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Data from Dual Mechanisms of Novel CD73-Targeted Antibody and Antibody–Drug Conjugate in Inhibiting Lung Tumor Growth and Promoting Antitumor Immune-Effector Function

Posted on 2023-04-03 - 18:07
Abstract

Although tyrosine kinase inhibitor therapy and immunotherapy have significantly improved lung cancer management, many patients do not benefit or become resistant to treatment, highlighting the need for novel treatments. We found elevated CD73 expression to be prevalent in non–small cell lung cancer (NSCLC) including those harboring the RAS- or RTK (EGFR, EML4-ALK) oncogenes. CD73 expression is enriched closely with the transcriptome signature of epithelial–mesenchymal transition and the immune-tolerant tumor microenvironment, which are increasingly relevant for disease progression and therapy resistance. We developed two novel series of CD73 antibody, Ab001/Ab002 and humanized version Hu001/Hu002, which demonstrated high CD73 binding affinity, potent enzyme inhibition, and efficiently protected effector T lymphocyte function from adenosine/cancer-imposed toxicity. Hu001/Hu002 inhibited growth of RAS-mutant NSCLC tumors in mice via enhanced antibody-dependent cell-mediated cytotoxicity and multifaceted remodeling of the tumor immune environment, reflecting diminished levels of tumor-associated macrophages, myeloid-derived suppressor cells, and tumor vasculature. A novel MMAE-conjugated CD73-ADC (Hu001–MMAE) elicited potent cytotoxicity against CD73-high expressing tumor cells (IC50<0.1 nmol/L) and suppressed in vivo growth of multiple NSCLC and glioma tumors, including the RAS-mutant models [minimum effective dose <1 mg/kg]. Treatment with CD73–ADC triggered a robust intratumoral accumulation of proinflammatory macrophages and activated dendritic cells (DC), which were not observed with naked CD73 antibody or standard chemotherapy. Studies with human PBMC-derived systems confirmed CD73-ADC as fully functional in protecting effector T cells and stimulating DCs thus providing dual benefits in killing CD73-high tumors and improving cancer immunity response. These results warrant clinical investigation of CD73-targeted antibody and ADC for treating advanced lung cancer.

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FUNDING

Fudan University

NSF of China

NST

Major Project of China

NBR 973 Program of China

Fudan University School of Pharmacy Animal Facility

Instrument Center, and the CDSER/SIMM facility

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Molecular Cancer Therapeutics

AUTHORS (12)

  • Rui Jin
    Liang Liu
    Yun Xing
    Tao Meng
    Lanping Ma
    Jinpeng Pei
    Ying Cong
    Xuesai Zhang
    Zhiqiang Ren
    Xin Wang
    Jingkang Shen
    Ker Yu
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