Efficacy of an Inactivated Whole-Virus A/Victoria/361/2011 (IVR-165) (H3N2) Influenza Vaccine in Ferrets.

IF 1.9 4区 医学 Q4 IMMUNOLOGY
Noriko Kishida, Masaki Imai, Akira Ainai, Hideki Asanuma, Reiko Saito, Seiichiro Fujisaki, Masayuki Shirakura, Kazuya Nakamura, Tomoko Kuwahara, Emi Takashita, Masato Tashiro, Takato Odagiri, Shinji Watanabe
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Abstract

It has been reported that the high-growth reassortant (HGR) A(H3N2) influenza viruses used for split influenza vaccine (SV) production have some amino acid substitutions in hemagglutinin due to egg adaptation during virus propagation, causing antigenic differences between HGR and epidemic viruses. To clarify whether inactivated whole-virus vaccine (WV) derived from the A(H3N2) HGR virus possessing egg adaptation could induce cross-protective immune responses against epidemic A(H3N2) viruses, the efficacy of WV was compared with that of SV in a ferret model. When the ferrets immunized with WV or SV derived from HGR A/Victoria/361/2011 (IVR-165) virus were challenged with the homologous virus A/Victoria/361/2011 (IVR-165) or its original cell-propagated A/Victoria/361/2011 virus, respectively, WV successfully shortened the duration of virus shedding of both challenge viruses, whereas SV shortened only that of the homologous virus, A/Victoria/361/2011 (IVR-165). When WV-immunized ferrets were challenged with A/Fukushima/69/2015 virus, which is an epidemic virus antigenically different from the A/Victoria/361/2011 virus, WV could shorten the duration of shedding of this virus. In addition, we found that early induction of nasal IgG and IgA antibodies by vaccines helped shorten the virus-shedding period, although this was dependent on the degree of difference in antigenicity of the challenge virus. These results indicate that vaccination with WV, not with SV, would be a solution to avoid decreased vaccine effectiveness due to the antigenic change of HGR virus by egg adaptation during virus propagation.

灭活整病毒 A/Victoria/361/2011 (IVR-165) (H3N2) 流感疫苗在雪貂中的疗效。
据报道,用于生产分体式流感疫苗(SV)的高生长变异型(HGR)甲型(H3N2)流感病毒由于在病毒繁殖过程中进行了卵适应,其血凝素中存在一些氨基酸替代,从而导致HGR病毒与流行病病毒之间存在抗原差异。为了明确从具有卵适应性的 A(H3N2)HGR 病毒中提取的全病毒灭活疫苗(WV)能否诱导针对流行性 A(H3N2)病毒的交叉保护性免疫反应,我们在雪貂模 型中比较了 WV 和 SV 的效力。当分别用同源病毒 A/Victoria/361/2011(IVR-165)或其原始细胞繁殖的 A/Victoria/361/2011(IVR-165)病毒挑战经 WV 或 SV 免疫的 HGR A/Victoria/361/2011(IVR-165)病毒时,WV 成功地缩短了两种挑战病毒的脱落期,而 SV 仅缩短了同源病毒 A/Victoria/361/2011(IVR-165)的脱落期。福岛/69/2015病毒是一种与A/Victoria/361/2011病毒抗原不同的流行性病毒,当WV免疫的雪貂用福岛/69/2015病毒挑战该病毒时,WV可缩短该病毒的脱落时间。此外,我们发现疫苗早期诱导鼻腔 IgG 和 IgA 抗体有助于缩短病毒脱落期,尽管这取决于挑战病毒抗原性的差异程度。这些结果表明,接种 WV 而非 SV 疫苗是避免因 HGR 病毒在病毒繁殖过程中因卵子适应而发生抗原性变化而导致疫苗效果下降的一种解决方案。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Microbiology and Immunology
Microbiology and Immunology 医学-免疫学
CiteScore
5.20
自引率
3.80%
发文量
78
审稿时长
1 months
期刊介绍: Microbiology and Immunology is published in association with Japanese Society for Bacteriology, Japanese Society for Virology, and Japanese Society for Host Defense Research. It is peer-reviewed publication that provides insight into the study of microbes and the host immune, biological and physiological responses. Fields covered by Microbiology and Immunology include:Bacteriology|Virology|Immunology|pathogenic infections in human, animals and plants|pathogenicity and virulence factors such as microbial toxins and cell-surface components|factors involved in host defense, inflammation, development of vaccines|antimicrobial agents and drug resistance of microbes|genomics and proteomics.
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