Low-dose radiotherapy enhances the efficacy of PD-L1 blockade and induces the abscopal effect.

IF 10.3 1区医学 Q1 IMMUNOLOGY

Journal for Immunotherapy of Cancer Pub Date : 2025-06-30 DOI:10.1136/jitc-2025-011487

Pierre-Antoine Laurent, Liu Shi, Lisa Bouarroudj, Nathan Benzazon, Marine Gerbé De Thoré, Winchygn Liu, Marine Aglave, Paul Bergeron, Flavie Naulin, Lisa Sitterlé, Daphné Morel, Antonin Levy, Céline Clémenson, Michele Mondini, Charlotte Robert, Lydia Meziani, Eric Deutsch

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Abstract

Background Low-dose radiotherapy (RT) is a promising treatment likely to increase the efficacy of immunotherapy, including programmed cell death ligand 1 (PD-L1) blockade, in cancer therapy. Further exploration and optimization of such combinatorial strategies are required. Notably, the ability of low-dose RT to enhance the efficacy of immune-checkpoint inhibitors (ICI) in distant, unirradiated tumors is debated. Methods We used a stepwise preclinical approach in immunocompetent mice bearing different murine tumor models (MC38 or CT26), with one or two tumors per mouse. Mice received tumor-only irradiation consisting of either low-dose RT (2x0.5 Gy to 2x2 Gy) or high-dose RT (2x6 Gy to 2x8 Gy) combined with anti-PD-L1. Tumor growth rate and survival were compared across the different conditions. The immune microenvironments of both irradiated and distant unirradiated tumors were characterized using single-cell RNA sequencing. Results We first demonstrated that low-dose RT 2×2 Gy combined with anti-PD-L1 is as effective as high-dose RT 2×6 Gy in delaying the growth of irradiated tumors. Subsequently, we showed that low-dose RT to one tumor enhances the efficacy of anti-PD-L1 consolidation therapy in a distant, unirradiated tumor, thereby inducing an abscopal effect comparable to that observed with high-dose RT. Single-cell RNA sequencing analysis highlighted the polarization of tumor-associated macrophages (TAMs) within distant unirradiated tumors towards a pro-inflammatory phenotype following low-dose RT and anti-PD-L1. Depleting TAMs in distant unirradiated tumors using liposomal clodronate abrogated the abscopal effect driven by low-dose RT combined with anti-PD-L1. Conclusion Our findings demonstrate the ability of low-dose RT to increase the efficacy of ICI in a distant tumor, resulting in a significant abscopal effect, and highlight the critical role of TAMs in the underlying mechanism, as well as a potential immune crosstalk between TAMs and activated lymphoid cells. These data propose low-dose RT as a potential strategy to improve the efficacy of immunotherapy in patients with metastatic solid tumors receiving anti-PD-L1.

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低剂量放疗可增强PD-L1阻断的疗效，诱发体外效应。

背景：低剂量放疗（RT）是一种很有希望的治疗方法，可能会提高免疫治疗的疗效，包括程序性细胞死亡配体1 （PD-L1）阻断，在癌症治疗中。这种组合策略需要进一步的探索和优化。值得注意的是，低剂量放射治疗在远处未放疗肿瘤中增强免疫检查点抑制剂（ICI）疗效的能力存在争议。方法采用分步临床前方法，对携带不同小鼠肿瘤模型（MC38或CT26）的免疫功能小鼠进行实验，每只小鼠分别携带1个或2个肿瘤。小鼠接受肿瘤单独照射，低剂量放疗（2x0.5 Gy至2x2 Gy）或高剂量放疗（2x6 Gy至2x8 Gy）联合抗pd - l1。比较不同条件下的肿瘤生长速度和生存率。利用单细胞RNA测序技术对辐照肿瘤和远端未辐照肿瘤的免疫微环境进行了表征。我们首先证明了低剂量放疗2×2 Gy联合抗pd - l1在延缓放疗肿瘤生长方面与高剂量放疗2×6 Gy一样有效。随后，我们发现对一个肿瘤进行低剂量放射治疗可增强远端未照射肿瘤的抗pd - l1巩固治疗的疗效，从而诱导出与高剂量放射治疗相当的体外效应。单细胞RNA测序分析强调，在低剂量放射治疗和抗pd - l1治疗后，远端未照射肿瘤内肿瘤相关巨噬细胞（tam）向促炎表型分化。使用氯膦酸脂质体消耗远端未照射肿瘤中的tam消除了低剂量RT联合抗pd - l1驱动的体外效应。结论我们的研究结果表明，低剂量RT能够提高远端肿瘤的ICI疗效，产生显著的体外效应，并强调了tam在其潜在机制中的关键作用，以及tam与活化淋巴样细胞之间潜在的免疫串音。这些数据表明，对于接受抗pd - l1治疗的转移性实体瘤患者，低剂量放疗可能是提高免疫治疗疗效的一种潜在策略。

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

Journal for Immunotherapy of Cancer Biochemistry, Genetics and Molecular Biology-Molecular Medicine

CiteScore

17.70

自引率

4.60%

发文量

522

审稿时长

18 weeks

期刊介绍： The Journal for ImmunoTherapy of Cancer (JITC) is a peer-reviewed publication that promotes scientific exchange and deepens knowledge in the constantly evolving fields of tumor immunology and cancer immunotherapy. With an open access format, JITC encourages widespread access to its findings. The journal covers a wide range of topics, spanning from basic science to translational and clinical research. Key areas of interest include tumor-host interactions, the intricate tumor microenvironment, animal models, the identification of predictive and prognostic immune biomarkers, groundbreaking pharmaceutical and cellular therapies, innovative vaccines, combination immune-based treatments, and the study of immune-related toxicity.