IA32: flt3l引物原位疫苗改善淋巴瘤检查点阻断

J. Brody
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引用次数: 0

摘要

检查点阻断疗法对癌症产生了巨大的影响;尽管如此,只有一小部分患者的病情得到缓解。一种假设是,耐药肿瘤缺乏足够的体细胞突变负担,因此缺乏可靶向的肿瘤相关抗原(TAA)。相反,我们描述了霍奇金淋巴瘤,尽管抗pd1反应率高(~65-87%),但突变明显少于高突变的肿瘤,如肺癌(抗pd1反应率~20%)(Reichel等,Blood 2015)。最近,开创性的工作证实,能够交叉呈递TAA的树突状细胞(DC)的存在与肿瘤免疫原性相关(Spranger等人,Proc Natl Acad Sci USA 2016)。我们的假设是检查点阻断受到耐受性微环境的限制,特别是适当激活的树突状细胞(DC)的TAA交叉呈现不理想。如果是这样,那么检查点阻断将通过肿瘤部位交叉呈递DC的最佳招募、装载和激活而增强。我们和其他人最近发现,肿瘤(包括淋巴瘤)通过主动排除DC来逃避免疫清除。尽管对这种免疫逃避的机制理解有所进展,但我们仍然缺乏调节这种现象和促进t细胞进入和破坏肿瘤的手段。我们开展了一项早期试验(由Damon Runyon CRF资助),测试了一种独特的、合理设计的原位疫苗(ISV),该疫苗包括:1)Flt3L招募DC, 2)放疗(XRT)将Flt3L动员的DC装载TAA,以及3)toll样受体激动剂(TLRa)激活装载TAA的DC进行交叉呈递。引人注目的是,我们观察到部分和完全的全身肿瘤消退,包括远处和未经治疗的肿瘤,治疗后几个月改善,甚至消除了恶性B细胞,保留了健康B细胞,这表明全身抗肿瘤免疫反应。该试验基于我们的临床前数据,这些数据概括了临床结果,并表明与PD1阻断剂(80-90%)联合使用ISV治愈率(~40%)显着提高。这些数据促使ISV与PD1阻断剂的新试验于2018年开始。虽然原位疫苗接种增强了PD1/PDL1阻断,但可能存在其他更有效的联合检查点。我们已经开发了两种独立的、互补的筛选方法,使用一种新的egfp特异性小鼠CD8 T细胞来富集或探测新的肿瘤表达(“pd - l1样”)检查点分子,并确定了候选分子进行验证。最终,筛选可以在各种免疫疗法的背景下在体内进行,包括原位疫苗接种,干细胞移植或PD-1阻断。引用格式:Joshua D. Brody。flt3l引物原位疫苗改善淋巴瘤检查点阻断[摘要]。摘自:AACR肿瘤免疫学和免疫治疗特别会议论文集;2017年10月1-4日;波士顿,MA。费城(PA): AACR;癌症免疫学杂志,2018;6(9增刊):摘要nr - IA32。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Abstract IA32: Improving checkpoint blockade for lymphoma with Flt3L-primed in situ vaccination
Checkpoint blockade therapy of cancer has had tremendous impact; still, only a subset of patients experience remissions. One hypothesis is that resistant tumors lack sufficient somatic mutational burden and thus, targetable tumor-associated antigens (TAA). To the contrary, we described that Hodgkin’s lymphoma, despite a high anti-PD1 response rate (~65-87%), has significantly fewer mutations (Reichel et al., Blood 2015) than highly mutated tumors, such as lung cancer (anti-PD1 response rate ~20%). Recent, seminal work confirms that the presence of dendritic cells (DC) capable of cross-presenting TAA correlates with tumor immunogenicity (Spranger et al., Proc Natl Acad Sci USA 2016). Our hypothesis is that checkpoint blockade is limited by the tolerogenic microenvironment, specifically, suboptimal cross-presentation of TAA by suitably activated dendritic cells (DC). If so, then checkpoint blockade will be potentiated by optimal recruitment, loading, and activation of cross-presenting DC at the tumor site. We and others have recently found that tumors—including lymphomas—evade immune clearance by active exclusion of DC. Despite progress in mechanistic understanding of this immune evasion, we still lack means to modulate the phenomenon and facilitate T-cell entry and destruction of tumors. We developed an early-phase trial (funded by Damon Runyon CRF) testing a unique, rationally designed in situ vaccine (ISV) comprising 1) Flt3L to recruit DC, 2) radiotherapy (XRT) to load Flt3L-mobilized DC with TAA, and 3) Toll-like receptor agonist (TLRa) to activate TAA-loaded DC for cross-presentation. Strikingly, we observed partial and complete systemic tumor regressions, including distant and untreated tumors, improving months after therapy, and even elimination of malignant B cells with sparing of healthy B cells, suggesting a systemic antitumor immune response. The trial is based on our preclinical dat,a which recapitulate the clinical findings and also show that the ISV cure rate (~40%) increases markedly by combination with PD1 blockade (80-90%). These data prompted a new trial combining ISV with PD1 blockade opening in 2018. Though PD1/PDL1 blockade is potentiated by in situ vaccination, it is possible that there may be other, even more effective checkpoints for combination. We have developed two separate, complementary screening approaches using a novel EGFP-specific, murine CD8 T cell to enrich or probe for novel tumor-expressed (“PD-L1-like”) checkpoint molecules and have identified candidates for validation. Ultimately, the screening can be performed in vivo in the context of various immunotherapies, including in situ vaccination, stem cell transplantation, or PD-1 blockade. Citation Format: Joshua D. Brody. Improving checkpoint blockade for lymphoma with Flt3L-primed in situ vaccination [abstract]. In: Proceedings of the AACR Special Conference on Tumor Immunology and Immunotherapy; 2017 Oct 1-4; Boston, MA. Philadelphia (PA): AACR; Cancer Immunol Res 2018;6(9 Suppl):Abstract nr IA32.
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