Baoling Ying, Chieh-Yu Liang, Pritesh Desai, Suzanne M Scheaffer, Sayda M Elbashir, Darin K Edwards, Larissa B Thackray, Michael S Diamond
{"title":"用 mRNA 疫苗对小鼠进行同侧或对侧增殖,可获得同等的免疫力和对 SARS-CoV-2 Omicron 株的保护。","authors":"Baoling Ying, Chieh-Yu Liang, Pritesh Desai, Suzanne M Scheaffer, Sayda M Elbashir, Darin K Edwards, Larissa B Thackray, Michael S Diamond","doi":"10.1128/jvi.00574-24","DOIUrl":null,"url":null,"abstract":"<p><p>Boosting with mRNA vaccines encoding variant-matched spike proteins has been implemented to mitigate their reduced efficacy against emerging SARS-CoV-2 variants. Nonetheless, in humans, it remains unclear whether boosting in the ipsilateral or contralateral arm with respect to the priming doses impacts immunity and protection. Here, we boosted K18-hACE2 mice with either monovalent mRNA-1273 (Wuhan-1 spike) or bivalent mRNA-1273.214 (Wuhan-1 + BA.1 spike) vaccine in the ipsilateral or contralateral leg after a two-dose priming series with mRNA-1273. Boosting in the ipsilateral or contralateral leg elicited equivalent levels of serum IgG and neutralizing antibody responses against Wuhan-1 and BA.1. While contralateral boosting with mRNA vaccines resulted in the expansion of spike-specific B and T cells beyond the ipsilateral draining lymph node (DLN) to the contralateral DLN, administration of a third mRNA vaccine dose at either site resulted in similar levels of antigen-specific germinal center B cells, plasmablasts/plasma cells, T follicular helper cells, and CD8<sup>+</sup> T cells in the DLNs and the spleen. Furthermore, ipsilateral and contralateral boosting with mRNA-1273 or mRNA-1273.214 vaccines conferred similar homologous or heterologous immune protection against SARS-CoV-2 BA.1 virus challenge with equivalent reductions in viral RNA and infectious virus in the nasal turbinates and lungs. Collectively, our data show limited differences in B and T cell immune responses after ipsilateral and contralateral site boosting by mRNA vaccines that do not substantively impact protection against an Omicron strain.IMPORTANCESequential boosting with mRNA vaccines has been an effective strategy to overcome waning immunity and neutralization escape by emerging SARS-CoV-2 variants. However, it remains unclear how the site of boosting relative to the primary vaccination series shapes optimal immune responses or breadth of protection against variants. In K18-hACE2 transgenic mice, we observed that intramuscular boosting with historical monovalent or variant-matched bivalent vaccines in the ipsilateral or contralateral limb elicited comparable levels of serum spike-specific antibody and antigen-specific B and T cell responses. Moreover, boosting on either side conferred equivalent protection against a SARS-CoV-2 Omicron challenge strain. 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Nonetheless, in humans, it remains unclear whether boosting in the ipsilateral or contralateral arm with respect to the priming doses impacts immunity and protection. Here, we boosted K18-hACE2 mice with either monovalent mRNA-1273 (Wuhan-1 spike) or bivalent mRNA-1273.214 (Wuhan-1 + BA.1 spike) vaccine in the ipsilateral or contralateral leg after a two-dose priming series with mRNA-1273. Boosting in the ipsilateral or contralateral leg elicited equivalent levels of serum IgG and neutralizing antibody responses against Wuhan-1 and BA.1. While contralateral boosting with mRNA vaccines resulted in the expansion of spike-specific B and T cells beyond the ipsilateral draining lymph node (DLN) to the contralateral DLN, administration of a third mRNA vaccine dose at either site resulted in similar levels of antigen-specific germinal center B cells, plasmablasts/plasma cells, T follicular helper cells, and CD8<sup>+</sup> T cells in the DLNs and the spleen. Furthermore, ipsilateral and contralateral boosting with mRNA-1273 or mRNA-1273.214 vaccines conferred similar homologous or heterologous immune protection against SARS-CoV-2 BA.1 virus challenge with equivalent reductions in viral RNA and infectious virus in the nasal turbinates and lungs. Collectively, our data show limited differences in B and T cell immune responses after ipsilateral and contralateral site boosting by mRNA vaccines that do not substantively impact protection against an Omicron strain.IMPORTANCESequential boosting with mRNA vaccines has been an effective strategy to overcome waning immunity and neutralization escape by emerging SARS-CoV-2 variants. However, it remains unclear how the site of boosting relative to the primary vaccination series shapes optimal immune responses or breadth of protection against variants. 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引用次数: 0
