P853单细胞转录组分析发现循环CD8+ T细胞的独特特征,可以预测黑色素瘤患者的免疫治疗反应

N. Rudqvist, R. Zappasodi, Daniel K. Wells, V. Thorsson, Alexandria P. Cogdill, A. Monette, Y. Najjar, R. Sweis, E. Wennerberg, P. Bommareddy, C. Haymaker, U. Khan, H. McGee, Wungki Park, H. Sater, C. Spencer, Nicholas P. Tschernia, M. Ascierto, Valentin V. Barsan, V. Popat, S. Valpione, B. Vincent
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Results Compared to circulating CD8+ T cells from healthy donors (hPBL), mPBLs contained subsets resembling certain features of mTIL. More importantly, three clusters (2, 6 and 15) were represented in both mPBL and mTIL. Cluster 2 was the major subset of the majority of hPBL, which phenocopied hallmark parameters of resting T cells. Cluster 6 and 15 were uniquely presented in melanoma patients. Cluster 15 had the highest PD-1 levels, with elevated markers of both activation and dysfunction/exhaustion; while Cluster 6 was enriched for ‘dormant’ cells with overall toned-down transcriptional activity except PPAR signaling, a known suppressor for T cell activation. Interestingly, unlike other mTIL clusters that would classically be defined as exhausted, Cluster 15 exhibited the highest metabolic activity (oxidative-phosphorylation and glycolysis). We further analyzed total sc-transcriptomics using cell trajectory algorithms and identified that these three clusters were the most distinct subtypes of CD8 T cells from each other, representing: resting (cluster 2), metabolically active-dysfunctional (cluster 15), and dormant phenotypes (cluster 6). Further, three unique intracellular programs in melanoma drive the transition of resting CD8+ T cells (cluster 2) to both metabolic/dysfunctional (cluster 15) and dormant states (cluster 6) that are unique to tumor bearing conditions. Based on these high-resolution analyses, we developed original algorithms to build a novel ICB response predictive model using immune-blockade co-expression gene patterns. The model was trained and tested using previously published GEO datasets containing CD8 T cells from anti-PD-1 treated patients and presented an AUC of 0.82, with 92% and 89% accuracy of ICB response in the two datasets. 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引用次数: 0

