Sorbonne Universite, Paris, France; UMR-S INSERM U1135, CNRS ERL 8255, Centre d'Immunologie et Maladies Infectieuses (CIMI-Paris), Paris, France.
Centre de Biophysique Moléculaire, CNRS UPR4301, Orléans, France.
J Control Release. 2018 May 28;278:110-121. doi: 10.1016/j.jconrel.2018.03.035. Epub 2018 Apr 6.
Clinical trials with direct administration of synthetic mRNAs encoding tumor antigens demonstrated safety and induction of tumor-specific immune responses. Their proper delivery to dendritic cells (DCs) requires their protection against RNase degradation and more specificity for dose reduction. Lipid-Polymer-RNA lipopolyplexes (LPR) are attractive mRNA delivery systems and their equipment with mannose containing glycolipid, specific of endocytic receptors present on the membrane of DCs is a valuable strategy. In this present work, we evaluated the capacity of LPR functionalized with a tri-antenna of α-d-mannopyranoside (triMN-LPR) concerning (i) their binding to CD209/DC-SIGN and CD207/Langerin expressing cell lines, human and mouse DCs and other hematopoietic cell populations, (ii) the nature of induced immune response after in vivo immunization and (iii) their therapeutic anti-cancer vaccine efficiency. We demonstrated that triMN-LPR provided high induction of a local inflammatory response two days after intradermal injection to C57BL/6 mice, followed by the recruitment and activation of DCs in the corresponding draining lymph nodes. This was associated with skin production of CCR7 and CXCR4 at vaccination sites driving DC migration. High number of E7-specific T cells was detected after E7-encoded mRNA triMN-LPR vaccination. When evaluated in three therapeutic pre-clinical murine tumor models such as E7-expressing TC1 cells, OVA-expressing EG7 cells and MART-1-expressing B16F0 cells, triMN-LPR carrying mRNA encoding the respective antigens significantly exert curative responses in mice vaccinated seven days after initial tumor inoculation. These results provide evidence that triMN-LPR give rise to an efficient stimulatory immune response allowing for therapeutic anti-cancer vaccination in mice. This mRNA formulation should be considered for anti-cancer vaccination in Humans.
临床研究表明,直接给予编码肿瘤抗原的合成 mRNA 进行治疗是安全的,并且可以诱导肿瘤特异性免疫反应。为了将其递送至树突状细胞(DC),需要保护其免受 RNA 酶降解,并提高剂量特异性。脂质-聚合物-RNA 脂多聚体(LPR)是一种有吸引力的 mRNA 递送系统,用含有甘露糖的糖脂对其进行修饰,该糖脂是 DC 膜上存在的内吞受体的特异性配体,这是一种很有价值的策略。在本研究中,我们评估了三触角α-d-甘露吡喃糖苷(triMN-LPR)功能化的 LPR (i)与表达 CD209/DC-SIGN 和 CD207/Langerin 的细胞系、人和鼠 DC 以及其他造血细胞群体的结合能力,(ii)体内免疫接种后诱导免疫反应的性质,(iii)其作为治疗性抗癌疫苗的效率。我们证明,三触角α-d-甘露吡喃糖苷功能化的 LPR 在向 C57BL/6 小鼠皮内注射两天后可引起强烈的局部炎症反应,随后在相应的引流淋巴结中募集和激活 DC。这与趋化因子 CCR7 和 CXCR4 在疫苗接种部位的皮肤产生有关,这可以驱动 DC 的迁移。在 E7 编码 mRNA triMN-LPR 疫苗接种后,检测到大量的 E7 特异性 T 细胞。当在三个治疗性临床前小鼠肿瘤模型(如表达 E7 的 TC1 细胞、表达 OVA 的 EG7 细胞和表达 MART-1 的 B16F0 细胞)中进行评估时,携带相应抗原编码 mRNA 的 triMN-LPR 显著发挥治疗作用,在初次肿瘤接种后七天给小鼠接种疫苗。这些结果表明,triMN-LPR 引发了有效的刺激免疫反应,使小鼠能够进行治疗性抗癌疫苗接种。这种 mRNA 制剂应考虑用于人类的抗癌疫苗接种。
