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新型 PD-L1 靶向纳米抗体放射性示踪剂 [Ga]Ga-THP-APN09 的临床前评估及初步临床研究:一种快速一步法放射性标记及 PET 成像的新型 PD-L1 靶向纳米抗体放射性示踪剂。

Preclinical evaluation and pilot clinical study of [Ga]Ga-THP-APN09, a novel PD-L1 targeted nanobody radiotracer for rapid one-step radiolabeling and PET imaging.

机构信息

Medical College, Guizhou University, Guiyang, 550025, China.

Key Laboratory of Carcinogenesis and Translational Research (Ministry of Education/Beijing), Key Laboratory for Research and Evaluation of Radiopharmaceuticals (National Medical Products Administration), Department of Nuclear Medicine, Peking University Cancer Hospital & Institute, No.52 Fucheng Rd., Beijing, 100142, China.

出版信息

Eur J Nucl Med Mol Imaging. 2023 Nov;50(13):3838-3850. doi: 10.1007/s00259-023-06373-3. Epub 2023 Aug 9.

DOI:10.1007/s00259-023-06373-3
PMID:37555904
Abstract

PURPOSE

Programmed cell death protein-1/ligand-1 (PD-1/L1) blockade has been a breakthrough in the treatment of patients with non-small cell lung cancer (NSCLC), but there is still a lack of effective methods to screen patients. Here we report a novel  Ga-labeled nanobody [ Ga]Ga-THP-APN09 for PET imaging of PD-L1 status in mouse models and a first-in-human study in NSCLC patients.

METHODS

[ Ga]Ga-THP-APN09 was prepared by site-specific radiolabeling, with no further purification. Cell uptake assays were completed in the human lung adenocarcinoma cell line A549, NSCLC cell line H1975 and human PD-L1 gene-transfected A549 cells (A549). The imaging to image PD-L1 status and biodistribution were investigated in tumor-bearing mice of these three tumor cell types. The first-in-human clinical translational trial was registered as NCT05156515. The safety, radiation dosimetry, biodistribution, and correlations of tracer uptake with immunohistochemical staining and major pathologic response (MPR) were evaluated in NSCLC patients who underwent adjuvant immunotherapy combined with chemotherapy.

RESULTS

Radiosynthesis of [ Ga]Ga-THP-APN09 was achieved at room temperature and a pH of 6.0-6.5 in 10 min with a high radiochemical yield (> 99%) and 13.9-27.8 GBq/μmol molar activity. The results of the cell uptake study reflected variable levels of surface PD-L1 expression observed by flow cytometry in the order A549 > H1975 > A549. In small-animal PET/CT imaging, H1975 and A549 tumors were clearly visualized in an 8.3:1 and 2.2:1 ratios over PD-L1-negative A549 tumors. Ex vivo biodistribution studies showed that tumor uptake was consistent with the PET results, with the highest A549 being taken up the most (8.20 ± 0.87%ID/g), followed by H1975 (3.69 ± 0.50%ID/g) and A549 (0.90 ± 0.16%ID/g). Nine resectable NSCLC patients were enrolled in the clinical study. Uptake of [ Ga]Ga-THP-APN09 was mainly observed in the kidneys and spleen, followed by low uptake in bone marrow. The radiation dose is within a reliable range. Tumor uptake was positively correlated with PD-L1 expression TPS (r = 0.8763, P = 0.019). Tumor uptake of [ Ga]Ga-THP-APN09 (SUV) in MPR patients was higher than that in non-MPR patients (median SUV 2.73 vs. 2.10, P = 0.036, determined with Mann-Whitney U-test).

CONCLUSION

[ Ga]Ga-THP-APN09 has the potential to be transformed into a kit-based radiotracer for rapid, simple, one-step, room temperature radiolabeling. The tracer can detect PD-L1 expression levels in tumors, and it may make it possibility to predict the response of PD-1 immunotherapy combined with chemotherapy. Confirmation in a large number of cases is needed.

TRIAL REGISTRATION

Clinical Trial (NCT05156515). Registered 12 December 2021.

摘要

目的

程序性死亡蛋白-1/配体-1(PD-1/L1)阻断已成为治疗非小细胞肺癌(NSCLC)患者的突破,但仍缺乏有效的筛选方法。在这里,我们报告了一种新型的 Ga 标记纳米抗体 [Ga]Ga-THP-APN09,用于小鼠模型中 PD-L1 状态的 PET 成像和 NSCLC 患者的首次人体研究。

方法

通过位点特异性放射性标记制备 [Ga]Ga-THP-APN09,无需进一步纯化。在人肺腺癌细胞系 A549、NSCLC 细胞系 H1975 和人 PD-L1 基因转染的 A549 细胞(A549)中完成细胞摄取实验。在这三种肿瘤细胞类型的荷瘤小鼠中进行了成像以评估 PD-L1 状态和生物分布的成像。首次人体临床转化试验在 NCT05156515 中注册。在接受辅助免疫治疗联合化疗的 NSCLC 患者中评估了 [Ga]Ga-THP-APN09 的安全性、辐射剂量学、生物分布以及与免疫组化染色和主要病理反应(MPR)的示踪剂摄取的相关性。

结果

在室温下和 pH 值为 6.0-6.5 的条件下,通过 10 分钟的时间实现了 [Ga]Ga-THP-APN09 的放射性合成,放射化学产率>99%,摩尔活性为 13.9-27.8GBq/μmol。细胞摄取研究的结果反映了通过流式细胞术观察到的表面 PD-L1 表达水平的变化,其顺序为 A549 > H1975 > A549。在小动物 PET/CT 成像中,H1975 和 A549 肿瘤与 PD-L1 阴性 A549 肿瘤的比值分别为 8.3:1 和 2.2:1 清晰可见。离体生物分布研究表明,肿瘤摄取与 PET 结果一致,摄取最高的 A549 最多(8.20±0.87%ID/g),其次是 H1975(3.69±0.50%ID/g)和 A549(0.90±0.16%ID/g)。9 名可切除 NSCLC 患者入组临床研究。[Ga]Ga-THP-APN09 的摄取主要见于肾脏和脾脏,其次是骨髓中的低摄取。辐射剂量在可靠范围内。肿瘤摄取与 PD-L1 表达 TPS 呈正相关(r=0.8763,P=0.019)。MPR 患者的 [Ga]Ga-THP-APN09 肿瘤摄取(SUV)高于非 MPR 患者(中位数 SUV 分别为 2.73 和 2.10,P=0.036,采用 Mann-Whitney U 检验确定)。

结论

[Ga]Ga-THP-APN09 有可能转化为一种试剂盒型放射性示踪剂,用于快速、简单、一步法、室温放射性标记。示踪剂可以检测肿瘤中的 PD-L1 表达水平,这可能使预测 PD-1 免疫治疗联合化疗的反应成为可能。需要在大量病例中进行证实。

试验注册

临床试验(NCT05156515)。2021 年 12 月 12 日注册。

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