PO.ET02.06 · 实验与分子治疗

A fast and robust development process providing new highly internalized anti-hHER2 antibody-drug conjugates

海报缩略图:A fast and robust development process providing new highly internalized anti-hHER2 antibody-drug conjugates
编号 4403 展板 11 时间 4/21 09:00–12:00 区域 Section 11 主讲 Jacques Fieschi, PhD
分会场 Antibody Technologies and Platforms 2
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作者与单位

Eric Chabrol, Marie-Claire Phélipot, Cécile Lemoigne, Julie Lichière, Nadjiba Marès, Alice Aymard, Alexandre Bagnolini, Sophie Mesnard, Caroline Huber, Matthieu Tassa, Ester Morgado, Jacques Fieschi

Mimabs, Marseille, France

摘要 Abstract

Purpose: The aim of this study was to establish an accelerated and de-risked workflow for the generation of potent anti-hHER2 antibody-drug conjugates (ADCs), addressing key bottlenecks that currently limit the efficiency, predictability, and overall success rate of ADC discovery. Methods: We implemented a fully integrated four-step strategy. (1) A multisite immunization protocol was developed to rapidly induce robust anti-hHER2 responses, enabling the isolation of high-titer antibodies in less than two weeks; antibodies generated with this accelerated protocol were benchmarked against a classical schedule. (2) Antibody-secreting plasma cells were isolated and ranked on the Bruker Beacon single-cell platform based on antigen binding and relative affinity prior to sequencing and recombinant expression. (3) A microscale, robotics-assisted production workflow was established to express and purify dozens of antibodies in parallel. Binding affinity was measured by bio-layer interferometry BLI, and internalization kinetics were quantified using a new lanthanide-based pH-sensitive probe. (4) A two-stage ADC synthesis pipeline was created using enzymatic conjugation and click chemistry. A first library of ADCs was generated by coupling 24 antibodies to MMAF at DAR4, followed by cytotoxicity assessment on patient-derived xenograft-derived cells (PDX-DC). The most promising hits were then reformatted into a second ADC library conjugated to multiple linker-payload combinations at diverse DARs with the same conjugation strategy. Results: The rapid immunization protocol consistently produced highly internalized anti-hHER2 antibodies, some surpassing those from classical schedule and trastuzumab. Beacon-based screening enabled efficient prioritization of clones with superior affinity. In the first ADC library, multiple candidates showed strong cytotoxic activity on PDX-DC models. Subsequent optimization through linker-payload engineering further enhanced potency for selected candidates. Conclusions: This integrated and optimized workflow accelerates ADC generation from immunization to functional readout while reducing technical risk at each stage. It enabled the rapid identification of novel anti-hHER2 antibodies with enhanced internalization and highly potent ADC derivatives. This approach is broadly applicable to future ADC discovery programs targeting diverse antigens.
利益披露 Disclosure
E. Chabrol, Mimabs Employment. M. Phélipot, Mimabs Employment. C. Lemoigne, Mimabs Employment. J. Lichière, Mimabs Employment. N. Marès, Mimabs Employment. A. Aymard, Mimabs Employment. A. Bagnolini, Mimabs Employment. S. Mesnard, Mimabs Employment. C. Huber, Mimabs Employment. M. Tassa, Matthieu Employment. E. Morgado, Mimabs Employment. J. Fieschi, Mimabs Employment.

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