Screening and Immune Efficacy Evaluation of Antigens with Protection Against Feline Calicivirus.

IF 5.2 3区医学 Q1 IMMUNOLOGY

Vaccines Pub Date : 2024-10-24 DOI:10.3390/vaccines12111205

Yupeng Yang, Ruibin Qi, Mengru Chen, Kexin Feng, Zhe Liu, Hongtao Kang, Qian Jiang, Liandong Qu, Jiasen Liu

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引用次数: 0

Abstract

Background: Feline calicivirus (FCV), a pathogen that causes upper respiratory tract diseases in felids, primarily leads to oral ulcers and various respiratory symptoms, which can be fatal in severe cases. Currently, FCV prevention and control rely primarily on vaccination; however, the existing vaccine types in China are mainly inactivated vaccines, leading to a single prevention and control method with suboptimal outcomes.

Methods and results: This study commences with a genetic evolution analysis of Chinese FCV isolates, confirming the presence of two major genotypes, GI and GII with GI emerging as the dominant form. We subsequently selected the broadly neutralizing vaccine candidate strain DL39 as the template for the truncation and expression of multiple recombinant proteins. Through serological assays, we successfully confirmed the optimal protective antigen region, which is designated CE₃₉ (CDE). Further investigation revealed the location of the optimal protective antigen region within the CE region for both the GI and GII genotype strains. Capitalizing on this discovery, a bivalent recombinant protein, designated CE₃₉-CE_FB, was generated. Cat antisera generated against CE₃₉ and CE₃₉-CE_FB proteins were used in cross-neutralization against various strains of different genotypes, yielding high neutralization titers ranging from 1:45 to 1:15 and from 1:48 to 1:29, respectively, which surpassed those induced by antisera from cats vaccinated with Mi-aosanduo (commercial vaccine, strain 255). Ultimately, in vivo challenge experiments were per-formed after immunizing cats with the CE₃₉ and CE₃₉-CE_FB proteins, utilizing Miaosanduo as a control for comparison. The results demonstrated that immunization with both proteins effectively made cats less susceptible to FCV GI, GII, and VSD strains infection, resulting in superior immune efficacy compared with that in the Miaosanduo group.

Conclusion: These results indicate that this study successfully identified the antigen CE₃₉, which has broad-spectrum antigenicity, through in vivo and in vitro experiments. These findings pre-liminarily demonstrate that the optimal protective antigen region of FCV strains is the CE region, laying a theoretical foundation for the development of novel broad-spectrum vaccines against FCV disease.

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对猫卡里科病毒有保护作用的抗原的筛选和免疫效力评估

背景：猫科动物卡里科病毒（FCV）是引起猫科动物上呼吸道疾病的病原体，主要导致口腔溃疡和各种呼吸道症状，严重者可致命。目前，FCV的防控主要依靠疫苗接种，但我国现有的疫苗种类主要是灭活疫苗，导致防控方法单一，效果不理想：本研究首先对中国的 FCV 分离物进行了基因进化分析，证实存在两种主要的基因型：GI 和 GII，其中 GI 为优势型。随后，我们选择了广谱中和疫苗候选株 DL39 作为截短和表达多种重组蛋白的模板。通过血清学检测，我们成功确认了最佳保护性抗原区，并将其命名为 CE39 (CDE)。进一步研究发现，GI 和 GII 基因型菌株的最佳保护性抗原区都位于 CE 区内。利用这一发现生成了一种双价重组蛋白，命名为 CE39-CEFB。针对 CE39 和 CE39-CEFB 蛋白生成的猫抗血清被用于对不同基因型的各种毒株进行交叉中和，产生的中和滴度分别为 1:45 至 1:15 和 1:48 至 1:29，超过了接种了 Mi-aosanduo （商品疫苗，毒株 255）的猫的抗血清诱导的中和滴度。最后，在用 CE39 和 CE39-CEFB 蛋白对猫进行免疫后，进行了体内挑战实验，并将 Miaosanduo 作为对照进行比较。结果表明，免疫这两种蛋白可有效降低猫对 FCV GI、GII 和 VSD 株感染的易感性，免疫效果优于妙善多组：这些结果表明，本研究通过体内和体外实验成功鉴定了具有广谱抗原性的抗原 CE39。这些研究结果初步证明了FCV毒株的最佳保护性抗原区是CE区，为开发新型的FCV疾病广谱疫苗奠定了理论基础。

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.