利用Xenium进行的单细胞空间分析揭示了放疗联合抗PD-L1治疗后CXCL13 + T细胞和CXCL9 +细胞的抗肿瘤反应。

Single-cell spatial analysis with Xenium reveals anti-tumour responses of CXCL13 + T and CXCL9+ cells after radiotherapy combined with anti-PD-L1 therapy.

作者信息

Sakai Shunsuke A, Oyoshi Hidekazu, Nakamura Masaki, Taki Tetsuro, Nomura Kotaro, Hojo Hidehiro, Hirata Hidenari, Motegi Atsushi, Nakamura Yuka, Zenkoh Junko, Aokage Keiju, Hamada Akira, Kojima Motohiro, Kuwata Takeshi, Tsuchihara Katsuya, Akimoto Tetsuo, Soh Junichi, Mitsudomi Tetsuya, Tsuboi Masahiro, Ishii Genichiro, Suzuki Yutaka, Suzuki Ayako, Yamashita Riu, Kageyama Shun-Ichiro

机构信息

Division of Translational Informatics, Exploratory Oncology Research and Clinical Trial Center, National Cancer Center, Kashiwa, Chiba, 277-8577, Japan.

Department of Integrated Biosciences, Graduate School of Frontier Sciences, The University of Tokyo, Chiba, 277-8568, Japan.

出版信息

Br J Cancer. 2025 Jul 16. doi: 10.1038/s41416-025-03088-0.

DOI:10.1038/s41416-025-03088-0

PMID:40670667

Abstract

BACKGROUND

The standard treatment for unresectable non-small cell lung cancer (NSCLC) is anti-PD-L1 therapy combined with chemoradiotherapy (anti-PD-L1-CRT). Although some patients achieve complete cancer eradication and cure, more than half of patients retain persistent cancer cells. Our research aimed to unravel the nuanced mechanisms involved in both immune attack and evasion induced by anti-PD-L1-CRT with single cell spatial transcriptome.

METHODS

Xenium is a cutting-edge single-cell spatial analysis tool that enables pathology-based and single-cell analyses while preserving spatial information. In our study, we used Xenium to identify the tumour microenvironment (TME), immune dynamics, and residual cancer cells at the single-cell level following treatment with anti-PD-L1-CRT.

RESULTS

Posttreatment alterations included a significant increase in CXCL9+ cells and CXCL13 + T cells, particularly around tumour cells. Additionally, we discovered that CXCL13 + T cells directly impact cancer cells in the posttreatment environment. Moreover, we identified clusters of immune-cold cancer cells posttreatment, revealing their activation of DNA repair pathways and high proliferative capacity. The novel spatial analysis tool Xenium enabled identification of the immune environment at the single-cell level following treatment with anti-PD-L1-CRT, elucidating its characteristics.

CONCLUSIONS

These findings suggest potential advancements in developing new treatments to improve posttreatment immune responses and address resistance challenges.

摘要

背景

不可切除的非小细胞肺癌（NSCLC）的标准治疗方法是抗程序性死亡配体1（PD-L1）疗法联合放化疗（抗PD-L1-放化疗）。尽管一些患者实现了癌症的完全根除和治愈，但仍有超过一半的患者保留了持续存在的癌细胞。我们的研究旨在通过单细胞空间转录组揭示抗PD-L1-放化疗诱导的免疫攻击和逃逸所涉及的细微机制。

方法

Xenium是一种前沿的单细胞空间分析工具，能够在保留空间信息的同时进行基于病理学的单细胞分析。在我们的研究中，我们使用Xenium在抗PD-L1-放化疗治疗后在单细胞水平上识别肿瘤微环境（TME）、免疫动态和残留癌细胞。

结果

治疗后的改变包括CXCL9+细胞和CXCL13+T细胞显著增加，特别是在肿瘤细胞周围。此外，我们发现CXCL13+T细胞在治疗后的环境中直接影响癌细胞。此外，我们在治疗后识别出免疫冷癌细胞簇，揭示了它们对DNA修复途径的激活和高增殖能力。新型空间分析工具Xenium能够在抗PD-L1-放化疗治疗后在单细胞水平上识别免疫环境，阐明其特征。

结论

这些发现表明在开发新的治疗方法以改善治疗后的免疫反应和应对耐药性挑战方面有潜在进展。

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利用Xenium进行的单细胞空间分析揭示了放疗联合抗PD-L1治疗后CXCL13 + T细胞和CXCL9 +细胞的抗肿瘤反应。

Single-cell spatial analysis with Xenium reveals anti-tumour responses of CXCL13 + T and CXCL9+ cells after radiotherapy combined with anti-PD-L1 therapy.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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