让效果看得见--用于活化 T 细胞体内成像的 OX40 靶向纳米抗体

Desiree I. Frecot, Simone Blaess, Teresa R. Wagner, Philipp D. Kaiser, Bjoern Traenkle, Madeleine Fandrich, Meike Jakobi, Armin M. Scholz, Stefan Nueske, Nicole Schneiderhan-Marra, Cécile Gouttefangeas, Manfred Kneilling, Bernd J. Pichler, Dominik Sonanini, Ulrich Rothbauer
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引用次数: 0

摘要

目的:人类 OX40(hOX40/CD134)是 TNF 受体超家族的成员,主要在活化的 T 淋巴细胞上表达。在其配体 OX40L(CD252)的触发下,它可提供支持 T 细胞分化、增殖和长期存活的成本刺激信号。除了是一个相关的治疗靶点外,hOX40 还是一个重要的生物标记物,可用于监测肿瘤微环境(TME)、免疫介导疾病(IMIDs)中的炎症微环境(IME)和淋巴器官中活化 T 细胞的存在或浸润情况。在此,我们开发了靶向 hOX40 的新型单域抗体(纳米抗体,Nbs),通过体内分子成像监测 T 细胞的活化状态。方法通过噬菌体展示从免疫Nb库中筛选出针对hOX40的Nbs(hOX40-Nbs)。对鉴定出的 hOX40-Nbs 进行了体外表征,包括确定其特异性、亲和性、稳定性、表位识别及其对 OX40 信号传导和 T 细胞功能的影响。通过sortagging技术将一个候选先导基因与荧光团定点连接,并在异种移植小鼠模型中应用于hOX40表达细胞的非侵入性体内光学成像(OI):我们的筛选活动发现了四种独特的 Nbs,它们在生理条件下表现出很强的结合亲和力和很高的稳定性。表位分选和域映射表明,它们至少靶向了 hOX40 上的两个不同表位。在分析它们对 OX40 信号传导的影响时,所有已验证的 Nbs 都排除了激动效应。用 hOX40-Nbs 培养活化的 T 细胞不会影响细胞活力或增殖模式,但观察到细胞因子的释放存在差异。在表达 hOX40 的异种移植实验小鼠体内使用荧光团结合的候选先导物进行活体 OI,证明了其作为成像探针的特异性和功能性。结论:考虑到体内无创监测 T 细胞活化动态对先进探针的需求,我们认为我们的 hOX40-Nbs 作为成像探针在体内无创和纵向诊断方面具有巨大潜力。对TME或IME中的OX40+ T细胞进行定量分析,将有助于深入了解浸润T细胞的活化状态,为评估癌症或IMID患者的免疫反应、预测治疗效果和指导个性化免疫疗法策略提供有价值的生物标志物。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Making the effect visible – OX40 targeting nanobodies for in vivo imaging of activated T cells
Purpose: Human OX40 (hOX40/CD134), a member of the TNF receptor superfamily, is mainly expressed on activated T lymphocytes. Triggered by its ligand OX40L (CD252), it provides costimulatory signals that support the differentiation, proliferation and long-term survival of T cells. Besides being a relevant therapeutic target, hOX40 is also an important biomarker for monitoring the presence or infiltration of activated T cells within the tumor microenvironment (TME), the inflammatory microenvironment (IME) in immune-mediated diseases (IMIDs) and the lymphatic organs. Here, we developed novel single domain antibodies (nanobodies, Nbs) targeting hOX40 to monitor the activation status of T cells by in vivo molecular imaging. Methods: Nbs against hOX40 (hOX40-Nbs) were selected from an immunized Nb-library by phage display. The identified hOX40-Nbs were characterized in vitro, including determination of their specificity, affinity, stability, epitope recognition and their impact on OX40 signaling and T cell function. A lead candidate was site-specifically conjugated with a fluorophore via sortagging and applied for noninvasive in vivo optical imaging (OI) of hOX40-expressing cells in a xenograft mouse model. Results: Our selection campaign revealed four unique Nbs that exhibit strong binding affinities and high stabilities under physiological conditions. Epitope binning and domain mapping indicated the targeting of at least two different epitopes on hOX40. When analyzing their impact on OX40 signaling, an agonistic effect was excluded for all validated Nbs. Incubation of activated T cells with hOX40-Nbs did not affect cell viability or proliferation patterns, whereas differences in cytokine release were observed. In vivo OI with a fluorophore-conjugated lead candidate in experimental mice with hOX40-expressing xenografts demonstrated its specificity and functionality as an imaging probe. Conclusion: Considering the need for advanced probes for noninvasive in vivo monitoring of T cell activation dynamics, we propose, that our hOX40-Nbs have a great potential as imaging probes for noninvasive and longitudinal in vivo diagnostics. Quantification of OX40+ T cells in TME or IME will provide crucial insights into the activation state of infiltrating T cells, offering a valuable biomarker for assessing immune responses, predicting treatment efficacy, and guiding personalized immunotherapy strategies in patients with cancer or IMIDs.
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