摘要
为了减轻 mRNA 疫苗对新出现的 SARS-CoV-2 变异株的疗效降低,人们使用了编码变异株匹配尖峰蛋白的 mRNA 疫苗进行增强。然而,在人类中,同侧或对侧手臂上的启动剂量是否会影响免疫力和保护作用仍不清楚。在此,我们用单价mRNA-1273(武汉-1钉螺)或双价mRNA-1273.214(武汉-1 + BA.1钉螺)疫苗对K18-hACE2小鼠进行同侧或对侧腿部增强,然后再用mRNA-1273进行两剂系列引种。同侧或对侧腿部接种可引起同等水平的血清 IgG 和针对武汉-1 和 BA.1 的中和抗体反应。虽然用 mRNA 疫苗进行对侧增强会导致尖峰特异性 B 细胞和 T 细胞从同侧引流淋巴结 (DLN) 扩展到对侧 DLN,但在任一部位接种第三剂 mRNA 疫苗都会在 DLN 和脾脏中产生相似水平的抗原特异性生殖中心 B 细胞、浆细胞/浆细胞、T 滤泡辅助细胞和 CD8+ T 细胞。此外,同侧和对侧接种 mRNA-1273 或 mRNA-1273.214 疫苗可在 SARS-CoV-2 BA.1 病毒挑战下获得相似的同源或异源免疫保护,鼻甲和肺部的病毒 RNA 和感染性病毒减少量相当。总之,我们的数据表明,mRNA 疫苗在同侧和对侧部位增强后,B 细胞和 T 细胞免疫反应的差异有限,不会对抵御 Omicron 株的保护产生实质性影响。 重要意义mRNA 疫苗的等效增强一直是克服免疫力下降和新出现的 SARS-CoV-2 变异株中和逃逸的有效策略。然而,目前仍不清楚相对于主要疫苗接种系列的增强接种部位如何形成最佳免疫反应或对变异株的保护广度。在 K18-hACE2 转基因小鼠中,我们观察到在同侧或对侧肢体肌肉注射历史单价疫苗或与变异株匹配的二价疫苗可引起相当水平的血清尖峰特异性抗体以及抗原特异性 B 细胞和 T 细胞反应。此外,在两侧肢体上接种二价疫苗都能对 SARS-CoV-2 Omicron 挑战株产生同等的保护作用。我们在小鼠身上获得的数据表明,肌肉注射 mRNA 疫苗的部位不会对免疫力或对 SARS-CoV-2 感染的保护产生重大影响。
Ipsilateral or contralateral boosting of mice with mRNA vaccines confers equivalent immunity and protection against a SARS-CoV-2 Omicron strain.
Boosting with mRNA vaccines encoding variant-matched spike proteins has been implemented to mitigate their reduced efficacy against emerging SARS-CoV-2 variants. Nonetheless, in humans, it remains unclear whether boosting in the ipsilateral or contralateral arm with respect to the priming doses impacts immunity and protection. Here, we boosted K18-hACE2 mice with either monovalent mRNA-1273 (Wuhan-1 spike) or bivalent mRNA-1273.214 (Wuhan-1 + BA.1 spike) vaccine in the ipsilateral or contralateral leg after a two-dose priming series with mRNA-1273. Boosting in the ipsilateral or contralateral leg elicited equivalent levels of serum IgG and neutralizing antibody responses against Wuhan-1 and BA.1. While contralateral boosting with mRNA vaccines resulted in the expansion of spike-specific B and T cells beyond the ipsilateral draining lymph node (DLN) to the contralateral DLN, administration of a third mRNA vaccine dose at either site resulted in similar levels of antigen-specific germinal center B cells, plasmablasts/plasma cells, T follicular helper cells, and CD8+ T cells in the DLNs and the spleen. Furthermore, ipsilateral and contralateral boosting with mRNA-1273 or mRNA-1273.214 vaccines conferred similar homologous or heterologous immune protection against SARS-CoV-2 BA.1 virus challenge with equivalent reductions in viral RNA and infectious virus in the nasal turbinates and lungs. Collectively, our data show limited differences in B and T cell immune responses after ipsilateral and contralateral site boosting by mRNA vaccines that do not substantively impact protection against an Omicron strain.IMPORTANCESequential boosting with mRNA vaccines has been an effective strategy to overcome waning immunity and neutralization escape by emerging SARS-CoV-2 variants. However, it remains unclear how the site of boosting relative to the primary vaccination series shapes optimal immune responses or breadth of protection against variants. In K18-hACE2 transgenic mice, we observed that intramuscular boosting with historical monovalent or variant-matched bivalent vaccines in the ipsilateral or contralateral limb elicited comparable levels of serum spike-specific antibody and antigen-specific B and T cell responses. Moreover, boosting on either side conferred equivalent protection against a SARS-CoV-2 Omicron challenge strain. Our data in mice suggest that the site of intramuscular boosting with an mRNA vaccine does not substantially impact immunity or protection against SARS-CoV-2 infection.
期刊介绍:
Journal of Virology (JVI) explores the nature of the viruses of animals, archaea, bacteria, fungi, plants, and protozoa. We welcome papers on virion structure and assembly, viral genome replication and regulation of gene expression, genetic diversity and evolution, virus-cell interactions, cellular responses to infection, transformation and oncogenesis, gene delivery, viral pathogenesis and immunity, and vaccines and antiviral agents.