佐剂和非佐剂流感疫苗对体外淋巴细胞免疫表型的影响

E. Khromova, N. Akhmatova, M. Kostinov, S. Skhodova, V. Stolpnikova, A. Vlasenko, V. Polishchuk, A. Shmitko
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引用次数: 1

摘要

疫苗接种是预防流感最有效的方法,可减少并发症的发生频率和严重程度。目前,预防流感使用的是最安全的灭活分裂疫苗和亚单位疫苗,可促进形成具有保护水平的毒株特异性病毒中和抗体。众所周知,并非所有灭活疫苗对特定人群都足够有效。虽然目前公共卫生水平较低,但有必要提高疫苗的有效性,以激活免疫系统的所有链。为了增强流感病毒株特异性抗体的产生强度,与非佐剂疫苗相比,佐剂疫苗发挥了其他机制来激活体液和细胞免疫。本研究的目的是检测27名健康供体接受聚合亚单位(免疫佐剂)和非佐剂分裂和亚单位流感疫苗治疗的淋巴细胞免疫表型。材料和方法。体外外周血淋巴细胞亚群研究采用流式细胞仪FC-500 Cytomics (Beckman Coulter, USA),使用FITC和pe标记的单克隆抗体(mab)。结果。所有检测到的流感疫苗都能激活细胞免疫效应,增加nk细胞(CD16/56)、nkt淋巴细胞(CD3/CD16/56)、b淋巴细胞(CD45/CD20)、活化(CD3/HLA-DR)和细胞毒性(CD8/HLA-DR) t淋巴细胞的数量,以及携带早期活化标记(CD45/CD25)的细胞的数量。其中,免疫佐剂疫苗显示出最大的诱导细胞反应的潜力,诱导调节机制,防止过度活化,刺激NK (CD16/56), nkt细胞(CD3/CD16/56), b淋巴细胞(CD45/CD20),活化(CD3/HLA-DR)和细胞毒性(CD8/HLA-DR) t淋巴细胞,t调节细胞(Tregs, CD4/CD25/Foxp3)的生长。结论。除了形成特异性抗体外,接种流感疫苗还能产生短暂的免疫调节作用,这种作用在接种免疫佐剂疫苗后更为明显。可以假设,免疫系统功能障碍的人接种疫苗,将观察到额外的预防效果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The impact of adjuvanted and non-adjuvanted influenza vaccines on in vitro lymphocyte immunophenotype
Vaccination is the most effective method of influenza prophylaxis resulting in reduced frequency and severity of complications. Currently, for the prevention of influenza, inactivated split and subunit vaccines as the safest and promoting formation of protective level of strain-specific virus neutralizing antibodies are used. It is known that not all inactivated vaccines are effective enough for select human groups. While nowadays the level of public health is low, there is a need to improve the effectiveness of vaccines that should activate all chains of the immune system. In order to enhance intensity of influenza virus strain-specific antibody production, adjuvant vaccines exerting other mechanisms to activate humoral and cellular immunity compared to non-adjuvant vaccines have been used. The aim of the study was to examine lymphocyte immunophenotype in 27 healthy donors treated with polymer-subunit (immunoadjuvant) and non-adjuvanted split and subunit influenza vaccines. Materials and methods. Peripheral blood lymphocyte subpopulations were studied in vitro by flow cytometer FC-500 Cytomics (Beckman Coulter, USA) using FITC- and PE-labeled monoclonal antibodies (mAbs). Results. All examined influenza vaccines activate the effectors of cellular immunity, increasing the number of NK-cells (CD16/56), NKT-lymphocytes (CD3/CD16/56), B-lymphocytes (CD45/CD20), activated (CD3/HLA-DR) and cytotoxic (CD8/HLA-DR) T-lymphocytes, as well as cells bearing early activation marker (CD45/CD25). Among them the immunoadjuvant vaccine showed the greatest potential to induce cellular response eliciting regulatory mechanisms that prevent hyperactivation, stimulating growth of NK (CD16/56), NKT-cells (CD3/CD16/56), B-lymphocytes (CD45/CD20), activated (CD3/HLA-DR) and cytotoxic (CD8/HLA-DR) T-lymphocytes, T-regulatory cells (Tregs, CD4/CD25/Foxp3). Conclusion. Vaccination against influenza besides the formation of specific antibodies render a transient, immunomodulating effect that is more noticeable after immunoadjuvant vaccine. It can be assumed that vaccination of people with dysfunctions of the immune system an additional prophylactic effect will be observed.
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