两种生物模型对接种冠状病毒感染 COVID-19 灭活疫苗 QazVac 的免疫反应性。

Q3 Medicine

Voprosy virusologii Pub Date : 2024-07-05 DOI:10.36233/0507-4088-222

B S Myrzakhmetova, G A Zhapparova, K B Bisenbayeva, A S Toytanova, M S Tuyskanova, K D Zhugunissov, L B Kutumbetov

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引用次数: 0

摘要

导言：一些传染病的特殊预防已被纳入疫苗接种计划。为了建立免疫预防药物的标准特性，包括安全性和特异性有效性，生产过程需要严格遵守生产规范，而所获结果的可靠性则需要对这些参数进行监测。疫苗制剂的特异性效力是根据接种疫苗的生物模型对象体内形成的特异性抗体反应的刺激指标进行标准化的：确定白鼠对接种 QazVac 疫苗的免疫反应性，以确定在评估疫苗免疫原性时使用白鼠代替叙利亚仓鼠作为生物模型的可能性：模型动物的免疫反应性通过血清转换率、接种试验疫苗后体内形成的 SARS-CoV-2 病毒抗体滴度的动态变化来评估。如果动物在接种疫苗或安慰剂前血清反应呈阳性，则根据对照组和接种组动物抗体滴度的差异或免疫前后抗体滴度的差异计算免疫反应水平。通过中和反应检测特异性抗体并确定其滴度：研究结果表明，受测生物模型对接种 QazVac 疫苗的免疫反应性大致相同，抗体滴度的水平和动态也证实了这一点。在分析与对照动物相比抗体滴度增加的倍数时，叙利亚仓鼠比小鼠的反应性更高。但 SPF 白鼠在免疫前对 SARS-CoV-2 病毒缺乏免疫反应性，这是标准的：获得的数据表明，就病毒中和抗体的形成速度和动态而言，白鼠对 QazVac 疫苗的免疫反应性与叙利亚仓鼠的免疫反应性大致相当。与叙利亚仓鼠相比，SPF 白鼠在接种疫苗前不具有针对 SARS-CoV-2 病毒的体液免疫力。与叙利亚仓鼠相同的免疫反应性和没有 SARS-CoV-2 病毒抗体的基线表明，使用白鼠在评估 COVID-19 疫苗的免疫原性和/或获得体液免疫的特异性因子方面具有优越性。

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Immune reactivity of two biological models to vaccination with inactivated vaccine QazVac against coronavirus infection COVID-19.

Introduction: Specific prevention of a number of infectious diseases has been introduced into the vaccination schedule. The production of immunoprophylactic drugs, in order to establish standard properties, including safety and specific effectiveness, requires strict adherence to manufacturing regulations, and the reliability of the results obtained requires monitoring of these parameters. The specific effectiveness of vaccine preparations is standardized according to the indicators of stimulation of specific antibody response formed in the body of vaccinated model biological objects.

Objective: Determination of the immune reactivity of white mice to vaccination with the QazVac vaccine to establish the possibility of using them as a biological model in assessing the immunogenicity of the vaccine instead of Syrian hamsters.

Materials and methods: The immune reactivity of model animals was assessed by the seroconversion rate, dynamics of antibody titers to the SARS-CoV-2 virus formed in the body after vaccination with the test vaccine. In the case of seropositivity of animals before administration of vaccine or placebo, the level of immune reactivity was calculated by the difference in antibody titers between control and vaccinated animals or by the difference in antibody titers before and after immunization. Specific antibodies were detected and their titer was determined using a neutralization reaction.

Results: The research results showed that the tested biological models had approximately the same immune reactivity to the administration of the QazVac vaccine, confirmed by the level and dynamics of antibody titers. When analyzing the fold increase in antibody titers in comparison to those of control animals, Syrian hamsters were more reactive compared to mice. But SPF white mice were standardized in their lack of the immune reactivity to SARS-CoV-2 virus before the immunization.

Conclusion: The data obtained indicate that the immune reactivity of white mice to the administration of the QazVac vaccine in terms of the rate and dynamics of the formation of virus-neutralizing antibodies is approximately equivalent to the immune reactivity of Syrian hamsters. Before immunization with the vaccine, SPF white mice, in contrast to Syrian hamsters, do not have humoral immunity specific to the SARS-CoV-2 virus. The immune reactivity equivalent to that observed of Syrian hamsters and the absence of antibodies to the SARS-CoV-2 virus at a baseline indicate the superiority of the use of white mice in assessing the immunogenicity of vaccines against COVID-19 and/or obtaining specific factors of humoral immunity.

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来源期刊

Voprosy virusologii Medicine-Infectious Diseases

CiteScore

2.00

自引率

0.00%

发文量

期刊介绍： The journal deals with advances in virology in Russia and abroad. It publishes papers dealing with investigations of viral diseases of man, animals and plants, the results of experimental research on different problems of general and special virology. The journal publishes materials are which promote introduction into practice of the achievements of the virological science in the eradication and incidence reduction of infectious diseases, as well as their diagnosis, treatment and prevention. The reader will find a description of new methods of investigation, new apparatus and devices.