Bai Huarong, Yu Xueliang, Gao Yue, Li Qin, Wen Baigang, Hu Rongkuan
Starna Therapeutics Co., Ltd., Suzhou 215123, China.
Vaccines (Basel). 2025 Jun 10;13(6):625. doi: 10.3390/vaccines13060625.
The transmembrane fusion (F) protein of RSV plays important roles in RSV pathogenesis as it mediates the fusion between the virus and the target cell membrane. During the fusion process, the F protein transits from a metastable state (prefusion, preF) to a stable state (postfusion, postF) after the merging of the virus and cell membranes. The majority of highly neutralizing antibodies induced by natural infection or immunization target the preF form, which makes it the preferred antigen for vaccine development.
Here, we designed an effective RSV mRNA vaccine, STR-V003, consisting of mRNA encoding preF protein in lipid nanoparticles (LNPs). The immunogenicity, protection efficacy and toxicity were measured in multiple animal models.
STR-V003 demonstrated robust immunogenicity in both mice and cotton rats, inducing high levels of neutralizing antibodies and RSV preF-specific IgG antibodies and significantly reducing the RSV viral loads in the lung and nose tissue of challenged animals. In addition, STR-V003 did not show significant enhancement of lung pathology without causing vaccine-enhanced disease (VED). The repeated dose general toxicology studies and local tolerance studies of STR-V003 were evaluated in rats and non-human primate (NHP).
STR-V003 demonstrates a favorable safety profile and induces robust protective immunity against RSV.
呼吸道合胞病毒(RSV)的跨膜融合(F)蛋白在RSV发病机制中起重要作用,因为它介导病毒与靶细胞膜之间的融合。在融合过程中,F蛋白在病毒与细胞膜融合后从亚稳态(融合前,preF)转变为稳定状态(融合后,postF)。自然感染或免疫诱导产生的大多数高效中和抗体靶向preF形式,这使其成为疫苗开发的首选抗原。
在此,我们设计了一种有效的RSV mRNA疫苗STR-V003,它由脂质纳米颗粒(LNPs)中编码preF蛋白的mRNA组成。在多种动物模型中测量了其免疫原性、保护效果和毒性。
STR-V003在小鼠和棉鼠中均表现出强大的免疫原性,诱导产生高水平的中和抗体和RSV preF特异性IgG抗体,并显著降低受攻击动物肺和鼻组织中的RSV病毒载量。此外,STR-V003未显示出肺部病理的显著增强,也未引起疫苗增强疾病(VED)。在大鼠和非人灵长类动物(NHP)中评估了STR-V003的重复剂量一般毒理学研究和局部耐受性研究。
STR-V003显示出良好的安全性,并诱导针对RSV的强大保护性免疫。
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