P857 ONM-500 – a novel STING-activating therapeutic nanovaccine platform for cancer immunotherapy

Jason B Miller, Min Luo, Hua Wang, Zhaohui Wang, Xinliang Ding, Ashley Campbell, Jonathan Almazan, Zhijian J. Chen, Jinming Gao, T. Zhao
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引用次数: 1

Abstract

Background Efficacy of cancer vaccines requires the induction of tumor antigen-specific cytotoxic T-lymphocytes (CTL) to effectively clear established tumors. Orchestration of antigen presentation, co-stimulatory signaling, and innate cytokine signals are necessary steps for tumor-specific T-cell activation. The ONM-500 nanovaccine platform1-2 utilizes a novel pH-sensitive polymer that forms an antigen-encapsulating nanoparticle and functions both as a carrier for antigen delivery of both peptide and protein antigens to dendritic cells and acts as an adjuvant, activating the stimulator on interferon genes (STING) pathway and generating a CD8+ CTL response. Peptide antigens have translational challenges due to complex formulations and/or HLA-type-specific antigen sequence recognition, processing and presentation. Full-length protein antigens alleviate HLA subtype limitation, allowing coverage of multi-immunogenic T cell epitopes in patients. Pairing ONM-500 adjuvant with the full-length E6 and E7 oncoproteins from human papillomavirus (HPV) cancers shows great potential to treat HPV-associated cancer in patients. Methods Based on the previously demonstrated STING-dependent T cell activation by ONM-500 [1], the nanovaccine was formulated with full-length HPV16 E6 and E7 proteins (recombinant), and the nanoparticle properties and antigen loading were characterized. In vivo lymph node accumulation following subcutaneous administration was evaluated using fluorescent nanovaccines. Direct binding of ONM-500 to recombinant human STING (CTD) was evaluated using isothermal titration calorimetry (ITC) compared to the endogenous ligand 2’,3’-cGAMP. Antitumor efficacy was evaluated in multiple syngeneic tumor models, including the TC-1 model which overexpresses HPV16 E6 and E7 with the ONM-500 vaccine in combination with anti-PD-1 checkpoint inhibitor. Long-term anti-tumor memory was evaluated in a follow-up rechallenge study after 60 days in tumor-free animals. Results Characterization of ONM-500 nanovaccine shows reproducible particle chemi-physical properties and antigen loading. The nanoparticle size substantiates the effective lymph node accumulation for antigen cross-presentation in dendritic cells following subcutaneous administration. ITC studies with human STING demonstrated effective binding by ONM-500 adjuvant. The nanovaccine anti-tumor efficacy was previously demonstrated in melanoma, colorectal, and HPV-associated syngeneic tumor models. In TC-1 tumors, ONM-500 nanovaccine containing full-length E6/E7 protein showed 