PO.ET02.01 · 实验与分子治疗

Potency-Attenuated analogues of PNU-159,682 in conjugation with GlycoConnect ® and HydraSpace ® technologies provide ADCs with improved tolerability and efficacy

编号 1682 展板 11 时间 4/20 09:00–12:00 区域 Section 12 主讲 Marcel Scheepstra, PhD
分会场 Antibody-Drug Conjugates and Linker Engineering 1
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作者与单位

Marcel Scheepstra, Remon van Geel, Jorin Hoogenboom, Lianne Lelieveldt, Sorraya Popal, Mick Verhagen, Oleksandr Zagorodko, Finn McSorley, Çağla Koç, Margarida Espadinha, Floris van Delft, Anette Sommer, Sander van Berkel

Synaffix/Lonza, Oss, Netherlands

摘要 Abstract

PNU-159,682, an oxidized secondary metabolite of nemorubicin, exhibits extraordinary cytotoxic potency, being 2,100-6,400 fold more active than the clinically established doxorubicin. Despite promising antitumor activity, antibody-drug conjugates (ADCs) utilizing PNU-159,682 have not advanced beyond phase I clinical trials. The high potency and associated poor tolerability of PNU-based ADCs likely result in suboptimal clinical dosing, limiting the potential efficacy in patients. Based on these concerns, we designed and synthesized PNU analogues with attenuated cytotoxic potency, aiming to increase the tolerability while retaining robust antitumor activity, thus improving the therapeutic index (TI). Our approach involved multiple modifications to improve the properties. Conjugation of these new PNU analogues using GlycoConnect ® site-specific conjugation technology, combined with HydrasSpace ® polar spacer, yielded highly homogeneous ADCs with improved PK properties. Comprehensive in vitro and in vivo studies demonstrated that ADCs incorporating these attenuated PNU analogues maintained potent antitumor efficacy, inducing complete tumor regression in relevant xenograft models. Importantly, the maximum tolerated dose (MTD) of these ADCs was increased by up to 8-fold compared to ADCs based on the original PNU-159,682 payload, translating into a significantly expanded TI. Our findings demonstrate that potency-attenuated PNU analogues, when combined with GlycoConnect ® and HydraSpace ® technologies, represent a promising alternative to overcome the limitations of highly potent DNA-damaging payloads. This approach may enable higher clinical dosing paving the way for next-generation anthracycline-based ADCs with broad applicability in oncology.
利益披露 Disclosure
M. Scheepstra, Synaffix/Lonza Employment. R. van Geel, Synaffix/Lonza Employment. Kivu Bioscience Stock. J. Hoogenboom, Synaffix/Lonza Employment. Kivu Bioscience Stock. L. Lelieveldt, Synaffix/Lonza Employment. Kivu Bioscience Stock. S. Popal, Synaffix/Lonza Employment. M. Verhagen, Synaffix/Lonza Employment. O. Zagorodko, Synaffix/Lonza Employment. F. McSorley, Synaffix/Lonza Employment. Ç. Koç, Synaffix/Lonza Employment. M. Espadinha, Synaffix/Lonza Employment. F. van Delft, Synaffix/Lonza Employment. Kivu Bioscience Stock. A. Sommer, Synaffix/Lonza Employment. Pfizer Inc Stock. Bayer AG Stock. S. van Berkel, Synaffix/Lonza Employment. Kivu bioscience Stock.

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