头颈部鳞状细胞癌的代谢状况揭示了免疫逃逸中的新型犬尿氨酸/Siglec-15轴。

IF 20.1 1区医学 Q1 ONCOLOGY

Cancer Communications Pub Date : 2024-05-12 DOI:10.1002/cac2.12545

Xin-Yu Zhang, Jian-Bo Shi, Shu-Fang Jin, Rui-Jie Wang, Ming-Yu Li, Zhi-Yuan Zhang, Xi Yang, Hai-Long Ma

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引用次数: 0

摘要

背景：代谢重编程和免疫逃逸是癌症的两大特征。然而，代谢紊乱如何驱动头颈部鳞状细胞癌（HNSCC）的免疫逃逸仍不清楚。因此，本研究旨在调查 HNSCC 的代谢情况及其驱动免疫逃逸的机制：方法：采用液/气相色谱-质谱法和 RNA 序列分析法对 69 例 HNSCC 患者的配对肿瘤组织和邻近正常组织进行分析。在体外和体内探讨了犬尿氨酸（Kyn）的促瘤功能。在 CD8+ T 细胞中研究了 Kyn 的下游靶标。研究了 Siglec-15 在体内过表达后对 CD8+ T 细胞的调控。建立了一种工程纳米粒子来递送 Siglec-15 小干扰 RNA（siS15），并研究了其与免疫治疗反应的关系。在HNSCC患者队列中分析了Siglec-15与CD8+程序性细胞死亡1（PD-1）+ T细胞之间的关联：结果：共有178种代谢物在HNSCC中出现明显失调，包括碳水化合物、脂类和类脂分子以及氨基酸。其中，氨基酸代谢的改变最为明显，尤其是Kyn，它能促进肿瘤的增殖和转移。此外，根据 RNA 序列分析，Kyn 高的患者体内大多数免疫检查点分子都出现了上调。此外，肿瘤衍生的Kyn被转移到CD8+ T细胞中，诱导T细胞功能衰竭，而阻断Kyn转运体可恢复其杀伤活性。研究结果表明，从机理上讲，Kyn通过芳基烃受体（AhR）转录调节Siglec-15的表达，而Siglec-15的过表达会抑制T细胞的浸润和活化，从而促进免疫逃逸。在体内以AhR为靶点可减少Kyn介导的Siglec-15表达，促进瘤内CD8+ T细胞浸润和杀伤能力。最后，我们设计了一种 NH2 修饰介孔二氧化硅纳米粒子来递送 siS15，从而恢复了 CD8+ T 细胞的功能状态，并增强了肿瘤免疫功能健全小鼠的抗 PD-1 疗效。在临床上，Siglec-15与HNSCC组织中的AhR表达和CD8+PD-1+ T细胞浸润呈正相关：结论：研究结果全面描述了 HNSCC 的代谢情况，揭示了 Kyn/Siglec-15 轴可能是一种新的潜在免疫代谢机制，为癌症的治疗提供了一种前景广阔的策略。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Metabolic landscape of head and neck squamous cell carcinoma informs a novel kynurenine/Siglec-15 axis in immune escape

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Metabolic landscape of head and neck squamous cell carcinoma informs a novel kynurenine/Siglec-15 axis in immune escape

Background

Metabolic reprograming and immune escape are two hallmarks of cancer. However, how metabolic disorders drive immune escape in head and neck squamous cell carcinoma (HNSCC) remains unclear. Therefore, the aim of the present study was to investigate the metabolic landscape of HNSCC and its mechanism of driving immune escape.

Methods

Analysis of paired tumor tissues and adjacent normal tissues from 69 HNSCC patients was performed using liquid/gas chromatography-mass spectrometry and RNA-sequencing. The tumor-promoting function of kynurenine (Kyn) was explored in vitro and in vivo. The downstream target of Kyn was investigated in CD8⁺ T cells. The regulation of CD8⁺ T cells was investigated after Siglec-15 overexpression in vivo. An engineering nanoparticle was established to deliver Siglec-15 small interfering RNA (siS15), and its association with immunotherapy response were investigated. The association between Siglec-15 and CD8⁺ programmed cell death 1 (PD-1)⁺ T cells was analyzed in a HNSCC patient cohort.

Results

A total of 178 metabolites showed significant dysregulation in HNSCC, including carbohydrates, lipids and lipid-like molecules, and amino acids. Among these, amino acid metabolism was the most significantly altered, especially Kyn, which promoted tumor proliferation and metastasis. In addition, most immune checkpoint molecules were upregulated in Kyn-high patients based on RNA-sequencing. Furthermore, tumor-derived Kyn was transferred into CD8⁺ T cells and induced T cell functional exhaustion, and blocking Kyn transporters restored its killing activity. Accroding to the results, mechanistically, Kyn transcriptionally regulated the expression of Siglec-15 via aryl hydrocarbon receptor (AhR), and overexpression of Siglec-15 promoted immune escape by suppressing T cell infiltration and activation. Targeting AhR in vivo reduced Kyn-mediated Siglec-15 expression and promoted intratumoral CD8⁺ T cell infiltration and killing capacity. Finally, a NH₂-modified mesoporous silica nanoparticle was designed to deliver siS15, which restored CD8⁺ T cell function status and enhanced anti-PD-1 efficacy in tumor-bearing immunocompetent mice. Clinically, Siglec-15 was positively correlated with AhR expression and CD8⁺PD-1⁺ T cell infiltration in HNSCC tissues.

Conclusions

The findings describe the metabolic landscape of HNSCC comprehensively and reveal that the Kyn/Siglec-15 axis may be a novel potential immunometabolism mechanism, providing a promising therapeutic strategy for cancers.

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来源期刊

Cancer Communications Biochemistry, Genetics and Molecular Biology-Cancer Research

CiteScore

25.50

自引率

4.30%

发文量

153

审稿时长

4 weeks

期刊介绍： Cancer Communications is an open access, peer-reviewed online journal that encompasses basic, clinical, and translational cancer research. The journal welcomes submissions concerning clinical trials, epidemiology, molecular and cellular biology, and genetics.