Abstract
Abstract Although frontline chemoimmunotherapy elicits responses in many B-Cell malignancy patients, treatment options remain limited, and clinical outcomes are suboptimal for those with relapsed or refractory diseases. Minimal residual disease (MRD) can lead to disease relapse despite achieving complete remission through targeted therapy, and tumor heterogeneity is responsible for MRD and compromises the efficacy of targeted therapy, especially in B-cell malignancies. Antibody-drug conjugates (ADCs) play a crucial role in oncology indications, and bispecific antibodies (BsAbs) represent one of the fastest-growing classes of next generation antibody therapeutics for cancer therapy. Several advantages of targeting dual tumor-associated antigens (TAAs) with BsAbs and bi-specific antibody drug conjugates (BsADCs) have been proposed, including improved efficacy, heightened tumor cell specificity, and reduced side effects in normal tissues. Notably, the ability of BsADCs to bind to cancer cells expressing even just one antigen has prompted further investigation into their efficacy in heterogeneous cancer models. LCB36 is a BsADC composed of a BsAb targeting both clinically validated CD20 and CD22, which are expressed in B-Cell malignancy, and a proprietary DNA cross-linking PBD prodrug that is site-specifically conjugated to the BsAb using ConjuAll technology. We assessed the expression levels of CD20 and CD22 in the cancer cell lines. While most cells expressed both antigens, some populations showed a low expression level of CD20 and a high expression level of CD22, while others exhibited the opposite pattern, suggesting heterogeneous expression of the two antigens within the same cell line. To confirm the heterogeneity of the two antigens in blood cancer patients, we analyzed single-cell sequencing data [GSE132509]. Each patient had CD20 and CD22 double-positive cells along with CD20 or CD22 single-positive cells, suggesting the possibility of relapse due to MRD following CD20 or CD22 single-targeted therapy. LCB36 demonstrated superior efficacy in CD20 and CD22 double-positive cell lines and cell-line derived xenografts (CDXs) models compared to ADCs targeting either CD20 or CD22, while showing comparable efficacy to single-target ADCs in CD20 or CD22 single-positive cancer cell lines and CDXs. Pharmacokinetic and toxicokinetic studies of LCB36 were analyzed in rats and Cynomolgus monkeys, respectively, using LC-MS/MS bioanalysis. Preliminary toxicity studies in rats and Cynomolgus monkeys demonstrated that LCB36 is well tolerated. In conclusion, LCB36, composed of a BsAb that binds to two clinically validated targets, showed efficacy at well-tolerated doses and has the potential to increase event-free survival periods by reducing MRD. Citation Format: Wihak Kim, Namjeong Choi, Cul-Woong Chung, Hwanhee Oh. LCB36, a bi-specific antibody drug conjugate (BsADC) utilizing ConjuAll conjugation technology and proprietary prodrug payload selectively activated in cancer cells for treating B-cell blood cancers expressing CD20 and/or CD22 [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 1870.
Published Version
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