河马通路控制生物蝶呤代谢，以保护肺癌中的相邻细胞免受铁死亡。

Hippo pathway controls biopterin metabolism to shield adjacent cells from ferroptosis in lung cancer.

作者信息

Li Hao, Kanamori Yohei, Nita Akihiro, Maeda Ayato, Zhang Tianli, Kikuchi Kenta, Yamada Hiroyuki, Toyomoto Touya, Saleh Mohamed Fathi, Niimura Mayumi, Hinokuma Hironori, Shimoda Mayuko, Ikeda Koei, Suzuki Makoto, Komohara Yoshihiro, Kurotaki Daisuke, Sawa Tomohiro, Moroishi Toshiro

机构信息

Department of Molecular and Medical Pharmacology, Faculty of Life Sciences, Kumamoto University, 1-1-1 Honjo, Kumamoto, 860-8556, Japan.

Department of Biomedical Sciences, School of Biological and Environmental Sciences, Kwansei Gakuin University, 1 Gakuen Uegahara, Sanda, 669-1330, Japan.

出版信息

EMBO Rep. 2025 Jul 7. doi: 10.1038/s44319-025-00515-4.

DOI:10.1038/s44319-025-00515-4

PMID:40619484

Abstract

Recent advances in single-cell technologies have uncovered significant cellular diversity in tumors, influencing cancer progression and treatment outcomes. The Hippo pathway controls cell proliferation through its downstream effectors: yes-associated protein (YAP) and transcriptional co-activator with PDZ-binding motif (TAZ). Our analysis of human lung adenocarcinoma and murine models revealed that cancer cells display heterogeneous YAP/TAZ activation levels within tumors. Murine lung cancer cells with high YAP/TAZ activity grow rapidly but are sensitive to ferroptosis, a cell death induced by lipid peroxidation. In contrast, cells with low YAP/TAZ activity grow slowly but resist ferroptosis. Moreover, they protect neighbouring cells from ferroptosis, creating a protective microenvironment that enhances the tumor's resistance to ferroptosis. Mechanistically, inhibiting YAP/TAZ upregulates GTP cyclohydrolase 1 (GCH1), an enzyme critical for the biosynthesis of tetrahydrobiopterin (BH4), which functions as a secretory antioxidant to prevent lipid peroxidation. Pharmacological inhibition of GCH1 sensitizes lung cancer cells to ferroptosis inducers, suggesting a potential therapeutic approach. Our data highlights the non-cell-autonomous roles of the Hippo pathway in creating a ferroptosis-resistant tumor microenvironment.

摘要

单细胞技术的最新进展揭示了肿瘤中显著的细胞多样性，这会影响癌症进展和治疗结果。Hippo信号通路通过其下游效应分子——Yes相关蛋白（YAP）和含PDZ结合基序的转录共激活因子（TAZ）来控制细胞增殖。我们对人类肺腺癌和小鼠模型的分析表明，癌细胞在肿瘤内表现出异质性的YAP/TAZ激活水平。具有高YAP/TAZ活性的小鼠肺癌细胞生长迅速，但对铁死亡敏感，铁死亡是一种由脂质过氧化诱导的细胞死亡。相比之下，具有低YAP/TAZ活性的细胞生长缓慢，但抵抗铁死亡。此外，它们保护邻近细胞免受铁死亡，从而形成一个增强肿瘤对铁死亡抗性的保护性微环境。从机制上讲，抑制YAP/TAZ会上调鸟苷三磷酸环化水解酶1（GCH1），这是一种对四氢生物蝶呤（BH4）生物合成至关重要的酶，BH4作为一种分泌性抗氧化剂可防止脂质过氧化。对GCH1的药理学抑制使肺癌细胞对铁死亡诱导剂敏感，提示了一种潜在的治疗方法。我们的数据突出了Hippo信号通路在创建抗铁死亡肿瘤微环境中的非细胞自主作用。

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The roles of ferroptosis in cancer: Tumor suppression, tumor microenvironment, and therapeutic interventions.铁死亡在癌症中的作用：肿瘤抑制、肿瘤微环境和治疗干预。

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河马通路控制生物蝶呤代谢，以保护肺癌中的相邻细胞免受铁死亡。

Hippo pathway controls biopterin metabolism to shield adjacent cells from ferroptosis in lung cancer.

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