HLA II类分子缺失与JAK1/2缺陷在黑色素瘤中共存,导致CD4 T细胞和IFNγ交叉耐药。
HLA Class II Loss and JAK1/2 Deficiency Coevolve in Melanoma Leading to CD4 T-cell and IFNγ Cross-Resistance.
作者信息
Stupia Simone, Heeke Christina, Brüggemann Alicia, Zaremba Anne, Thier Beatrice, Kretz Julia, Sucker Antje, Philip Manuel, Zelinskyy Gennadiy, Ferrone Soldano, Roesch Alexander, Horn Susanne, Hadaschik Eva, Schadendorf Dirk, Trilling Mirko, Dittmer Ulf, Griewank Klaus, Zhao Fang, Paschen Annette
机构信息
Department of Dermatology, University Hospital Essen, University of Duisburg-Essen, Essen, Germany.
German Consortium for Translational Cancer Research (DKTK), Partner Site Essen/Düsseldorf, Germany.
出版信息
Clin Cancer Res. 2023 Aug 1;29(15):2894-2907. doi: 10.1158/1078-0432.CCR-23-0099.
PURPOSE
Recent studies have demonstrated HLA class II (HLA-II)-dependent killing of melanoma cells by cytotoxic CD4 T cells. We investigated evolution of HLA-II-loss tumors that escape cytotoxic CD4 T-cell activity and contribute to immunotherapy resistance.
EXPERIMENTAL DESIGN
Melanoma cells from longitudinal metastases were studied for constitutive and IFN-inducible HLA-II expression, sensitivity towards autologous CD4 T cells, and immune evasion by HLA-II loss. Clinical significance of HLA-II-low tumors was determined by analysis of transcriptomic data sets from patients with immune checkpoint blockade (ICB).
RESULTS
Analysis of longitudinal samples revealed strong intermetastatic heterogeneity in melanoma cell-intrinsic HLA-II expression and subclonal HLA-II loss. Tumor cells from early lesions either constitutively expressed HLA-II, sensitizing to cytotoxic CD4 T cells, or induced HLA-II and gained CD4 T-cell sensitivity in the presence of IFNγ. In contrast, late outgrowing subclones displayed a stable CD4 T-cell-resistant HLA-II-loss phenotype. These cells lacked not only constitutive but also IFNγ-inducible HLA-II due to JAK1/2-STAT1 pathway inactivation. Coevolution of JAK1/2 deficiency and HLA-II loss established melanoma cross-resistance to IFNγ and CD4 T cells, as detected in distinct stage IV metastases. In line with their immune-evasive phenotype, HLA-II-low melanomas showed reduced CD4 T-cell infiltrates and correlated with disease progression under ICB.
CONCLUSIONS
Our study links melanoma resistance to CD4 T cells, IFNγ, and ICB at the level of HLA-II, highlighting the significance of tumor cell-intrinsic HLA-II antigen presentation in disease control and calling for strategies to overcome its downregulation for improvement of patient outcome.
目的
最近的研究表明,细胞毒性CD4 T细胞可依赖人类白细胞抗原II类分子(HLA-II)杀伤黑色素瘤细胞。我们研究了逃避细胞毒性CD4 T细胞活性并导致免疫治疗耐药的HLA-II缺失肿瘤的演变。
实验设计
对纵向转移灶中的黑色素瘤细胞进行研究,分析其组成性和干扰素诱导性HLA-II表达、对自体CD4 T细胞的敏感性以及因HLA-II缺失导致的免疫逃逸情况。通过分析免疫检查点阻断(ICB)患者的转录组数据集,确定HLA-II低表达肿瘤的临床意义。
结果
对纵向样本的分析显示,黑色素瘤细胞内在的HLA-II表达和亚克隆性HLA-II缺失存在强烈的转移灶间异质性。早期病变的肿瘤细胞要么组成性表达HLA-II,对细胞毒性CD4 T细胞敏感,要么诱导表达HLA-II,并在干扰素γ存在的情况下获得对CD4 T细胞的敏感性。相比之下,后期生长的亚克隆表现出稳定的对CD4 T细胞耐药的HLA-II缺失表型。由于JAK1/2-STAT1信号通路失活,这些细胞不仅缺乏组成性HLA-II,也缺乏干扰素γ诱导性HLA-II。在不同的IV期转移灶中检测到,JAK1/2缺陷与HLA-II缺失的共同进化导致黑色素瘤对干扰素γ和CD4 T细胞产生交叉耐药。与它们的免疫逃逸表型一致,HLA-II低表达的黑色素瘤显示CD4 T细胞浸润减少,并且与ICB治疗下的疾病进展相关。
结论
我们的研究在HLA-II水平上,将黑色素瘤对CD4 T细胞、干扰素γ和ICB的耐药性联系起来,突出了肿瘤细胞内在的HLA-II抗原呈递在疾病控制中的重要性,并呼吁采取策略克服其下调以改善患者预后。
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