: 10.4161/onci.19864.
Murine IgG3 anti-GD2 antibody m3F8 has shown anti-neuroblastoma activity in Phase I/II studies, where antibody-dependent cell-mediated cytotoxicity (ADCC) played a key role. Humanization of m3F8 should circumvent human anti-mouse antibody (HAMA) response and enhance its ADCC properties to reduce dosing and pain side effect. Chimeric 3F8 (ch3F8) and humanized 3F8 (hu3F8-IgG1 and hu3F8-IgG4) were produced and purified by protein A affinity chromatography. In vitro comparison was made with m3F8 and other anti-GD2 antibodies in binding, cytotoxicity, and cross-reactivity assays. In GD2 binding studies by SPR, ch3F8 and hu3F8 maintained K(D) comparable to m3F8. Unlike other anti-GD2 antibodies, m3F8, ch3F8 and hu3F8 had substantially slower k(off.). Similar to m3F8, both ch3F8 and hu3F8 inhibited tumor cell growth in vitro, while cross-reactivity with other gangliosides was comparable to that of m3F8. Both peripheral blood mononuclear cell (PBMC)-ADCC and polymorphonuclear leukocytes (PMN)-ADCC of ch3F8 and hu3F8-IgG1 were more potent than m3F8. This superiority was consistently observed in ADCC assays, irrespective of donors or NK-92MI-transfected human CD16 or CD32, whereas complement mediated cytotoxicity (CMC) was reduced. As expected, hu3F8-IgG4 had near absent PBMC-ADCC and CMC. Hu3F8 and m3F8 had similar tumor-to-non tumor ratios in biodistribution studies. Anti-tumor effect against neuroblastoma xenografts was better with hu3F8-IgG1 than m3F8. In conclusion, humanizing m3F8 produced next generation anti-GD2 antibodies with substantially more potent ADCC in vitro and anti-tumor activity in vivo. By leveraging ADCC over CMC, they may be clinically more effective, while minimizing pain and HAMA side effects. A Phase I trial using hu3F8-IgG1 is ongoing.
鼠 IgG3 抗 GD2 抗体 m3F8 在 I/II 期研究中表现出抗神经母细胞瘤活性,其中抗体依赖性细胞介导的细胞毒性 (ADCC) 发挥了关键作用。m3F8 的人源化应该可以避免人抗鼠抗体 (HAMA) 反应,并增强其 ADCC 特性,以减少剂量和疼痛副作用。嵌合 3F8 (ch3F8) 和人源化 3F8 (hu3F8-IgG1 和 hu3F8-IgG4) 通过蛋白 A 亲和层析进行生产和纯化。通过结合、细胞毒性和交叉反应性测定,在体外将其与 m3F8 和其他抗 GD2 抗体进行比较。在 SPR 进行的 GD2 结合研究中,ch3F8 和 hu3F8 保持与 m3F8 相当的 K(D)。与其他抗 GD2 抗体不同,m3F8、ch3F8 和 hu3F8 的 k(off.) 明显较慢。与 m3F8 相似,ch3F8 和 hu3F8 都能抑制体外肿瘤细胞生长,而与其他神经节苷脂的交叉反应性与 m3F8 相当。ch3F8 和 hu3F8-IgG1 的外周血单核细胞 (PBMC)-ADCC 和多形核白细胞 (PMN)-ADCC 均比 m3F8 更有效。在 ADCC 测定中,无论供体或 NK-92MI 转染的人 CD16 或 CD32 如何,这种优势都始终存在,而补体介导的细胞毒性 (CMC) 降低。正如预期的那样,hu3F8-IgG4 的 PBMC-ADCC 和 CMC 几乎不存在。在生物分布研究中,hu3F8 和 m3F8 的肿瘤与非肿瘤比值相似。与 m3F8 相比,hu3F8-IgG1 对神经母细胞瘤异种移植物的抗肿瘤作用更好。总之,m3F8 的人源化产生了下一代抗 GD2 抗体,其体外 ADCC 作用更强,体内抗肿瘤活性更高。通过利用 ADCC 而不是 CMC,它们在临床上可能更有效,同时最大限度地减少疼痛和 HAMA 副作用。正在进行一项使用 hu3F8-IgG1 的 I 期试验。
