A comprehensive method for the phenotypical and functional characterization of recalled human memory B and T cells specific to vaccine antigens

IF 1.6 4区医学 Q4 BIOCHEMICAL RESEARCH METHODS

Journal of immunological methods Pub Date : 2024-02-28 DOI:10.1016/j.jim.2024.113650

Czdari Lee, Imtisal Imran, Sara Thomas, Mahyar Nouri-Shirazi

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Abstract

Current methodologies for assessing vaccine effectiveness and longevity primarily center on measuring vaccine-induced neutralizing antibodies in serum or plasma. However, these methods overlook additional parameters such as the presence of memory B cells, even as antibody levels wane, and the pivotal role played by memory T cells in shaping antigen-specific memory B cell responses. Several studies have employed a combination of polyclonal activators, such as CpG and R848, along with various cytokines to provoke the recall of memory B cells from peripheral blood mononuclear cells (PBMCs) into antibody-secreting cells (ASCs). Other studies have examined the use of live attenuated viruses to stimulate antigen-specific memory T cells within PBMCs into effector T cells that produce Th1/Th2 cytokines. However, these studies have not fully elucidated the distinct effects of these polyclonal activators on individual subsets, nor have they evaluated whether the vaccine antigen alone is sufficient to trigger the recall of memory T cells.

Thus, in this study, we directly compared the capacity of two B cell polyclonal activators to induce the transition of existing vaccine-specific memory cells present in peripheral blood samples into ASCs. Simultaneously, we also assessed the transition of existing memory T cells into effector subsets in response to vaccine antigens.

Our findings demonstrate that both polyclonal activator combinations, CpG with IL-6 and IL-15, as well as R848 with IL-2, effectively induce the terminal differentiation of memory B cells into ASCs. Notably, CpG treatment preferentially expanded naïve and non-class-switched B cells, while R848 expanded class-switched memory cells, plasmablasts, and plasma cells. Consequently, R848 treatment led to a greater overall production of total and antigen-specific IgG immunoglobulins. Additionally, the exposure of isolated PBMCs to vaccine antigens alone proved sufficient for recalling the rare antigen-specific memory T cells into effector subsets, predominantly consisting of IFN-γ-producing CD4 T cells and TNF-β-producing CD8 T cells.

This study not only establishes a rationale for the selection of methods to expand and detect antigen-specific lymphocyte subsets but also presents a means to quantify vaccine effectiveness by correlating serum antibody levels with preexisting memory cells within peripheral blood samples.

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对疫苗抗原特异性记忆 B 细胞和 T 细胞进行表型和功能鉴定的综合方法。

目前评估疫苗有效性和寿命的方法主要集中在测量血清或血浆中疫苗诱导的中和抗体。然而，这些方法忽略了其他参数，如记忆 B 细胞的存在（即使抗体水平减弱），以及记忆 T 细胞在形成抗原特异性记忆 B 细胞反应中的关键作用。有几项研究采用了多克隆激活剂（如 CpG 和 R848）与各种细胞因子相结合的方法，促使记忆 B 细胞从外周血单核细胞（PBMCs）中唤醒并转化为抗体分泌细胞（ASCs）。其他研究还探讨了使用减毒活疫苗刺激 PBMC 内的抗原特异性记忆 T 细胞转化为产生 Th1/Th2 细胞因子的效应 T 细胞。然而，这些研究并没有完全阐明这些多克隆激活剂对各个亚群的不同影响，也没有评估疫苗抗原本身是否足以触发记忆 T 细胞的召回。因此，在本研究中，我们直接比较了两种 B 细胞多克隆激活剂诱导外周血样本中现有疫苗特异性记忆细胞转变为 ASCs 的能力。同时，我们还评估了现有记忆 T 细胞在应答疫苗抗原时向效应亚群转化的情况。我们的研究结果表明，CpG 与 IL-6 和 IL-15 以及 R848 与 IL-2 这两种多克隆激活剂组合都能有效地诱导记忆性 B 细胞最终分化为 ASCs。值得注意的是，CpG 处理能优先扩增幼稚和非类调转 B 细胞，而 R848 则能扩增类调转记忆细胞、浆细胞和浆细胞。因此，R848 处理会导致总免疫球蛋白和抗原特异性 IgG 免疫球蛋白的总体产量增加。此外，事实证明，仅将分离的 PBMC 暴露于疫苗抗原就足以将稀有的抗原特异性记忆 T 细胞召回到效应亚群，主要包括产生 IFN-γ 的 CD4 T 细胞和产生 TNF-β 的 CD8 T 细胞。这项研究不仅为选择扩大和检测抗原特异性淋巴细胞亚群的方法提供了理论依据，还提供了一种通过将血清抗体水平与外周血样本中预先存在的记忆细胞相关联来量化疫苗效果的方法。

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

Journal of immunological methods 医学-免疫学

CiteScore

4.10

自引率

0.00%

发文量

120

审稿时长

3 months

期刊介绍： The Journal of Immunological Methods is devoted to covering techniques for: (1) Quantitating and detecting antibodies and/or antigens. (2) Purifying immunoglobulins, lymphokines and other molecules of the immune system. (3) Isolating antigens and other substances important in immunological processes. (4) Labelling antigens and antibodies. (5) Localizing antigens and/or antibodies in tissues and cells. (6) Detecting, and fractionating immunocompetent cells. (7) Assaying for cellular immunity. (8) Documenting cell-cell interactions. (9) Initiating immunity and unresponsiveness. (10) Transplanting tissues. (11) Studying items closely related to immunity such as complement, reticuloendothelial system and others. (12) Molecular techniques for studying immune cells and their receptors. (13) Imaging of the immune system. (14) Methods for production or their fragments in eukaryotic and prokaryotic cells. In addition the journal will publish articles on novel methods for analysing the organization, structure and expression of genes for immunologically important molecules such as immunoglobulins, T cell receptors and accessory molecules involved in antigen recognition, processing and presentation. Submitted full length manuscripts should describe new methods of broad applicability to immunology and not simply the application of an established method to a particular substance - although papers describing such applications may be considered for publication as a short Technical Note. Review articles will also be published by the Journal of Immunological Methods. In general these manuscripts are by solicitation however anyone interested in submitting a review can contact the Reviews Editor and provide an outline of the proposed review.