Molecular mechanisms of Coxiella burnetii formalin-fixed cellular vaccine reactogenicity.

IF 2.9 3区 医学 Q3 IMMUNOLOGY Infection and Immunity Pub Date : 2024-11-12 Epub Date: 2024-10-02 DOI:10.1128/iai.00335-24
A P Fratzke, J A Szule, S M Butler, E J van Schaik, J E Samuel
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Abstract

Local and systemic reactogenic responses to Q-VAX have prevented licensing of this vaccine outside of Australia. These reactogenic responses occur in previously sensitized individuals and have not been well defined at the cellular level, in part because many studies have been done in guinea pigs that have limited molecular tools. We previously characterized a mouse model of reactogenicity where local reaction sites showed an influx of CD8+ and IFNγ-expressing IL17a+ CD4+ T cells consistent with a Th1 delayed-type hypersensitivity. In this study, we determined, using depletion and adoptive transfer experiments, that both anti-Coxiella antibodies and CD4+ T cells were essential for localized reactions at the site of vaccination. Furthermore, IFNγ depletion showed significant histological changes at the local reaction sites demonstrating the essential nature of this cytokine to reactogenicity. In addition to the cells and cytokines required for this response, we determined that whole cell vaccine (WCV) material remained at the site of vaccination for at least 26 weeks post-injection. Transmission electron microscopy (TEM) of these sites demonstrated intact rod-shaped bacteria at 2 weeks post-injection and partially degraded bacteria within macrophages at 26 weeks post-injection. Finally, because small cell variants (SCVs) are an environmentally stable form, we determined that local reactions were more severe when the WCV material was prepared with higher levels of SCVs compared to typical WCV or with higher levels of large cell variant (LCV). These studies support the hypothesis that antigen persistence at the site of injection contributes to this reactogenicity and that anti-Coxiella antibodies, CD4+ T cells, and IFNγ each contribute to this process.

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烧伤柯西氏菌福尔马林固定细胞疫苗致反应性的分子机制。
Q-VAX 的局部和全身性致敏反应阻碍了该疫苗在澳大利亚以外的地区获得许可。这些致反应性反应发生在先前已致敏的个体身上,但尚未在细胞水平上得到很好的定义,部分原因是许多研究都是在豚鼠身上进行的,而豚鼠的分子工具有限。我们之前研究了一种小鼠致敏反应模型,在该模型中,局部反应部位出现了大量 CD8+ 和表达 IL17a+ 的 CD4+ T 细胞,这与 Th1 迟发型超敏反应一致。在本研究中,我们利用去势和收养性转移实验确定,抗柯西氏杆菌抗体和 CD4+ T 细胞对疫苗接种部位的局部反应至关重要。此外,IFNγ耗竭显示局部反应部位的组织学发生了显著变化,证明了这种细胞因子对反应发生的重要性。除了这种反应所需的细胞和细胞因子外,我们还确定全细胞疫苗(WCV)材料在注射后至少 26 周仍留在接种部位。这些部位的透射电子显微镜(TEM)显示,在注射后 2 周,细菌呈完整的杆状,而在注射后 26 周,巨噬细胞内的细菌部分降解。最后,由于小细胞变异体(SCV)是一种环境稳定的形式,我们确定,与典型的 WCV 相比,当制备的 WCV 材料中 SCV 含量较高或大细胞变异体(LCV)含量较高时,局部反应更为严重。这些研究支持这样的假设,即抗原在注射部位的持续存在导致了这种致反应性,而抗柯西氏菌抗体、CD4+ T 细胞和 IFNγ 都有助于这一过程。
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来源期刊
Infection and Immunity
Infection and Immunity 医学-传染病学
CiteScore
6.00
自引率
6.50%
发文量
268
审稿时长
3 months
期刊介绍: Infection and Immunity (IAI) provides new insights into the interactions between bacterial, fungal and parasitic pathogens and their hosts. Specific areas of interest include mechanisms of molecular pathogenesis, virulence factors, cellular microbiology, experimental models of infection, host resistance or susceptibility, and the generation of innate and adaptive immune responses. IAI also welcomes studies of the microbiome relating to host-pathogen interactions.
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