Blood transcriptome profiling reveals distinct gene networks induced by mRNA vaccination against COVID-19

IF 4.5 3区 医学 Q2 IMMUNOLOGY European Journal of Immunology Pub Date : 2024-10-14 DOI:10.1002/eji.202451236
Lennart Riemann, Leonie M. Weskamm, Leonie Mayer, Ivan Odak, Swantje Hammerschmidt, Inga Sandrock, Michaela Friedrichsen, Inga Ravens, Janina Fuss, Gesine Hansen, Marylyn M. Addo, Reinhold Förster
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Abstract

Messenger RNA (mRNA) vaccines represent a new class of vaccines that has been shown to be highly effective during the COVID-19 pandemic and that holds great potential for other preventative and therapeutic applications. While it is known that the transcriptional activity of various genes is altered following mRNA vaccination, identifying and studying gene networks could reveal important scientific insights that might inform future vaccine designs. In this study, we conducted an in-depth weighted gene correlation network analysis of the blood transcriptome before and 24 h after the second and third vaccination with licensed mRNA vaccines against COVID-19 in humans, following a prime vaccination with either mRNA or ChAdOx1 vaccines. Utilizing this unsupervised gene network analysis approach, we identified distinct modular networks of co-varying genes characterized by either an expressional up- or downregulation in response to vaccination. Downregulated networks were associated with cell metabolic processes and regulation of transcription factors, while upregulated networks were associated with myeloid differentiation, antigen presentation, and antiviral, interferon-driven pathways. Within this interferon-associated network, we identified highly connected hub genes such as STAT2 and RIGI and associated upstream transcription factors, potentially playing important regulatory roles in the vaccine-induced immune response. The expression profile of this network significantly correlated with S1-specific IgG levels at the follow-up visit in vaccinated individuals. Those findings could be corroborated in a second, independent cohort of mRNA vaccine recipients. Collectively, results from this modular gene network analysis enhance the understanding of mRNA vaccines from a systems immunology perspective. Influencing specific gene networks could lead to optimized vaccines that elicit augmented vaccine responses.

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血液转录组图谱揭示了针对 COVID-19 的 mRNA 疫苗接种所诱导的不同基因网络。
信使核糖核酸(mRNA)疫苗是一种新型疫苗,在 COVID-19 大流行期间被证明非常有效,而且在其他预防和治疗应用方面也具有巨大潜力。虽然已知接种 mRNA 疫苗后各种基因的转录活性会发生改变,但识别和研究基因网络可以揭示重要的科学见解,为未来的疫苗设计提供依据。在本研究中,我们在接种 mRNA 或 ChAdOx1 疫苗后,对接种第二针和第三针 COVID-19 疫苗前和接种后 24 小时的血液转录组进行了深入的加权基因相关网络分析。利用这种无监督基因网络分析方法,我们发现了共变基因的独特模块网络,这些基因的特征是在接种疫苗后表达上调或下调。下调网络与细胞代谢过程和转录因子调控有关,而上调网络则与骨髓分化、抗原递呈和抗病毒、干扰素驱动途径有关。在这个与干扰素相关的网络中,我们发现了高度关联的枢纽基因,如 STAT2 和 RIGI 以及相关的上游转录因子,它们可能在疫苗诱导的免疫反应中发挥重要的调控作用。该网络的表达谱与疫苗接种者随访时的S1特异性IgG水平明显相关。这些发现可以在第二批独立的 mRNA 疫苗接种者中得到证实。总之,模块化基因网络分析的结果从系统免疫学的角度加深了人们对 mRNA 疫苗的理解。影响特定的基因网络可以优化疫苗,从而增强疫苗反应。
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来源期刊
CiteScore
8.30
自引率
3.70%
发文量
224
审稿时长
2 months
期刊介绍: The European Journal of Immunology (EJI) is an official journal of EFIS. Established in 1971, EJI continues to serve the needs of the global immunology community covering basic, translational and clinical research, ranging from adaptive and innate immunity through to vaccines and immunotherapy, cancer, autoimmunity, allergy and more. Mechanistic insights and thought-provoking immunological findings are of interest, as are studies using the latest omics technologies. We offer fast track review for competitive situations, including recently scooped papers, format free submission, transparent and fair peer review and more as detailed in our policies.
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