Targeting Tumor-Infiltrating Immune Cells for Targeted Alpha Therapy in Gliomas: Optimization of [225Ac]Ac-DOTA-αCD11b Dosing through PET Imaging.

IF 5.5 2区医学 Q1 ONCOLOGY

Molecular Cancer Therapeutics Pub Date : 2025-07-23 DOI:10.1158/1535-7163.MCT-24-0996

Ambika P Jaswal, Anders Josefsson, Angel G Cortez, Abhinav Bhise, Bo Li, Chaim T Sneiderman, Sarah R Vincze, Michal Nisnboym, Joseph D Latoche, Kathryn E Day, Robert S Edinger, Itay Raphael, Lora H Rigatti, Wilson B Edward, Gary Kohanbash, Jessie R Nedrow

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Abstract

Myeloid cells are key mediators of immunosuppression and treatment resistance in primary brain tumors, including glioblastoma (GBM). This study aims to eradicate CD11b+ immunosuppressive cells at the tumor site to enhance overall survival in a model of GBM using an α-emitting radiopharmaceutical therapy targeted to tumor-associated myeloid cells as a monotherapy or in combination with immune checkpoint inhibitors. An anti-CD11b (αCD11b) antibody was modified for radiolabeling with diagnostic (zirconium-89) or therapeutic (actinium-225) radioisotopes. Initial PET imaging and biodistribution studies using 89Zr-αCD11b found that an antibody concentration of ∼5 mg/kg of αCD11b (100 μg) was effective in saturating on-target/off-site sinks, such as the spleen, but effective in increasing tumor accumulation. The estimated maximum tolerable activity of [225Ac]Ac-DOTA-αCD11b (225Ac-αCD11b) was determined by biodistribution and dosimetry studies, including the free in vivo-generated decay daughters. The dose-limiting tissue was the bone marrow, and an estimated maximum tolerable activity (∼0.55 kBq, 100 μg) was determined. The therapeutic efficacy of 225Ac-αCD11b was evaluated by survival studies, both as a monotherapy and in combination with immune checkpoint inhibitors. Combination therapy resulted in increased survival in the GBM model compared with the monotherapy and controls; in addition, long-term survival was observed in 50% of the mice receiving combination therapy as well as in a single mouse receiving 225Ac-αCD11b alone. No long-term surviving mice were observed in the control groups. Long-term surviving mice were rechallenged, and potential antitumor immunity was observed, as no tumors developed over 120 days after rechallenge. Overall, these results validate the preclinical relevance of CD11b-targeted image-guided α-emitting radiopharmaceutical therapy.

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靶向肿瘤浸润性免疫细胞靶向治疗胶质瘤：PET显像优化[225Ac]Ac-DOTA-αCD11b剂量

髓系细胞是原发性脑肿瘤，包括胶质母细胞瘤（GBM）免疫抑制和治疗耐药的关键介质。本研究旨在利用针对肿瘤相关髓系细胞的α-放射药物治疗作为单药治疗或与免疫检查点抑制剂联合治疗，在肿瘤部位根除CD11b+免疫抑制细胞，以提高GBM模型的总生存率。用诊断用（锆-89）或治疗用（锕-225）放射性同位素修饰抗cd11b （αCD11b）抗体进行放射性标记。使用89Zr-αCD11b进行的初步PET成像和生物分布研究发现，抗体浓度为~ 5 mg/kg （100 μg）的αCD11b可以有效地饱和靶上/非靶上的脏器，如脾脏，但会增加肿瘤的积累。[225Ac]Ac-DOTA-αCD11b （225Ac-αCD11b）的估计最大耐受活性是通过生物分布和剂量学研究确定的，包括体内产生的游离衰变子。剂量限制组织是骨髓，并确定了估计的最大耐受活性（~ 0.55 kBq, 100 μg）。通过生存研究评估225Ac-αCD11b作为单一疗法和与免疫检查点抑制剂联合的治疗效果。与单药治疗和对照组相比，联合治疗提高了GBM模型的生存率；此外，50%接受联合治疗的小鼠以及单独接受225Ac-αCD11b治疗的单个小鼠均观察到长期生存。对照组没有观察到长期存活的小鼠。对长期存活的小鼠进行再刺激，观察到潜在的抗肿瘤免疫，因为再刺激后120天没有肿瘤发生。总之，这些结果验证了靶向cd11b的图像引导α-放射药物治疗的临床前相关性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Molecular Cancer Therapeutics 医学-肿瘤学

CiteScore

11.20

自引率

1.80%

发文量

331

审稿时长

3 months

期刊介绍： Molecular Cancer Therapeutics will focus on basic research that has implications for cancer therapeutics in the following areas: Experimental Cancer Therapeutics, Identification of Molecular Targets, Targets for Chemoprevention, New Models, Cancer Chemistry and Drug Discovery, Molecular and Cellular Pharmacology, Molecular Classification of Tumors, and Bioinformatics and Computational Molecular Biology. The journal provides a publication forum for these emerging disciplines that is focused specifically on cancer research. Papers are stringently reviewed and only those that report results of novel, timely, and significant research and meet high standards of scientific merit will be accepted for publication.