Elucidating the characteristics of Mx1 and resistance to influenza A virus subtype H1N1 in the newly developed KWM/Hym mice.

IF 2.7 Q3 MEDICINE, RESEARCH & EXPERIMENTAL

Laboratory Animal Research Pub Date : 2022-09-08 DOI:10.1186/s42826-022-00138-z

Hajin Nam, Boyoung Kim, Avishekh Gautam, Yoo Yeon Kim, Eun Sun Park, Jong Sun Lee, Hyung-Joo Kwon, Je Kyung Seong, Jun Gyo Suh

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引用次数: 1

Abstract

Background: Inbred mice have several advantages, including genetic similarity to humans, a well-established gene manipulation system, and strong tolerance to inbreeding. However, inbred mice derived from a limited genetic pool have a small genetic diversity. Thus, the development of new inbred strains from wild mice is needed to overcome this limitation. Hence, in this study, we used a new strain of inbred mice called KWM/Hym. We sequenced the Mx1 gene to elucidate the genetic diversities of KWM/Hym mice and observed the biological alterations of the Mx1 protein upon influenza A infection.

Results: The Mx1 gene in KWM/Hym mice had 2, 4, and 38 nucleotide substitutions compared to those in the Mx1 gene in A2G, CAST/EiJ, and Mus spretus mice, respectively. Moreover, the Mx1 protein in KWM/Hym mice had 2 and 25 amino acid substitutions compared to those in the Mx1 protein in CAST/EiJ and M. spretus mice, respectively. To elucidate the function of the Mx1 protein, we inoculated the influenza A virus (A/WSN/1933) in KWM/Hym mice. Nine days after infection, all infected KWM/Hym mice survived without any weight loss. Four days after infection, the lungs of the infected KWM/Hym mice showed mild alveolitis and loss of bronchiolar epithelium; however, the pulmonary viral titers of the infected KWM/Hym mice were significantly lower than that in the infected BALB/c mice (2.17 × plaque-forming units mL^-1).

Conclusions: Our results demonstrate that the KWM/Hym mice are resistant to influenza A virus infection. Further, these mice can be used as a model organism to understand the mechanism of influenza A virus susceptibility.

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新建立的KWM/Hym小鼠Mx1的特征及其对甲型H1N1流感病毒亚型的抗性。

背景:近交小鼠具有与人类遗传相似、完善的基因操作系统和对近交的强耐受性等优点。然而，来自有限基因库的近亲繁殖小鼠具有较小的遗传多样性。因此，需要从野生小鼠中开发新的近交系来克服这一限制。因此，在这项研究中，我们使用了一种名为KWM/Hym的新型近交系小鼠。我们对Mx1基因进行测序，以阐明KWM/Hym小鼠的遗传多样性，并观察Mx1蛋白在甲型流感感染后的生物学变化。结果:与A2G、CAST/EiJ和繁殖鼠的Mx1基因相比，KWM/Hym小鼠的Mx1基因分别有2个、4个和38个核苷酸的替换。此外，与CAST/EiJ和M. spretus小鼠的Mx1蛋白相比，KWM/Hym小鼠的Mx1蛋白分别取代了2个和25个氨基酸。为了阐明Mx1蛋白的功能，我们在KWM/Hym小鼠身上接种了甲型流感病毒(A/WSN/1933)。感染后第9天，所有感染的KWM/Hym小鼠均存活，体重无任何下降。感染4 d后，感染的KWM/Hym小鼠肺部出现轻度肺泡炎和细支气管上皮细胞缺失;然而，感染KWM/Hym小鼠的肺部病毒滴度明显低于感染BALB/c小鼠(2.17 ×斑块形成单位mL-1)。结论:KWM/Hym小鼠具有抗甲型流感病毒感染的能力。此外，这些小鼠可以作为模型生物来了解甲型流感病毒的易感性机制。

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

Laboratory Animal Research Multiple-

CiteScore

4.40

自引率

0.00%

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审稿时长

8 weeks