Bian Linjie, Wang Zheyi, Li Panli, He Simin, Zhang Jianping, Xu Xiaoping, Wang Xiangwei, Song Shaoli
Department of Nuclear Medicine, Fudan University Shanghai Cancer Center; Department of Oncology, Shanghai Medical College, Fudan University, shanghai 200032, China.
Shanghai Engineering Research Center of Molecular Imaging Probes, Shanghai 200032, China.
Theranostics. 2025 Aug 16;15(17):9306-9325. doi: 10.7150/thno.117021. eCollection 2025.
The cholecystokinin-2 receptor (CCK2R) is highly expressed in several neuroendocrine cancers, particularly in medullary thyroid carcinoma (MTC) and small cell lung cancer (SCLC) and represents a promising target for radiotheranostic applications. Several minigastrin-derived analogs, such as DOTA-MGS5 and DOTA-CCK-66, have demonstrated favorable tumor targeting and imaging performance. Building on these advances, we developed and evaluated a novel dimeric CCKR-targeted radiotracer, and further investigated its radiosensitization potential in combination with mTOR inhibition. We designed a dimeric CCKR-targeted agent, DOTA-CCKR-dimer, labeled with Ga for PET imaging and Lu for radionuclide therapy. Furthermore, we combined [Lu]Lu-DOTA-CCKR-dimer with the mTOR inhibitor RAD001 and used single-cell RNA sequencing (scRNA-seq) to investigate the mechanisms of radiosensitization. Compared with its monomeric counterpart [Ga]Ga-DOTA-CCK-66, [Ga]Ga-DOTA-CCKR-dimer demonstrated superior tumor targeting . Tumor uptake reached 26.13 ± 6.21 %ID/g at 2 h post-injection, which was significantly greater than that of the monomeric tracer (19.63 ± 3.35 %ID/g, < 0.05). Additionally, [Lu]Lu-DOTA-CCKR-dimer selectively eliminated highly proliferative and poorly differentiated tumor cell subpopulations. Combination treatment with RAD001 improved therapeutic efficacy by suppressing glutathione-mediated detoxification and increasing oxidative stress. Furthermore, glutathione S-transferase kappa 1 (GSTK1) was identified as a key regulator that modulates radiosensitivity. Conclusions: DOTA-CCKR-dimer exhibits favorable stability, notable tumor retention, and excellent imaging performance. Combining this agent with mTOR inhibition offers a synergistic strategy to sensitize tumors to radiotherapy, providing a promising approach for treating refractory CCKR-positive malignancies.
胆囊收缩素-2受体(CCK2R)在几种神经内分泌癌中高表达,尤其是在甲状腺髓样癌(MTC)和小细胞肺癌(SCLC)中,是放射诊疗应用中有前景的靶点。几种源自小胃泌素的类似物,如DOTA-MGS5和DOTA-CCK-66,已显示出良好的肿瘤靶向性和成像性能。基于这些进展,我们开发并评估了一种新型的二聚体CCKR靶向放射性示踪剂,并进一步研究了其与mTOR抑制联合使用时的放射增敏潜力。我们设计了一种二聚体CCKR靶向剂DOTA-CCKR-二聚体,用镓进行PET成像标记,用镥进行放射性核素治疗标记。此外,我们将[镥]镥-DOTA-CCKR-二聚体与mTOR抑制剂RAD001联合使用,并使用单细胞RNA测序(scRNA-seq)来研究放射增敏机制。与单体对应物[镓]镓-DOTA-CCK-66相比,[镓]镓-DOTA-CCKR-二聚体表现出更好的肿瘤靶向性。注射后2小时肿瘤摄取率达到26.13±6.21%ID/g,显著高于单体示踪剂(19.63±3.35%ID/g,P<0.05)。此外,[镥]镥-DOTA-CCKR-二聚体选择性地消除了高增殖和低分化的肿瘤细胞亚群。与RAD001联合治疗通过抑制谷胱甘肽介导的解毒作用和增加氧化应激提高了治疗效果。此外,谷胱甘肽S-转移酶κ1(GSTK1)被确定为调节放射敏感性的关键调节因子。结论:DOTA-CCKR-二聚体表现出良好的稳定性、显著的肿瘤滞留性和出色的成像性能。将该药剂与mTOR抑制联合使用提供了一种使肿瘤对放疗敏感的协同策略,为治疗难治性CCKR阳性恶性肿瘤提供了一种有前景的方法。
