D. Direnzo, D. Piovesan, J. Tan, D. Miles, M. Leleti, Tim Park, F. Soriano, B. Handlos, J. Jeffrey, Ehesan U. Sharif, Brandon R. Rosen, U. Schindler, J. Powers, M. Walters
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引用次数: 3
Abstract
Introduction: Adenosine, generated through the hydrolysis of extracellular adenosine monophosphate (AMP) by the ecto-nucleotidase CD73, is an important mechanism for immunosuppression in cancer development. Adenosine’s suppressive effects on immune cells are driven primarily through 2 of the 4 adenosine receptors, A2aR and A2bR. We have previously shown that adenosine-mediated suppression of T-cells can be blocked by the dual A2aR/A2bR antagonist, AB928. Herein, we show that AB928 is capable of relieving adenosine-mediated immune suppression using human in vitro cell cultures, advanced gene expression studies, and mouse syngeneic tumor models. Methods: The ability of AB928 to inhibit adenosine-mediated suppression of dendritic cell function in vitro was assessed using human monocyte-derived dendritic cells (moDC). Briefly, moDC were generated from freshly isolated CD14+ monocytes and differentiated with IL-4/GM-CSF for 7 days +/- adenosine/EHNA +/- AB928. Cells were then taken for NanoString analysis or placed in a mixed lymphocyte reaction (MLR) with CD4+ T-cells. Mouse syngeneic tumor studies were conducted using C57BL/6 mice inoculated with mouse mammary tumor AT3-OVA or melanoma B16-F10 cells. Tumors were subsequently treated with doxorubicin, oxaliplatin, or α-PD-1 +/- AB928. Results: Quantitative immunohistochemistry and analysis of public gene expression databases identified individual human tumor types that express high levels of adenosine processing enzymes. Most notably, non-small cell lung, renal, triple-negative breast, ovarian, colorectal, and gastroesophageal cancers were found to have the most favorable expression profiles for interventions targeting the adenosine pathway. Additionally, a high degree of correlation was found between transcript and protein measurements for CD73 (r2 = 0.87), illustrating the robust and reproducible nature of these techniques. In human in vitro cell cultures, moDC differentiated in the presence of adenosine showed a decreased ability to stimulate IFN-γ secretion from allogenic CD4+ T-cells in a MLR. This suppression was significantly reversed by addition of AB928. Next, multiplexed gene expression profiling using NanoString identified a cassette of 39 genes (>2.0 fold change, p Citation Format: Daniel DiRenzo, Dana Piovesan, Joanne Tan, Dillon H. Miles, Manmohan R. Leleti, Timothy Park, Ferdie Soriano, Bryan Handlos, Jenna L. Jeffrey, Ehesan U. Sharif, Brandon R. Rosen, Ulrike Schindler, Jay P. Powers, Matthew J. Walters. AB928, a dual antagonist of the A2aR and A2bR adenosine receptors, relieves adenosine-mediated immune suppression [abstract]. In: Proceedings of the Fourth CRI-CIMT-EATI-AACR International Cancer Immunotherapy Conference: Translating Science into Survival; Sept 30-Oct 3, 2018; New York, NY. Philadelphia (PA): AACR; Cancer Immunol Res 2019;7(2 Suppl):Abstract nr A162.
腺苷是由胞外单磷酸腺苷(AMP)被胞外核苷酸酶CD73水解产生的,是肿瘤发生过程中免疫抑制的重要机制。腺苷对免疫细胞的抑制作用主要通过4种腺苷受体中的2种,A2aR和A2bR驱动。我们之前已经证明腺苷介导的t细胞抑制可以被A2aR/A2bR双拮抗剂AB928阻断。在此,我们通过人类体外细胞培养、高级基因表达研究和小鼠同基因肿瘤模型证明AB928能够缓解腺苷介导的免疫抑制。方法:采用人单核细胞源性树突状细胞(moDC),对AB928体外抑制腺苷介导的树突状细胞功能抑制的能力进行了评估。简单地说,从新鲜分离的CD14+单核细胞中生成moDC,并与IL-4/GM-CSF +/-腺苷/EHNA +/- AB928分化7天。然后将细胞进行NanoString分析或与CD4+ t细胞进行混合淋巴细胞反应(MLR)。小鼠同基因肿瘤研究采用C57BL/6小鼠接种小鼠乳腺肿瘤AT3-OVA或黑色素瘤B16-F10细胞。随后用阿霉素、奥沙利铂或α-PD-1 +/- AB928治疗肿瘤。结果:定量免疫组织化学和公共基因表达数据库分析确定了表达高水平腺苷加工酶的个体人类肿瘤类型。最值得注意的是,非小细胞肺癌、肾癌、三阴性乳腺癌、卵巢癌、结直肠癌和胃食管癌被发现具有针对腺苷途径的干预最有利的表达谱。此外,CD73的转录物和蛋白质测量值之间存在高度相关性(r2 = 0.87),说明了这些技术的稳健性和可重复性。在人体外细胞培养中,在腺苷存在下分化的moDC显示出刺激MLR中同种异体CD4+ t细胞分泌IFN-γ的能力下降。添加AB928后,这种抑制被显著逆转。接下来,使用NanoString进行多重基因表达谱分析,鉴定了39个基因(>2.0倍变化),p引用形式:Daniel DiRenzo, Dana Piovesan, Joanne Tan, Dillon H. Miles, Manmohan R. Leleti, Timothy Park, Ferdie Soriano, Bryan Handlos, Jenna L. Jeffrey, Ehesan U. Sharif, Brandon R. Rosen, Ulrike Schindler, Jay p . Powers, Matthew J. Walters。AB928是一种A2aR和A2bR腺苷受体的双拮抗剂,可缓解腺苷介导的免疫抑制[摘要]。第四届CRI-CIMT-EATI-AACR国际癌症免疫治疗会议:将科学转化为生存;2018年9月30日至10月3日;纽约,纽约。费城(PA): AACR;癌症免疫学杂志2019;7(2增刊):摘要nr A162。