Elevated target expression by dual PD-L1 and 4-1BB engagement is associated with ⁸⁹Zr-PD-L1x4-1BB bispecific Mabcalin tumor uptake.

IF 13.3 1区医学 Q1 MEDICINE, RESEARCH & EXPERIMENTAL

Theranostics Pub Date : 2026-04-22 eCollection Date: 2026-01-01 DOI:10.7150/thno.123930

Claudia A J van Winkel, Xiaoyu Fan, Danique Giesen, Glenn Gauderat, Steven de Jong, Thomas Jaquin, Wim Timens, Agathe Lepissier, Marleen Richter, Stefan Grüner, Nicole Andersen, Laurent Laboureur, Lucia Pattarini, Helene Lelièvre, Elisabeth G E de Vries, Aizea Morales-Kastresana, Marjolijn N Lub-de Hooge

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引用次数: 0

Abstract

The antibody-anticalin fusion protein (Mabcalin) targeting programmed cell death-ligand 1 (PD-L1) and T-cell costimulatory immunoreceptor CD137 (4-1BB) is designed to enhance T-cell reactivity while preventing T-cell inhibition by PD-L1/programmed cell death protein 1 (PD-1) checkpoint blockade. Using positron emission tomography (PET) imaging and ex vivo analysis, we investigated the factors influencing biodistribution, tumor uptake, and the influence of dose and target presence. Methods Murine or human PD-L1-reactive and human 4-1BB reactive Mabcalins (mPD-L1xh4-1BB and hPD-L1xh4-1BB) were generated, radiolabeled with ⁸⁹Zr, and administered to human 4-1BB knock-in (h4-1BB KI) or wild-type (WT) mice bearing PD-L1-positive mouse MC38 tumors. Mice underwent serial PET imaging on days 1, 2, and 4 or on days 2, 4, and 7 post intravenous injection, followed by ex vivo biodistribution. The intratumoral distribution of 2 protein doses of ⁸⁹Zr-radiolabeled mPD-L1xh4-1BB and hPD-L1xh4-1BB was examined using autoradiography on tumor tissue sections. These tumor sections were immunohistochemically stained for PD-L1, CD3, CD8, and 4-1BB to link uptake to target expression levels. Results ⁸⁹Zr-mPD-L1xh4-1BB, able to bind mPD-L1 and h4-1BB in h4-1BB KI mice, predominantly showed specific and rapid dose-dependent lymphoid tissue uptake. The tumor uptake of 200 µg ⁸⁹Zr-mPD-L1xh4-1BB in h4-1BB KI mice was also specific and increased over time. Tumor uptake in this group, where both targets PD-L1 and 4-1BB could be bound, was > 4-fold higher than in the groups that could bind only PD-L1 or 4-1BB. Dual PD-L1 and 4-1BB Mabcalin engagement at a therapeutic dose also resulted in elevated tumor protein expression levels for PD-L1, CD3, and CD8, which were lower when only PD-L1 or 4-1BB was engaged. The lowest expression was observed with the Mabcalin binding non-specifically (P _trend≤0.01 for PD-L1 and CD3, P _trend≤0.05 for CD8). Conclusion The biodistribution of mPD-L1xh4-1BB is specific, dose-dependent, and associated with the elevated target expression resulting from dual PD-L1 and 4-1BB engagement.

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PD-L1和4-1BB双特异性靶向表达升高与89Zr-PD-L1x4-1BB双特异性Mabcalin肿瘤摄取相关。

靶向程序性细胞死亡配体1 （PD-L1）和t细胞共刺激免疫受体CD137 （4-1BB）的抗体-抗alin融合蛋白（Mabcalin）旨在增强t细胞的反应性，同时防止PD-L1/程序性细胞死亡蛋白1 （PD-1）检查点阻断对t细胞的抑制。利用正电子发射断层扫描（PET）成像和离体分析，我们研究了影响生物分布、肿瘤摄取、剂量和靶点存在的因素。方法制备小鼠或人pd - l1反应性和人4-1BB反应性马血球蛋白（mPD-L1xh4-1BB和hPD-L1xh4-1BB），用89Zr放射性标记，给药于人4-1BB敲入（h4-1BB KI）或携带pd - l1阳性小鼠MC38肿瘤的野生型（WT）小鼠。小鼠在静脉注射后第1、2、4天或第2、4、7天进行连续PET成像，然后进行体外生物分布。采用肿瘤组织切片放射自显像检测2种蛋白剂量89zr放射标记的mPD-L1xh4-1BB和hPD-L1xh4-1BB在瘤内的分布。对这些肿瘤切片进行免疫组织化学染色，检测PD-L1、CD3、CD8和4-1BB，以将摄取与靶表达水平联系起来。结果89Zr-mPD-L1xh4-1BB在h4-1BB KI小鼠中能够结合mPD-L1和h4-1BB，主要表现出特异性和快速的剂量依赖性淋巴组织摄取。200µg 89Zr-mPD-L1xh4-1BB在h4-1BB KI小鼠中的肿瘤摄取也是特异性的，并且随着时间的推移而增加。与仅结合PD-L1或4-1BB的组相比，靶向PD-L1和4-1BB均可结合的这一组的肿瘤摄取高4倍。治疗剂量的双PD-L1和4-1BB Mabcalin也导致PD-L1、CD3和CD8的肿瘤蛋白表达水平升高，而仅PD-L1或4-1BB的肿瘤蛋白表达水平较低。非特异性结合Mabcalin的表达最低（PD-L1和CD3的P趋势≤0.01，CD8的P趋势≤0.05）。结论mPD-L1xh4-1BB的生物分布具有特异性、剂量依赖性，并与PD-L1和4-1BB双重作用导致的靶蛋白表达升高有关。

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来源期刊

Theranostics MEDICINE, RESEARCH & EXPERIMENTAL-

CiteScore

25.40

自引率

1.60%

发文量

433

审稿时长

1 months

期刊介绍： Theranostics serves as a pivotal platform for the exchange of clinical and scientific insights within the diagnostic and therapeutic molecular and nanomedicine community, along with allied professions engaged in integrating molecular imaging and therapy. As a multidisciplinary journal, Theranostics showcases innovative research articles spanning fields such as in vitro diagnostics and prognostics, in vivo molecular imaging, molecular therapeutics, image-guided therapy, biosensor technology, nanobiosensors, bioelectronics, system biology, translational medicine, point-of-care applications, and personalized medicine. Encouraging a broad spectrum of biomedical research with potential theranostic applications, the journal rigorously peer-reviews primary research, alongside publishing reviews, news, and commentary that aim to bridge the gap between the laboratory, clinic, and biotechnology industries.