Intranasal M2SR and BM2SR Vaccine Viruses Do Not Shed or Transmit in Ferrets.

IF 5.2 3区医学 Q1 IMMUNOLOGY

Vaccines Pub Date : 2024-10-29 DOI:10.3390/vaccines12111228

Yasuko Hatta, Lindsay Hill-Batorski, Michael J Moser, David Marshall, David A Boltz, Landon Westfall, Renee Herber, Sally Sarawar, Pamuk Bilsel

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引用次数: 0

Abstract

Background/objectives: Live influenza vaccines are considered to stimulate better overall immune responses but are associated with safety concerns regarding shedding and the potential for transmission or reassortment with wild-type influenza viruses. Intranasal M2SR and BM2SR (M2- and BM2-deficient single replication), intranasal influenza viruses, have shown promise as broadly cross-reactive next-generation influenza vaccines. The replication deficiency, shedding, and transmissibility of M2SR/BM2SR viruses were evaluated in a ferret model.

Methods: Wild-type influenza A and B control viruses replicated in upper respiratory organs and transmitted to both direct and aerosol contact ferrets, whereas M2SR and BM2SR influenza vaccine viruses were not detected in any tissues or in nasal washes after inoculation and were not recovered from any direct or aerosol contact ferrets. Mice were simultaneously infected with wild-type influenza A and M2SR viruses to assess reassortment potential. Sequence and PCR analyses of the genome recovered from individual virus plaques isolated from lung homogenates identified the origin of the segments as exclusively from the replicating wild-type virus.

Results: These results indicate that M2SR and BM2SR influenza vaccine viruses are attenuated, do not shed or transmit, and have a low probability for reassortment after coinfection. Absence of shedding was further demonstrated in nasal swabs taken from subjects who were inoculated with H3N2 M2SR in a previously described Phase 1 clinical study.

Conclusions: These results indicate that M2SR/BM2SR viruses have the potential to be used in a broader population range than current live influenza vaccines.

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经鼻接种的 M2SR 和 BM2SR 疫苗病毒不会在雪貂体内脱落或传播。

背景/目的：流感活疫苗被认为能激发更好的整体免疫反应，但也存在脱落和可能与野生型流感病毒传播或重组的安全问题。鼻内 M2SR 和 BM2SR（M2-和 BM2 缺失单一复制）流感病毒已显示出作为具有广泛交叉反应的下一代流感疫苗的前景。我们在雪貂模型中对 M2SR/BM2SR 病毒的复制缺陷、脱落和传播性进行了评估：方法：野生型甲型和乙型流感对照组病毒在上呼吸道器官中复制，并传播给直接接触和气溶胶接触的雪貂；而 M2SR 和 BM2SR 流感疫苗病毒在接种后的任何组织或鼻腔清洗液中均未检测到，也未从任何直接接触或气溶胶接触的雪貂体内回收。小鼠同时感染了野生型甲型流感病毒和 M2SR 病毒，以评估重配的可能性。对从肺匀浆中分离出的单个病毒斑块中回收的基因组进行序列和 PCR 分析，确定这些片段的来源完全是复制的野生型病毒：这些结果表明，M2SR 和 BM2SR 流感疫苗病毒是减毒的，不会脱落或传播，合并感染后发生重配的可能性很低。在之前描述的第一阶段临床研究中，从接种了 H3N2 M2SR 的受试者鼻拭子中提取的病毒进一步证明不脱落：这些结果表明，与目前的流感活疫苗相比，M2SR/BM2SR 病毒有可能在更广泛的人群中使用。

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

Vaccines Pharmacology, Toxicology and Pharmaceutics-Pharmacology

CiteScore

8.90

自引率

16.70%

发文量

1853

审稿时长

18.06 days

期刊介绍： Vaccines (ISSN 2076-393X) is an international, peer-reviewed open access journal focused on laboratory and clinical vaccine research, utilization and immunization. Vaccines publishes high quality reviews, regular research papers, communications and case reports.