胶质瘤中的 MAPK/ERK 信号调节干扰素反应和 T 细胞招募,增强肿瘤与小胶质细胞之间的串扰,并促进免疫检查点阻断剂的疗效。

Kwang-Soo Kim, Junyi Zhang, Victor Andres Arrieta, Crismita Dmello, Elena Grabis, Karl Habashy, Joseph Duffy, Junfei Zhao, Andrew Gould, Li Chen, Jian Hu, Irina Balyasnikova, Dhan Chand, Dan Levey, Peter Canoll, Wenting Zhao, Peter Sims, Raul Rabadan, Surya Pandey, Bin Zhang, Catalina Lee-Chang, Dieter Henrik Heiland, Adam Mendel Sonabend
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Method: We conducted in vivo kinome-wide CRISPR/Cas9 screenings in murine gliomas to identify key regulators of susceptibility to anti-PD-1 and CD8+ T cell responses and performed survival studies to validate the most relevant genes. Additionally, paired single-cell RNA-sequencing (scRNA-seq) with p-ERK staining, spatial transcriptomics on GB samples, and ex-vivo slice culture of a BRAFV600E mutant GB tumor treated with BRAFi/MEKi were used to determine the causal relationship between MAPK signaling, tumor cell immunogenicity, and modulation of microglia phenotype. Results: CRISPR/Cas9 screens identified the MAPK pathway, particularly the RAF-MEK-ERK pathway, as the most critical modulator of glioma susceptibility to CD8+ T cells, and anti-PD-1 across all kinases. Experimentally-induced ERK phosphorylation in gliomas enhanced survival with ICB treatment, led to durable anti-tumoral immunity upon re-challenge and memory T cell infiltration in long-term survivors. Elevated p-ERK in glioma cells correlated with increased interferon responses, antigen presentation and T cell infiltration in GB. Moreover, spatial transcriptomics and scRNA-seq analysis revealed the modulation of interferon responses by the MAPK/ERK pathway in BRAFV600E human GB cells with ERK1/2 knockout and in slice cultures of human BRAFV600E GB tissue. Notably, BRAFi/MEKi treatment disrupted the interaction between tumor cells and tumor-associated macrophages/microglia in slice cultures from BRAFV600E mutant GB. Conclusion: Our data indicate that the MAPK/ERK pathway is a critical regulator of GB cell susceptibility to anti-tumoral immunity, modulating interferon responses, and antigen-presentation in glioma cells, as well as tumor cell interaction with microglia. 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引用次数: 0

摘要

背景:胶质母细胞瘤(GB)仍然是神经肿瘤学领域的一项艰巨挑战,免疫检查点阻断(ICB)在未经选择的患者中显示出有限的疗效。我们最近发现,MAPK/ERK 信号传导与复发性脑胶质细胞瘤患者接受抗 PD-1 和抗 CTLA-4 治疗后的总生存率有关。然而,MAPK/ERK 信号传导与易感性之间的因果关系以及这种关联的机制仍不甚明了。研究方法我们在小鼠胶质瘤中进行了体内激元全CRISPR/Cas9筛选,以确定抗PD-1和CD8+ T细胞反应易感性的关键调节因子,并进行了生存研究以验证最相关的基因。此外,该研究还利用配对的单细胞RNA测序(scRNA-seq)与p-ERK染色、GB样本的空间转录组学以及用BRAFi/MEKi治疗的BRAFV600E突变GB肿瘤的体外切片培养来确定MAPK信号传导、肿瘤细胞免疫原性和小胶质细胞表型调控之间的因果关系。结果CRISPR/Cas9筛选确定了MAPK通路,尤其是RAF-MEK-ERK通路,是胶质瘤对CD8+ T细胞和抗PD-1所有激酶易感性的最关键调节因子。通过实验诱导胶质瘤中的ERK磷酸化,可提高ICB治疗的存活率,在再次挑战时产生持久的抗肿瘤免疫力,并在长期存活者中产生记忆T细胞浸润。胶质瘤细胞中 p-ERK 的升高与 GB 中干扰素反应、抗原递呈和 T 细胞浸润的增加相关。此外,空间转录组学和 scRNA-seq 分析显示,在 ERK1/2 基因敲除的 BRAFV600E 人 GB 细胞和人 BRAFV600E GB 组织的切片培养物中,MAPK/ERK 通路对干扰素反应有调节作用。值得注意的是,在 BRAFV600E 突变 GB 切片培养物中,BRAFi/MEKi 治疗破坏了肿瘤细胞与肿瘤相关巨噬细胞/小胶质细胞之间的相互作用。结论我们的数据表明,MAPK/ERK 通路是 GB 细胞易受抗肿瘤免疫影响的关键调节因子,可调节干扰素反应、胶质瘤细胞的抗原递呈以及肿瘤细胞与小胶质细胞的相互作用。这些发现不仅阐明了脑胶质瘤免疫治疗耐药的机理基础,而且还强调了MAPK/ERK通路是提高这种具有挑战性的恶性肿瘤免疫治疗效果的一个有希望的靶点。
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MAPK/ERK signaling in gliomas modulates interferon responses, T cell recruitment, enhances tumor-microglia crosstalk, and drives immune checkpoint blockade efficacy.
Background: Glioblastoma (GB) remains a formidable challenge in neuro-oncology, with immune checkpoint blockade (ICB) showing limited efficacy in unselected patients. We previously recently established that MAPK/ERK signaling is associated with overall survival following anti-PD-1 and anti-CTLA-4 treatment in recurrent GB. However, the causal relationship between MAPK/ERK signaling and susceptibility to ICB, as well as the mechanisms underlying this association, remain poorly understood. Method: We conducted in vivo kinome-wide CRISPR/Cas9 screenings in murine gliomas to identify key regulators of susceptibility to anti-PD-1 and CD8+ T cell responses and performed survival studies to validate the most relevant genes. Additionally, paired single-cell RNA-sequencing (scRNA-seq) with p-ERK staining, spatial transcriptomics on GB samples, and ex-vivo slice culture of a BRAFV600E mutant GB tumor treated with BRAFi/MEKi were used to determine the causal relationship between MAPK signaling, tumor cell immunogenicity, and modulation of microglia phenotype. Results: CRISPR/Cas9 screens identified the MAPK pathway, particularly the RAF-MEK-ERK pathway, as the most critical modulator of glioma susceptibility to CD8+ T cells, and anti-PD-1 across all kinases. Experimentally-induced ERK phosphorylation in gliomas enhanced survival with ICB treatment, led to durable anti-tumoral immunity upon re-challenge and memory T cell infiltration in long-term survivors. Elevated p-ERK in glioma cells correlated with increased interferon responses, antigen presentation and T cell infiltration in GB. Moreover, spatial transcriptomics and scRNA-seq analysis revealed the modulation of interferon responses by the MAPK/ERK pathway in BRAFV600E human GB cells with ERK1/2 knockout and in slice cultures of human BRAFV600E GB tissue. Notably, BRAFi/MEKi treatment disrupted the interaction between tumor cells and tumor-associated macrophages/microglia in slice cultures from BRAFV600E mutant GB. Conclusion: Our data indicate that the MAPK/ERK pathway is a critical regulator of GB cell susceptibility to anti-tumoral immunity, modulating interferon responses, and antigen-presentation in glioma cells, as well as tumor cell interaction with microglia. These findings not only elucidate the mechanistic underpinnings of immunotherapy resistance in GB but also highlight the MAPK/ERK pathway as a promising target for enhancing immunotherapeutic efficacy in this challenging malignancy.
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