BRAF/MEK Inhibition Induces Cell State Transitions Boosting Immune Checkpoint Sensitivity in BRAFV600E -mutant Glioma.

IF 3.5 2区物理与天体物理 Q1 PHYSICS, MULTIDISCIPLINARY

Chinese Physics Letters Pub Date : 2025-04-01 DOI:10.1101/2023.02.03.526065

Yao Lulu Xing, Dena Panovska, Jong-Whi Park, Stefan Grossauer, Katharina Koeck, Brandon Bui, Emon Nasajpour, Jeffrey J Nirschl, Zhi-Ping Feng, Pierre Cheung, Pardes Habib, Ruolun Wei, Jie Wang, Wes Thomason, Joanne Xiu, Alexander Beck, Katharina Weber, Patrick N Harter, Michael Lim, Kelly Mahaney, Laura M Prolo, Gerald A Grant, Xuhuai Ji, Kyle M Walsh, Jean M Mulcahy Levy, Dolores Hambardzumyan, Claudia Katharina Petritsch

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引用次数: 0

Abstract

Resistance to BRAF plus MEK inhibition (BRAFi+MEKi) in BRAFV600E-mutant gliomas drives rebound, progression, and high mortality, yet it remains poorly understood. This study addresses the urgent need to develop treatments for BRAFi+MEKi-resistant glioma in novel mouse models and patient-derived materials. BRAFi+MEKi reveals glioma plasticity by heightening cell state transitions along glial differentiation trajectories, giving rise to astrocyte- and immunomodulatory oligodendrocyte (OL)-like states. PD-L1 upregulation in OL-like cells links cell state transitions to tumor evasion, possibly orchestrated by Galectin-3. BRAFi+MEKi induces interferon response signatures, tumor infiltration, and suppression of T cells. Combining BRAFi+MEKi with immune checkpoint inhibition enhances survival in a T cell-dependent manner, reinvigorates T cells, and outperforms individual or sequential therapies in mice. Elevated PD-L1 expression in BRAF-mutant versus BRAF-wildtype glioblastoma supports the rationale for PD-1 inhibition in patients. These findings underscore the potential of targeting glioma plasticity and highlight combination strategies to overcome therapy resistance in BRAFV600E-mutant HGG.

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双重 MAPK 抑制会触发促炎信号，并使 BRAF V600E 脑胶质瘤对 T 细胞介导的检查点疗法敏感。

BRAF V600E小儿低级别胶质瘤经常转化为高级别胶质瘤（HGG），对化疗反应差，死亡率高。虽然BRAF和MEK联合抑制疗法（BRAFi+MEKi）的疗效优于化疗，但70%的BRAF V600E HGG患者对治疗产生耐药性，肿瘤肆无忌惮地发展。BRAF V600E胶质瘤具有免疫丰富的微环境，这表明它们可能对免疫疗法有反应，但BRAFi+MEKi对抗肿瘤免疫的影响尚不清楚。我们利用 BRAFi+MEKi 前后的患者肿瘤组织、两种新型 BRAF V600E HGG 合成小鼠模型和患者衍生细胞系，研究了达拉非尼和曲美替尼与临床相关的 BRAFi+MEKi 对肿瘤生长、细胞状态和肿瘤浸润 T 细胞的影响。我们发现，BRAFi+MEKi治疗：i）通过刺激IFNγ和IL-27，上调小鼠BRAF V600E HGG中程序性细胞死亡蛋白-1（PD-1）信号基因和PD-1配体（PD-L1）蛋白的表达；ii）通过IL-23、IL-27和IL-32的产生减弱T细胞的活性，从而促进调节性T细胞的扩增；iii）通过肿瘤细胞分泌Galectin-3，诱导与耐药PD-L1+区相关的神经胶质分化。BRAFi+MEKi 使小鼠 BRAF V600E HGG 缩小与干扰素-γ 反应基因、MHC I/II 类表达以及抗原递呈和处理程序的上调有关，表明抗肿瘤免疫力增强。BRAFi+MEKi与抑制PD-1和细胞毒性T淋巴细胞相关蛋白4（CTLA-4）免疫检查点的治疗性抗体联合治疗可重新激活T细胞，并以T细胞依赖的方式提供比单一疗法更高的生存率。在小鼠 BRAF V600E HGG 中，四联疗法通过激活 T 细胞介导的抗肿瘤免疫克服了 BRAFi+MEKi 抗药性。PD-L1在人类BRAF突变型与BRAF野生型胶质母细胞瘤临床标本中的表达升高，补充了实验结果，并表明对患者治疗具有转化意义。

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来源期刊

Chinese Physics Letters 物理-物理：综合

CiteScore

5.90

自引率

8.60%

发文量

13238

审稿时长

4 months

期刊介绍： Chinese Physics Letters provides rapid publication of short reports and important research in all fields of physics and is published by the Chinese Physical Society and hosted online by IOP Publishing.