摘要

免疫检查点阻断(ICB)极大地促进了黑色素瘤的治疗。ICB的一个关键组成部分是刺激肿瘤中的CD8+ T细胞。然而,ICB治疗只对一小部分患者有益,不需要侵入性活检的可靠预测方法仍然是该领域的主要挑战。方法对8例转移性黑色素瘤患者外周血(mPBL)和肿瘤(mTIL)中的CD8+ T细胞进行了一套全面的单细胞转录组学分析。结果与来自健康供者的循环CD8+ T细胞(hPBL)相比,mpbl含有类似mTIL某些特征的亚群。更重要的是,三个集群(2、6和15)在mPBL和mTIL中都有代表。簇2是大多数hPBL的主要亚群,它表型复制静息T细胞的标志参数。第6组和第15组仅在黑色素瘤患者中出现。第15组PD-1水平最高,激活和功能障碍/衰竭标志物均升高;而集群6则富集了除PPAR信号外转录活性总体降低的“休眠”细胞,PPAR信号是一种已知的T细胞激活抑制因子。有趣的是,与其他通常被定义为耗尽的mTIL集群不同,集群15表现出最高的代谢活性(氧化磷酸化和糖酵解)。我们使用细胞轨迹算法进一步分析了总sc转录组学,并确定这三个簇是CD8 T细胞最不同的亚型,分别代表:此外,黑色素瘤中有三个独特的细胞内程序驱动休眠CD8+ T细胞(集群2)向代谢/功能失调(集群15)和休眠状态(集群6)的转变,这是肿瘤承载条件所特有的。基于这些高分辨率分析,我们开发了原始算法,利用免疫阻断共表达基因模式构建新的ICB反应预测模型。该模型使用先前发表的GEO数据集进行训练和测试,其中包含来自抗pd -1治疗患者的CD8 T细胞,AUC为0.82,两个数据集的ICB反应准确率分别为92%和89%。我们利用高分辨率单细胞转录组学鉴定并分析了循环和肿瘤中CD8+ T细胞的独特群体,以定义CD8+ T细胞状态的环境,揭示了pbl和TILs中具有共同特征的关键亚群。最重要的是,我们建立了一个利用外周血淋巴细胞预测ICB反应的创新模型。伦理批准本研究按照IRB批准的方案进行。
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P853 Single cell transcriptome analysis identifies unique features in circulating CD8+ T cells that can predict immunotherapy response in melanoma patients
Background Immune checkpoint blockade (ICB) has greatly advanced the treatment of melanoma. A key component of ICB is the stimulation of CD8+ T cells in the tumor. However, ICB therapy only benefits a subset of patients and a reliable prediction method that does not require invasive biopsies is still a major challenge in the field. Methods We conducted a set of comprehensive single-cell transcriptomic analyses of CD8+ T cells in the peripheral blood (mPBL) and tumors (mTIL) from 8 patients with metastatic melanoma. Results Compared to circulating CD8+ T cells from healthy donors (hPBL), mPBLs contained subsets resembling certain features of mTIL. More importantly, three clusters (2, 6 and 15) were represented in both mPBL and mTIL. Cluster 2 was the major subset of the majority of hPBL, which phenocopied hallmark parameters of resting T cells. Cluster 6 and 15 were uniquely presented in melanoma patients. Cluster 15 had the highest PD-1 levels, with elevated markers of both activation and dysfunction/exhaustion; while Cluster 6 was enriched for ‘dormant’ cells with overall toned-down transcriptional activity except PPAR signaling, a known suppressor for T cell activation. Interestingly, unlike other mTIL clusters that would classically be defined as exhausted, Cluster 15 exhibited the highest metabolic activity (oxidative-phosphorylation and glycolysis). We further analyzed total sc-transcriptomics using cell trajectory algorithms and identified that these three clusters were the most distinct subtypes of CD8 T cells from each other, representing: resting (cluster 2), metabolically active-dysfunctional (cluster 15), and dormant phenotypes (cluster 6). Further, three unique intracellular programs in melanoma drive the transition of resting CD8+ T cells (cluster 2) to both metabolic/dysfunctional (cluster 15) and dormant states (cluster 6) that are unique to tumor bearing conditions. Based on these high-resolution analyses, we developed original algorithms to build a novel ICB response predictive model using immune-blockade co-expression gene patterns. The model was trained and tested using previously published GEO datasets containing CD8 T cells from anti-PD-1 treated patients and presented an AUC of 0.82, with 92% and 89% accuracy of ICB response in the two datasets. Conclusions We identified and analyzed unique populations of CD8+ T cells in circulation and tumor using high-resolution single-cell transcriptomics to define the landscape of CD8+ T cell states, revealing critical subsets with shared features in PBLs and TILs. Most importantly, we established an innovative model for ICB response prediction by using peripheral blood lymphocytes. Ethics Approval This study was performed under an IRB approved protocol.
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Correction: Early disappearance of tumor antigen-reactive T cells from peripheral blood correlates with superior clinical outcomes in melanoma under anti-PD-1 therapy P857 ONM-500 – a novel STING-activating therapeutic nanovaccine platform for cancer immunotherapy P853 Single cell transcriptome analysis identifies unique features in circulating CD8+ T cells that can predict immunotherapy response in melanoma patients O83 Phase 1 study of an anti-CD27 agonist as monotherapy and in combination with pembrolizumab in patients with advanced solid tumors P859 Association of immunopharmacodynamic responses of imprime PGG plus pembrolizumab with clinical benefit in metastatic triple negative breast cancer (TNBC) subjects failing front-line chemotherapy
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