重复低剂量流感病毒感染导致小鼠患重症疾病:一种疫苗评估模型
Repeated Low-Dose Influenza Virus Infection Causes Severe Disease in Mice: a Model for Vaccine Evaluation.
作者信息
Song Yufeng, Wang Xiang, Zhang Hongbo, Tang Xinying, Li Min, Yao Jufang, Jin Xia, Ertl Hildegund C J, Zhou Dongming
机构信息
Vaccine Research Center, Key Laboratory of Molecular Virology and Immunology, Institut Pasteur of Shanghai, Chinese Academy of Science, Shanghai, China.
Vaccine Research Center, Key Laboratory of Molecular Virology and Immunology, Institut Pasteur of Shanghai, Chinese Academy of Science, Shanghai, China Institute of Biology and Medical Sciences, Soochow University, Suzhou, China.
出版信息
J Virol. 2015 Aug;89(15):7841-51. doi: 10.1128/JVI.00976-15. Epub 2015 May 20.
UNLABELLED
Influenza infection causes severe disease and death in humans. In traditional vaccine research and development, a single high-dose virus challenge of animals is used to evaluate vaccine efficacy. This type of challenge model may have limitations. In the present study, we developed a novel challenge model by infecting mice repeatedly in short intervals with low doses of influenza A virus. Our results show that compared to a single high-dose infection, mice that received repeated low-dose challenges showed earlier morbidity and mortality and more severe disease. They developed higher vial loads, more severe lung pathology, and greater inflammatory responses and generated only limited influenza A virus-specific B and T cell responses. A commercial trivalent influenza vaccine protected mice against a single high and lethal dose of influenza A virus but was ineffective against repeated low-dose virus challenges. Overall, our data show that the repeated low-dose influenza A virus infection mouse model is more stringent and may thus be more suitable to select for highly efficacious influenza vaccines.
IMPORTANCE
Influenza epidemics and pandemics pose serious threats to public health. Animal models are crucial for evaluating the efficacy of influenza vaccines. Traditional models based on a single high-dose virus challenge may have limitations. Here, we describe a new mouse model based on repeated low-dose influenza A virus challenges given within a short period. Repeated low-dose challenges caused more severe disease in mice, associated with higher viral loads and increased lung inflammation and reduced influenza A virus-specific B and T cell responses. A commercial influenza vaccine that was shown to protect mice from high-dose challenge was ineffective against repeated low-dose challenges. Overall, our results show that the low-dose repeated-challenge model is more stringent and may therefore be better suited for preclinical vaccine efficacy studies.
未标记
流感感染会导致人类出现严重疾病和死亡。在传统疫苗研发中,使用对动物进行单次高剂量病毒攻击来评估疫苗效力。这种攻击模型可能存在局限性。在本研究中,我们通过在短时间间隔内用低剂量甲型流感病毒反复感染小鼠,开发了一种新型攻击模型。我们的结果表明,与单次高剂量感染相比,接受反复低剂量攻击的小鼠发病和死亡更早,疾病更严重。它们产生了更高的病毒载量、更严重的肺部病理变化、更强的炎症反应,并且仅产生有限的甲型流感病毒特异性B细胞和T细胞反应。一种商用三价流感疫苗可保护小鼠免受单次高剂量致死性甲型流感病毒的攻击,但对反复低剂量病毒攻击无效。总体而言,我们的数据表明,反复低剂量甲型流感病毒感染小鼠模型更为严格,因此可能更适合筛选高效流感疫苗。
重要性
流感流行和大流行对公众健康构成严重威胁。动物模型对于评估流感疫苗的效力至关重要。基于单次高剂量病毒攻击的传统模型可能存在局限性。在此,我们描述了一种基于在短时间内反复进行低剂量甲型流感病毒攻击的新小鼠模型。反复低剂量攻击导致小鼠出现更严重的疾病,伴有更高的病毒载量、肺部炎症增加以及甲型流感病毒特异性B细胞和T细胞反应减少。一种已证明可保护小鼠免受高剂量攻击的商用流感疫苗对反复低剂量攻击无效。总体而言,我们的结果表明,低剂量反复攻击模型更为严格,因此可能更适合临床前疫苗效力研究。
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