Unraveling myeloid cell-mediated mechanisms of resistance to immune checkpoint blockade in bladder cancer

Michelle A. Tran, A. Farkas, Karen Lee, A. Horowitz, K. Beaumont, R. Sebra, J. Sfakianos, M. Galsky, N. Bhardwaj
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Abstract

Only 15–25% of bladder cancer (BC) patients respond to PD-(L)1 immune checkpoint blockade (ICB) therapy. We previously used pre-treatment tumor to derive an ICB response gene signature that was enriched in adaptive immune genes and an ICB resistance signature enriched in innate immune and inflammatory genes. We performed single-cell RNA sequencing (scRNAseq) on 27 bladder tumors and 3 normal-adjacent tissue specimens to resolve these signatures. We profiled tumor macrophages (MΦs) underlying the resistance signature with flow cytometry (FC). To recapitulate them, we used healthy donor blood monocytes differentiated with M-CSF, skewed with predicted ligands, and characterized by FC, RTqPCR, and bulk RNAseq. To examine for peripheral biomarkers, we conducted scRNAseq on paired blood and urine and performed O-Link and ELISA on plasma. Our ICB response and resistance signatures were enriched in distinct MΦ subsets: immunostimulatory (is)MΦs and pro-tumorigenic (pt)MΦs, respectively. ptMΦs upregulated SPP1, TREM1, and CLEC5Aand pro-inflammatory and hypoxic programs whereas isMΦs upregulated antigen presentation and complement machinery. ptMΦs were enriched in tumor versus normal tissue. When we tested ptMΦ predicted drivers, IL-1β induced expression of Clec5a and Trem1 protein and transcription of SPP1, TREM1, and CLEC5A. In the first-ever BC urine scRNAseq, we discovered urine contains ptMΦs. Corresponding inflammatory cytokines (IL-1β, IL-6, IL-8) were elevated in advanced patient plasma compared to early stage and healthy donors. In conclusion, we identified pro-inflammatory SPP1+CLEC5A+TREM1+MΦs that may underlie ICB resistance, be targeted via IL-1β and monitored via plasma and urine. Supported by grants from NIH (F30 CA275269-01, R01 CA249175-01).
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揭示膀胱癌中骨髓细胞介导的免疫检查点阻断抵抗机制
只有15-25%的膀胱癌(BC)患者对PD-(L)1免疫检查点阻断(ICB)治疗有反应。我们之前使用治疗前肿瘤获得了富含适应性免疫基因的ICB应答基因特征和富含先天免疫和炎症基因的ICB抵抗基因特征。我们对27例膀胱肿瘤和3例正常邻近组织标本进行了单细胞RNA测序(scRNAseq)来分析这些特征。我们用流式细胞术(FC)分析了肿瘤巨噬细胞(MΦs)的耐药特征。为了概括它们,我们使用健康的供血单核细胞与M-CSF分化,与预测配体倾斜,并通过FC, RTqPCR和bulk RNAseq进行表征。为了检测外周生物标志物,我们对配对的血液和尿液进行了scRNAseq检测,并对血浆进行了O-Link和ELISA检测。我们的ICB反应和耐药特征在不同的MΦ亚群中丰富:分别是免疫刺激(is)MΦs和促瘤性(pt)MΦs。ptMΦs上调SPP1、TREM1和clec5a以及促炎和缺氧程序,而isMΦs上调抗原呈递和补体机制。ptMΦs在肿瘤组织与正常组织中富集。当我们测试ptMΦ预测驱动因子时,IL-1β诱导了Clec5a和Trem1蛋白的表达以及SPP1、Trem1和Clec5a的转录。在首次BC省尿液scRNAseq中,我们发现尿液中含有ptMΦs。与早期和健康供者相比,晚期患者血浆中相应的炎症因子(IL-1β、IL-6、IL-8)升高。总之,我们确定了促炎SPP1+CLEC5A+TREM1+MΦs可能是ICB耐药的基础,可通过IL-1β靶向,并通过血浆和尿液监测。由NIH资助(F30 CA275269-01, R01 CA249175-01)。
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