Comparative evaluation of protective efficacy of experimental inactivated vaccines against haemorrhagic septicaemia.

IF 2.1 4区生物学 Q3 MICROBIOLOGY

Brazilian Journal of Microbiology Pub Date : 2025-01-20 DOI:10.1007/s42770-024-01610-9

Pankaj Dhakarwal, Manisha Medhi, Dhanvelu Muthuchelvan, Pallab Chaudhuri, K N Viswas, B H Manjunatha Patel, Sathish Bhadravati Shivachandra, V Bhanuprakash, Muthannan Andavar Ramakrishnan

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Abstract

Developing an effective vaccine for haemorrhagic septicaemia (HS) in cattle and buffaloes is urgently needed. While preferred for their safety, achieving sufficient, cross-protective, and long-lasting immunity is still challenging when administering inactivated vaccines. This study aimed to assess the efficacy of four inactivating components comprising three inactivating agents: (1) Binary ethylenimine (BEI), (2) Formalin, (3) a combination of BEI and Formalin, and (4) Hydrogen peroxide (H₂O₂), in inactivating Pasteurella multocida to enhance HS vaccine potency. H₂O₂ demonstrated the fastest inactivation kinetics, killing Pasteurella multocida within a few minutes. The combination of BEI and Formalin showed relatively rapid inactivation compared to Formalin or BEI alone. BEI, known for targeting nucleic acids with minimal impact on protein integrity, showed promise but required higher concentrations (8 mM) and a longer duration (16 h) for complete inactivation. Based on the inactivation kinetics, 8 mM BEI, 0.1% Formalin, 8 mM BEI + 0.1% Formalin, and 1% H₂O₂ were chosen for the experimental vaccine formulations. The inactivated Pasteurella multocida were adjuvanted with Montanide ISA-201 oil adjuvant and evaluated in mice model. All vaccine formulations elicited protective responses of over 6.5 log₁₀ units, indicating the high potency of the vaccine formulations. Notably, the vaccine prepared with an H₂O₂ inactivating agent elicited protection of > 8 log₁₀ units. Our study concludes that H₂O₂, with its rapid inactivation kinetics and safety profile, presents a promising alternative inactivating agent for HS vaccine development. Future studies should evaluate the protective efficacy of H₂O₂-inactivated vaccines in target animals.

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实验性灭活疫苗对出血性败血症保护效果的比较评价。

迫切需要开发一种有效的牛和水牛出血性败血症（HS）疫苗。虽然因其安全性而受到青睐，但在接种灭活疫苗时，实现充分、交叉保护和持久的免疫仍然具有挑战性。本研究旨在评估由三种灭活剂组成的四种灭活成分(1)二元亚胺（BEI），(2)福尔马林，(3)BEI与福尔马林的组合，以及(4)过氧化氢（H2O2）灭活多杀性巴氏杆菌以提高HS疫苗效力的效果。H2O2表现出最快的失活动力学，在几分钟内杀死多杀性巴氏杆菌。与单独使用福尔马林或BEI相比，BEI与福尔马林的联合失活速度相对较快。BEI以靶向核酸而对蛋白质完整性影响最小而著称，显示出希望，但需要更高的浓度（8 mM）和更长的持续时间（16小时）才能完全失活。根据失活动力学，选择8 mM BEI + 0.1%福尔马林、8 mM BEI + 0.1%福尔马林和1% H2O2作为实验疫苗配方。用Montanide ISA-201油佐剂对灭活的多杀性巴氏杆菌进行佐剂作用，并在小鼠模型上进行评价。所有疫苗制剂均能引起超过6.5 log10单位的保护反应，表明疫苗制剂的效力很高。值得注意的是，用H2O2灭活剂制备的疫苗可获得bb80 log10单位的保护。我们的研究表明，H2O2具有快速灭活动力学和安全性，是一种有前途的HS疫苗灭活剂。未来的研究应评估h2o2灭活疫苗对靶动物的保护效果。

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

Brazilian Journal of Microbiology 生物-微生物学

CiteScore

4.10

自引率

4.50%

发文量

216

审稿时长

1.0 months

期刊介绍： The Brazilian Journal of Microbiology is an international peer reviewed journal that covers a wide-range of research on fundamental and applied aspects of microbiology. The journal considers for publication original research articles, short communications, reviews, and letters to the editor, that may be submitted to the following sections: Biotechnology and Industrial Microbiology, Food Microbiology, Bacterial and Fungal Pathogenesis, Clinical Microbiology, Environmental Microbiology, Veterinary Microbiology, Fungal and Bacterial Physiology, Bacterial, Fungal and Virus Molecular Biology, Education in Microbiology. For more details on each section, please check out the instructions for authors. The journal is the official publication of the Brazilian Society of Microbiology and currently publishes 4 issues per year.