Differential lung gene expression changes in C57BL/6 and DBA/2 mice carrying an identical functional Mx1 gene reveals crucial differences in the host response.

IF 1.9 Q3 GENETICS & HEREDITY BMC genomic data Pub Date : 2024-02-15 DOI:10.1186/s12863-024-01203-3
Silke Bergmann, Linda Brunotte, Klaus Schughart
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Abstract

Background: Influenza virus infections represent a major global health problem. The dynamin-like GTPase MX1 is an interferon-dependent antiviral host protein that confers resistance to influenza virus infections. Infection models in mice are an important experimental system to understand the host response and susceptibility to developing severe disease following influenza infections. However, almost all laboratory mouse strains carry a non-functional Mx1 gene whereas humans have a functional MX1 gene. Most studies in mice have been performed with strains carrying a non-functional Mx1 gene. It is therefore very important to investigate the host response in mouse strains with a functional Mx1 gene.

Results: Here, we analyzed the host response to influenza virus infections in two congenic mouse strains carrying the functional Mx1 gene from the A2G strain. B6.A2G-Mx1r/r(B6-Mx1r/r) mice are highly resistant to influenza A virus (IAV) H1N1 infections. On the other hand, D2(B6).A2G-Mx1r/r(D2-Mx1r/r) mice, although carrying a functional Mx1 gene, were highly susceptible, exhibited rapid weight loss, and died. We performed gene expression analysis using RNAseq from infected lungs at days 3 and 5 post-infection (p.i.) of both mouse strains to identify genes and pathways that were differentially expressed between the two mouse strains. The susceptible D2-Mx1r/r mice showed a high viral replication already at day 3 p.i. and exhibited a much higher number of differentially expressed genes (DEGs) and many DEGs had elevated expression levels compared to B6-Mx1r/r mice. On the other hand, some DEGs were specifically up-regulated only in B6-Mx1r/r mice at day 3 p.i., many of which were related to host immune response functions.

Conclusions: From these results, we conclude that at early times of infection, D2-Mx1r/r mice showed a very high and rapid replication of the virus, which resulted in lung damage and a hyperinflammatory response leading to death. We hypothesize that the activation of certain immune response genes was missing and that others, especially Mx1, were expressed at a time in D2-Mx1r/r mice when the virus had already massively spread in the lung and were thus not able anymore to protect them from severe disease. Our study represents an important addition to previously published studies in mouse models and contributes to a better understanding of the molecular pathways and genes that protect against severe influenza disease.

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携带相同功能 Mx1 基因的 C57BL/6 和 DBA/2 小鼠肺部基因表达的不同变化揭示了宿主反应的关键差异。
背景:流感病毒感染是一个重大的全球健康问题。达纳明样 GTPase MX1 是一种依赖干扰素的抗病毒宿主蛋白,能增强对流感病毒感染的抵抗力。小鼠感染模型是了解流感感染后宿主反应和易患严重疾病的重要实验系统。然而,几乎所有实验室小鼠品系都携带无功能的 Mx1 基因,而人类则携带有功能性 MX1 基因。大多数小鼠研究都是在携带无功能 Mx1 基因的品系中进行的。因此,研究带有功能性 Mx1 基因的小鼠品系的宿主反应非常重要:结果:在这里,我们分析了两个携带 A2G 株系功能性 Mx1 基因的同源小鼠株系对流感病毒感染的宿主反应。B6.A2G-Mx1r/r(B6-Mx1r/r)小鼠对甲型 H1N1 流感病毒(IAV)感染具有高度抵抗力。另一方面,D2(B6).A2G-Mx1r/r(D2-Mx1r/r)小鼠虽然携带功能性 Mx1 基因,但极易感染,体重迅速下降并死亡。我们使用 RNAseq 对两种小鼠品系感染后第 3 天和第 5 天的感染肺进行了基因表达分析,以确定两种小鼠品系之间存在差异表达的基因和通路。与B6-Mx1r/r小鼠相比,易感D2-Mx1r/r小鼠在感染后第3天就出现了高病毒复制,并表现出更多的差异表达基因(DEGs),而且许多DEGs的表达水平升高。另一方面,一些 DEGs 在出生后第 3 天仅在 B6-Mx1r/r 小鼠中特异性上调,其中许多与宿主免疫应答功能有关:从这些结果中,我们得出结论:在感染早期,D2-Mx1r/r 小鼠的病毒复制速度非常快,导致肺损伤和高炎症反应,最终导致死亡。我们推测,D2-Mx1r/r 小鼠体内某些免疫反应基因的激活功能缺失,而其他基因(尤其是 Mx1)的表达则是在病毒已经在肺部大规模扩散的时候,因此无法再保护它们免受严重疾病的侵袭。我们的研究是对以前发表的小鼠模型研究的重要补充,有助于更好地了解保护小鼠免受严重流感疾病侵袭的分子途径和基因。
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