联合 CD38 抗体和 CD47 阻断是治疗表达 CD38 的血液系统恶性肿瘤的一种有前途的策略。
Combining CD38 antibody with CD47 blockade is a promising strategy for treating hematologic malignancies expressing CD38.
机构信息
Department of R&D, ImmuneOnco Biopharmaceuticals (Shanghai) Inc., Shanghai, China.
Department of CMC, ImmuneOnco Biopharmaceuticals (Shanghai) Inc., Shanghai, China.
出版信息
Front Immunol. 2024 Jun 25;15:1398508. doi: 10.3389/fimmu.2024.1398508. eCollection 2024.
BACKGROUND
CD38 and CD47 are expressed in many hematologic malignancies, including multiple myeloma (MM), B-cell non-Hodgkin lymphoma (NHL), B-cell acute lymphoblastic leukemia (ALL), and B-cell chronic lymphocytic leukemia (CLL). Here, we evaluated the antitumor activities of CD38/CD47 bispecific antibodies (BsAbs).
METHODS
Five suitable anti-CD38 antibodies for co-targeting CD47 and CD38 BsAb were developed using a 2 + 2 "mAb-trap" platform. The activity characteristics of the CD38/CD47 BsAbs were evaluated using and systems.
RESULTS
Using hybridoma screening technology, we obtained nine suitable anti-CD38 antibodies. All anti-CD38 antibodies bind to CD38 tumor cells and kill tumor cells via antibody-dependent cellular cytotoxicity (ADCC) and antibody-dependent cellular phagocytosis (ADCP). Five anti-CD38 antibodies (4A8, 12C10, 26B4, 35G5, and 65A7) were selected for designing CD38/CD47 BsAbs (IMM5605) using a "mAb-trap" platform. BsAbs had higher affinity and binding activity to the CD38 target than those to the CD47 target, decreasing the potential on-target potential and off-tumor effects. The CD38/CD47 BsAbs did not bind to RBCs and did not induce RBC agglutination; thus, BsAbs had much lower blood toxicity. The CD38/CD47 BsAbs had a greater ability to block the CD47/SIRPα signal in CD38/CD47 tumor cells than IMM01 (SIRPα Fc fusion protein). Through Fc domain engineering, CD38/CD47 BsAbs were shown to kill tumors more effectively by inducing ADCC and ADCP. IMM5605-26B4 had the strongest inhibitory effect on cellular CD38 enzymatic activity. IMM5605-12C10 had the strongest ability to directly induce the apoptosis of tumor cells. The anti-CD38 antibody 26B4 combined with the SIRPα-Fc fusion proteins showed strong antitumor effects, which were better than any of the mono-therapeutic agents used alone in the NCI-H929 cell xenograft model. The CD38/CD47 BsAbs exhibited strong antitumor effects; specifically, IMM5605-12C10 efficiently eradicated all established tumors in all mice.
CONCLUSION
A panel of BsAbs targeting CD38 and CD47 developed based on the "mAb-tarp" platform showed potent tumor-killing ability and . As BsAbs had lower affinity for binding to CD47, higher affinity for binding to CD38, no affinity for binding to RBCs, and did not induce RBC agglutination, we concluded that CD38/CD47 BsAbs are safe and have a satisfactory tolerability profile.
背景
CD38 和 CD47 在许多血液系统恶性肿瘤中表达,包括多发性骨髓瘤(MM)、B 细胞非霍奇金淋巴瘤(NHL)、B 细胞急性淋巴细胞白血病(ALL)和 B 细胞慢性淋巴细胞白血病(CLL)。在这里,我们评估了 CD38/CD47 双特异性抗体(BsAb)的抗肿瘤活性。
方法
使用 2+2“mAb-trap”平台开发了五种用于共靶向 CD47 和 CD38 的合适的抗 CD38 抗体。使用 和 系统评估了 CD38/CD47 BsAb 的活性特征。
结果
使用杂交瘤筛选技术,我们获得了 9 种合适的抗 CD38 抗体。所有抗 CD38 抗体均与 CD38 肿瘤细胞结合,并通过抗体依赖性细胞毒性(ADCC)和抗体依赖性细胞吞噬作用(ADCP)杀死肿瘤细胞。使用“mAb-trap”平台选择了 5 种抗 CD38 抗体(4A8、12C10、26B4、35G5 和 65A7)用于设计 CD38/CD47 BsAb(IMM5605)。BsAb 对 CD38 靶标的亲和力和结合活性高于对 CD47 靶标的亲和力和结合活性,降低了潜在的靶标内毒性和肿瘤外效应。CD38/CD47 BsAb 不与 RBC 结合,也不诱导 RBC 聚集,因此 BsAb 的血液毒性较低。CD38/CD47 BsAb 阻断 CD38/CD47 肿瘤细胞中 CD47/SIRPα 信号的能力强于 IMM01(SIRPα Fc 融合蛋白)。通过 Fc 结构域工程,CD38/CD47 BsAb 通过诱导 ADCC 和 ADCP 更有效地杀死肿瘤。IMM5605-26B4 对细胞 CD38 酶活性具有最强的抑制作用。IMM5605-12C10 具有最强的直接诱导肿瘤细胞凋亡的能力。抗 CD38 抗体 26B4 与 SIRPα-Fc 融合蛋白联合具有较强的抗肿瘤作用,优于 NCI-H929 细胞异种移植模型中任何一种单药治疗的效果。CD38/CD47 BsAb 表现出强大的抗肿瘤作用;具体而言,IMM5605-12C10 能够有效地消除所有已建立的肿瘤。
结论
基于“mAb-tarp”平台开发的一组靶向 CD38 和 CD47 的 BsAb 表现出强大的肿瘤杀伤能力。由于 BsAb 对 CD47 的结合亲和力较低,对 CD38 的结合亲和力较高,对 RBC 无结合亲和力,且不诱导 RBC 聚集,我们得出结论,CD38/CD47 BsAb 是安全的,具有令人满意的耐受性。
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