Ectopic expression of GDF15 in cancer-associated fibroblasts enhances melanoma immunosuppression via the GFRAL/RET cascade.

IF 10.3 1区医学 Q1 IMMUNOLOGY

Journal for Immunotherapy of Cancer Pub Date : 2025-06-24 DOI:10.1136/jitc-2024-011036

Zhijie Zhao, Huabao Cai, Wenyang Nie, Xiaojing Wang, Zhenzhen Zhao, Fu Zhao, Yisheng Chen, Zhiwen Luo, Zhiheng Lin, Li Lin, Yantao Ding

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引用次数: 0

Abstract

Background: A key aspect of tumor biology is the involvement of cancer-associated fibroblasts (CAFs) in shaping the immunosuppressive microenvironment. However, the dynamic and complex key roles of CAFs in the melanoma immune microenvironment have not been elucidated.

Methods: The CAFs landscape in melanoma was characterized using single-cell RNA-seq and spatial transcriptomics. Molecular dynamics simulations were employed to validate the interactions between CAFs and melanoma cells. Bulk RNA-seq was used to establish a prognostic model. To validate the expression of key targets, western blotting, quantitative real-time PCR, and ELISA were performed. The molecular interactions were confirmed via co-immunoprecipitation, chromatin immunoprecipitation, and luciferase gene reporter assays. In-depth molecular mechanisms were explored using lentiviral transfection, cell co-culture experiments, recombinant protein rescue experiments, flow cytometry, knockout mice, and Cre-loxP system mice.

Results: This study identified a unique group of CAFs expressing high levels of growth differentiation factor 15 (GDF15). The paracrine secretion of GDF15 was regulated by the transcription factor FOXP1, which subsequently binds to the TGFBR2 receptor on melanoma cells, driving their proliferation and metastatic capacity. In addition, CAFs-derived GDF15 interacts with the GFRAL receptor on melanoma cells, thereby promoting RET phosphorylation and triggering downstream signaling axes, inducing increased tumor cell stemness and secretion of inflammatory factors CCL18 and TGF-β. This cascade reaction ultimately induces macrophage polarization to the immunosuppressive M2 phenotype, assists in the establishment of an immunosuppressive microenvironment, and leads to accelerated melanoma lung metastasis.

Conclusion: By integrating single-cell RNA-seq, spatial transcriptomics, bulk RNA-seq, molecular dynamics simulation and complete experimental design, this study comprehensively characterized that ectopic expression of CAFs-derived GDF15 can act as an accomplice in melanoma progression by inducing increased tumor cell stemness and macrophage M2 polarization, reshaping the immune landscape of melanoma, and providing new ideas and new targets for precision immunotherapy of melanoma.

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GDF15在癌症相关成纤维细胞中的异位表达通过GFRAL/RET级联增强黑色素瘤免疫抑制。

背景：肿瘤生物学的一个关键方面是癌症相关成纤维细胞（CAFs）参与形成免疫抑制微环境。然而，CAFs在黑色素瘤免疫微环境中的动态和复杂的关键作用尚未阐明。方法：利用单细胞RNA-seq和空间转录组学对黑色素瘤的cas景观进行表征。采用分子动力学模拟来验证CAFs与黑色素瘤细胞之间的相互作用。采用Bulk RNA-seq建立预后模型。为了验证关键靶点的表达，进行了western blotting、定量实时PCR和ELISA检测。分子相互作用通过共免疫沉淀、染色质免疫沉淀和荧光素酶基因报告检测证实。通过慢病毒转染、细胞共培养实验、重组蛋白救援实验、流式细胞术、敲除小鼠和Cre-loxP系统小鼠深入探讨分子机制。结果：本研究确定了一组独特的表达高水平生长分化因子15 （GDF15）的CAFs。GDF15的旁分泌受转录因子FOXP1调节，FOXP1随后与黑色素瘤细胞上的TGFBR2受体结合，驱动其增殖和转移能力。此外，cafs衍生的GDF15与黑色素瘤细胞上的GFRAL受体相互作用，从而促进RET磷酸化并触发下游信号轴，诱导肿瘤细胞干性增加，炎症因子CCL18和TGF-β分泌增加。这种级联反应最终诱导巨噬细胞极化到免疫抑制M2表型，协助建立免疫抑制微环境，并导致黑色素瘤加速肺转移。结论：本研究通过整合单细胞RNA-seq、空间转录组学、体积RNA-seq、分子动力学模拟和完整的实验设计，全面表征了cafs来源的GDF15异位表达可通过诱导肿瘤细胞干性增加和巨噬细胞M2极化，重塑黑色素瘤的免疫景观，为黑色素瘤的精准免疫治疗提供新思路和新靶点。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal for Immunotherapy of Cancer Biochemistry, Genetics and Molecular Biology-Molecular Medicine

CiteScore

17.70

自引率

4.60%

发文量

522

审稿时长

18 weeks

期刊介绍： The Journal for ImmunoTherapy of Cancer (JITC) is a peer-reviewed publication that promotes scientific exchange and deepens knowledge in the constantly evolving fields of tumor immunology and cancer immunotherapy. With an open access format, JITC encourages widespread access to its findings. The journal covers a wide range of topics, spanning from basic science to translational and clinical research. Key areas of interest include tumor-host interactions, the intricate tumor microenvironment, animal models, the identification of predictive and prognostic immune biomarkers, groundbreaking pharmaceutical and cellular therapies, innovative vaccines, combination immune-based treatments, and the study of immune-related toxicity.