Lee Yu-Sun, Cheong Mi Sun, Lee Jisun, Bang Eun-Kyoung, Park Sang In, Park Hyo-Jung, Bae Seo-Hyeon, Yoon Subin, Roh Gahyun, Lee Seonghyun, Cho Youngran, Ha Dahyeon, Oh Ayoung, Lee Soo-Yeon, Choi Eun-Jin, Choi Huijeong, Jo Sohee, Lee Yeeun, Kim Jungmin, Kwak Hye Won, Bang Yoo-Jin, Lee Dabin, Shim Heeyoun, Park Young Kun, Keum Gyochang, Nam Jae-Hwan, Kim Wonil
Department of Medical and Biological Sciences, The Catholic University of Korea, Bucheon, Gyeonggi-do 14662, Republic of Korea; BK21 four Department of Biotechnology, The Catholic University of Korea, Gyeonggi-do, Bucheon, Republic of Korea.
GeneOne Life Science, Inc., 108 Yeoui-Daero, Yeongdeungpo-gu, Seoul 07335, Republic of Korea.
Vaccine. 2025 Jan 1;43(Pt 2):126518. doi: 10.1016/j.vaccine.2024.126518. Epub 2024 Nov 14.
Zika virus (ZIKV) infection is primarily transmitted by mosquitoes and often asymptomatic in most individuals. Infection during pregnancy can lead to severe birth defects such as congenital microcephaly, and currently, there is no approved vaccine for ZIKV. Several studies are investigating the development of ZIKV vaccine using DNA and RNA as well as recombinant protein technologies; however, the outcomes thus far have not been consistently noteworthy. In this study, we designed an mRNA vaccine for ZIKV and evaluated its immunogenicity using a mouse model. Our vaccine, termed 3xEIII, encodes a triple repeat of domain III from the ZIKV E protein. We effectively encapsulated the mRNA within lipid nanoparticles (LNPs), administered 3xEIII to mice via two intramuscular injections, and assessed the induced humoral and cellular immune responses. Specifically, the vaccine elicited neutralizing antibodies that effectively eliminated ZIKV from the organs of challenged mice. Notably, 3xEIII conferred both protective effects and long-term immunity. In subsequent challenges conducted 40 weeks after boosting, immunized mice experienced temporary weight loss but showed significantly reduced viral titers in target organs by the 9th day post-infection. Conclusively from these findings, 3xEIII stands out as a promising noteworthy mRNA vaccine candidate for Zika virus.
寨卡病毒(ZIKV)感染主要通过蚊子传播,在大多数个体中通常无症状。孕期感染可导致严重的出生缺陷,如先天性小头畸形,目前尚无获批的寨卡病毒疫苗。多项研究正在利用DNA、RNA以及重组蛋白技术研发寨卡病毒疫苗;然而,迄今为止的结果并非一直值得关注。在本研究中,我们设计了一种针对寨卡病毒的mRNA疫苗,并使用小鼠模型评估了其免疫原性。我们的疫苗称为3xEIII,编码寨卡病毒E蛋白结构域III的三重重复序列。我们有效地将mRNA包裹在脂质纳米颗粒(LNP)中,通过两次肌肉注射将3xEIII给予小鼠,并评估诱导的体液免疫和细胞免疫反应。具体而言,该疫苗引发了中和抗体,有效地从受攻击小鼠的器官中清除了寨卡病毒。值得注意的是,3xEIII具有保护作用和长期免疫力。在加强免疫40周后进行的后续攻击中,免疫小鼠出现了暂时体重减轻,但在感染后第9天,靶器官中的病毒滴度显著降低。根据这些发现,3xEIII作为一种有前景的寨卡病毒mRNA疫苗候选物脱颖而出。