100% overall survival at 55 days (figure 1). Tumor growth inhibition was also improved over E7 antigen peptide formulated nanovaccine. A rechallenge study demonstrated long-term antigen-specific anti-tumor memory response. Abstract P857 Figure 1 Conclusions ONM-500 STING-activating nanovaccines effectively deliver antigens in vivo to lymph nodes to elicit antigen-specific CTL response. The anti-tumor efficacy in multiple tumor models demonstrates the potential of ONM-500 as a general STING agonist cancer vaccine platform, and full-length E6/E7 incorporated ONM-500 is being developed for HPV-associated cancers. Ethics Approval All animal procedures were performed with ethical compliance and approval by the Institutional Animal Care and Use Committee of the University of Texas Southwestern Medical Center (Protocol No. 2017-101954) and Pennsylvania State College of Medicine (Protocol No. 47682). References Luo M, Wang H, Wang Z, Cai H, Lu Z, Li Y, Du M, Huang G, Wang C, Chen X, Porembka MR, Lea J, Frankel AE, Fu YX, Chen ZJ, Gao J. A STING-activating nanovaccine for cancer immunotherapy. Nat Nanotechnol 2017; 12:648–654. Luo M, Liu Z, Zhang X, Han C, Samandi LZ, Dong C, Sumer BD, Lea J, Fu YX, Gao J. Synergistic STING activation by PC7A nanovaccine and ionizing radiation improves cancer immunotherapy. J Control Release 2019; 28:154–160.
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P857 ONM-500 -一种新的sting激活治疗性纳米疫苗平台,用于癌症免疫治疗
癌症疫苗的有效性需要诱导肿瘤抗原特异性细胞毒性t淋巴细胞(CTL)有效清除已建立的肿瘤。抗原呈递、共刺激信号和先天细胞因子信号的协调是肿瘤特异性t细胞活化的必要步骤。ONM-500纳米疫苗平台1-2利用一种新型的ph敏感聚合物,形成抗原包封纳米颗粒,既可以作为抗原载体,将肽和蛋白抗原递送到树突状细胞,又可以作为佐剂,激活干扰素基因(STING)途径上的刺激因子,并产生CD8+ CTL反应。肽抗原由于复杂的配方和/或hla类型特异性抗原序列识别、加工和递呈而具有翻译挑战。全长蛋白抗原减轻了HLA亚型的限制,允许在患者中覆盖多免疫原性T细胞表位。ONM-500佐剂与人乳头瘤病毒(HPV)癌症的全长E6和E7癌蛋白配对显示出治疗HPV相关癌症患者的巨大潜力。方法基于ONM-500对sting依赖性T细胞的激活作用[1],采用重组HPV16 E6和E7全长蛋白配制纳米疫苗,并对其纳米颗粒性质和抗原负载进行表征。使用荧光纳米疫苗评估皮下注射后的体内淋巴结积聚。与内源性配体2 ',3 ' -cGAMP相比,采用等温滴定量热法(ITC)评估ONM-500与重组人STING (CTD)的直接结合。在多种同基因肿瘤模型中评估了抗肿瘤效果,包括ONM-500疫苗联合抗pd -1检查点抑制剂过表达HPV16 E6和E7的TC-1模型。在无肿瘤动物60天后的随访再挑战研究中评估了长期抗肿瘤记忆。结果ONM-500纳米疫苗具有可复制的颗粒化学物理性质和抗原负载。纳米颗粒的大小证实了皮下给药后树突状细胞中抗原交叉呈递的有效淋巴结积聚。ITC对人STING的研究表明ONM-500佐剂能有效结合。纳米疫苗的抗肿瘤功效先前已在黑色素瘤、结直肠癌和hpv相关的同基因肿瘤模型中得到证实。在TC-1肿瘤中,含有全长E6/E7蛋白的ONM-500纳米疫苗在55天的总生存率为100%(图1)。与E7抗原肽制备的纳米疫苗相比,肿瘤生长抑制也得到了改善。一项再挑战研究证实了长期抗原特异性抗肿瘤记忆反应。结论ONM-500 sting激活纳米疫苗能有效地在体内将抗原递送至淋巴结,引发抗原特异性CTL反应。多种肿瘤模型的抗肿瘤效果表明ONM-500有潜力作为通用的STING激动剂癌症疫苗平台,并且全长E6/E7纳入ONM-500正在开发用于hpv相关癌症。所有动物实验均符合伦理要求,并获得德克萨斯大学西南医学中心(协议号2017-101954)和宾夕法尼亚州立医学院(协议号47682)的机构动物护理和使用委员会的批准。引用文献罗敏,王辉,王忠,蔡辉,卢忠,李勇,杜敏,黄刚,王超,陈旭,Porembka MR, Lea J, Frankel AE,付永勇,陈志军,高军。纳米科技,2017;12:648 - 654。罗敏,刘忠,张欣,韩晨,Samandi LZ,董超,Sumer BD,李俊,傅永勇,高军。PC7A纳米疫苗和电离辐射协同激活STING对肿瘤免疫治疗的影响。J Control Release 2019;28:154 - 160。
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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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