通过适用于多种变体的通用主干快速开发减毒传染性支气管炎病毒候选疫苗。

Rapid development of attenuated IBV vaccine candidates through a versatile backbone applicable to variants.

作者信息

Lu Yuanlu, Zeng Yiran, Luo Haowei, Chen Na, Zhao Lingcai, Zhang Haitao, Xia Jun, Ping Jihui

机构信息

MOE Joint International Research Laboratory of Animal Health and Food Safety, Engineering Laboratory of Animal Immunity of Jiangsu Province, College of Veterinary Medicine, Nanjing Agricultural University, 210095, Nanjing, China.

Biotechnology Research Laboratory, Jiangsu Lihua Animal Husbandry Co., Ltd, 213168, Changzhou, China.

出版信息

NPJ Vaccines. 2025 Mar 28;10(1):60. doi: 10.1038/s41541-025-01114-z.

DOI:10.1038/s41541-025-01114-z

PMID:40155419

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11953439/

Abstract

The antigen variability of the infectious bronchitis virus (IBV) has hindered vaccine effectiveness and perpetuated its epidemic. We engineered a rapid attenuation method for IBV variants. The strategy involves creating the rH-CPDF7 backbone by recoding a segment of the H120 nonstructural protein (NSP) genome via codon pair deoptimization (CPD), facilitating S gene integration from IBV variants via transformation-associated recombination (TAR) cloning. These recombinant strains exhibited even lower pathogenicity, indicating the effectiveness of CPDF7 in reducing virulence. Importantly, the rH-CPDF7 backbone demonstrated versatility, being applicable to the development of attenuated strains for IBV variants, including the QX-type, TW-type, and GVI-type strains (different genotypes). In conclusion, our method allows for the rapid development of attenuated strains by integrating the S gene of IBV variants into the rH-CPDF7 backbone. These recombinant strains can elicit a strong immune response and provide effective protection against homologous challenges. This strategy is crucial for developing live-attenuated vaccines against emerging IBV strains.

摘要

传染性支气管炎病毒（IBV）的抗原变异性阻碍了疫苗的有效性，并使其疫情长期存在。我们设计了一种针对IBV变体的快速减毒方法。该策略包括通过密码子对去优化（CPD）对H120非结构蛋白（NSP）基因组的一段进行重新编码来创建rH-CPDF7骨架，通过转化相关重组（TAR）克隆促进来自IBV变体的S基因整合。这些重组菌株表现出更低的致病性，表明CPDF7在降低毒力方面的有效性。重要的是，rH-CPDF7骨架具有通用性，适用于开发针对IBV变体的减毒株，包括QX型、TW型和GVI型菌株（不同基因型）。总之，我们的方法通过将IBV变体的S基因整合到rH-CPDF7骨架中，能够快速开发减毒株。这些重组菌株可以引发强烈的免疫反应，并提供针对同源攻击的有效保护。该策略对于开发针对新兴IBV菌株的减毒活疫苗至关重要。

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通过适用于多种变体的通用主干快速开发减毒传染性支气管炎病毒候选疫苗。

Rapid development of attenuated IBV vaccine candidates through a versatile backbone applicable to variants.

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