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我校在环状RNA疫苗研究方面取得新进展

南湖新闻网讯(通讯员 万加武)近日,我校动物科学技术学院、动物医学院赵凌教授团队研究成果以“CXCL13 promotes broad immune responses induced by circular RNA vaccines”为题在PNAS发表。研究提出了一种新型环状RNA疫苗设计思路,能够诱导针对多种病毒变体的交叉反应性抗体应答。

环状RNA是一种具有独特共价封闭结构的RNA分子,能够防止被外切酶降解,具有比传统线性mRNA更高的稳定性。这一特性弥补了普通mRNA疫苗在稳定性方面的不足,赋予其更广阔的应用前景。这种稳定的结构使得环状RNA能够更有效和持久地表达治疗性蛋白质或肽,展示了在疫苗研发和蛋白质替代疗法中的巨大潜力。

▲CircRNA疫苗设计和构建示意图

该研究设计了一个通用策略来提高环状RNA疫苗诱导的抗体反应的强度和广度——通过将趋化因子CXCL13和抗原整合到环状RNA中进行共表达来重塑淋巴结的免疫微环境。研究表明,CXCL13在淋巴结内促进生发中心形成,增强了体液免疫和细胞免疫反应。通过将CXCL13和抗原的共表达,CXCL13促进了针对流感病毒和新型冠状病毒的交叉反应性抗体的产生,在小鼠模型中实现了针对同源和异源流感病毒攻毒的保护。综上,该研究开发的基于环状RNA的抗原-CXCL13共表达系统提供了一个通用平台,该平台增强了针对流感病毒、新冠病毒和狂犬病毒等多种病原糖蛋白的抗体应答的强度和广度,突出了CXCL13在增强广泛免疫应答中的潜在功能。

华中农业大学动物科学技术学院、动物医学院博士生万加武、王才茜为论文的第一作者,赵凌教授为论文的通讯作者,华中农业大学为通讯作者单位。该研究得到了国家重点研发计划和中央高校基础研究项目的资助。

审核人:赵凌

英文摘要:Antibody responses induced by current vaccines for influenza and SARS-CoV-2 often lack robust cross-reactivity. As hubs where diverse immune cells converge and interact, the alterations in the immune microenvironment within lymph nodes (LNs) are intricately linked to immune responses. Herein, we designed a lipid nanoparticle (LNP) loaded with circular RNA (circRNA) and targeted to LNs, in which CXCL13 was directly integrated into antigen-encoding circRNA strands. We demonstrated that CXCL13 alters the transcriptomic profiles of LNs, especially the upregulation of IL-21 and IL-4. Meanwhile, CXCL13 promotes the formation of germinal center and elicits robust antigen-specific T cell responses. With the codelivery of CXCL13 and the antigen, CXCL13 enhances cross-reactive antibodies against influenza virus and SARS-CoV-2, achieving protection against both homologous and heterologous influenza virus challenges in a mouse model. Notably, the targeted modification of LNP surfaces with antibodies helps address some of the challenges associated with lyophilized LNP vaccines, which is crucial for the long-term storage of LNP-circRNA vaccines. Overall, the circRNA-based antigen-CXCL13 coexpression system developed herein provides a simple and robust platform that enhances the magnitude and breadth of antibody responses against multiple viral glycoproteins, highlighting the potential utility of CXCL13 in inducing broad immune responses.

论文链接:www.pnas.org/doi/10.1073/pnas.2406434121

 

 

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