IHAP, Université de Toulouse, INRA, ENVT, Toulouse, France.
Unité de Virologie et Immunologie Moléculaires (UR0892), INRA, Jouy-en-Josas, France.
J Virol. 2020 Jan 31;94(4). doi: 10.1128/JVI.01662-19.
A novel genus within the family was identified in the United States and named influenza D virus (IDV). Bovines have been proposed to be the primary host, and three main viral lineages (D/OK-like, D/660-like, and D/Japan-like) have been described. Experimental infections had previously been performed in swine, ferrets, calves, and guinea pigs in order to study IDV pathogenesis. We developed a murine experimental model to facilitate the study of IDV pathogenesis and the immune response. DBA/2 mice were inoculated with 10 50% tissue culture infective dose (TCID) of D/bovine/France/5920/2014 (D/OK-like). No clinical signs or weight loss were observed. Viral replication was observed mainly in the upper respiratory tract (nasal turbinates) but also in the lower respiratory tract of infected mice, with a peak at 4 days postinfection. Moreover, the virus was also detected in the intestines. All infected mice seroconverted by 14 days postinfection. Transcriptomic analyses demonstrated that IDV induced the activation of proinflammatory genes, such as gamma interferon (IFN-γ) and CCL2. Inoculation of NF-κB-luciferase and Ifnar1 mice demonstrated that IDV induced mild inflammation and that a type I interferon response was not necessary in IDV clearance. Adaptation of IDV by serial passages in mice was not sufficient to induce disease or increased pathogenesis. Taken together, present data and comparisons with the calf model show that our mouse model allows for the study of IDV replication and fitness (before selected viruses may be inoculated on calves) and also of the immune response. Influenza D virus (IDV), a new genus of family, presents a large host range and a worldwide circulation. The pathogenicity of this virus has been studied in the calf model. The mouse model is frequently used to enable a first assessment of a pathogens fitness, replication, and pathogenesis for influenza A and B viruses. We showed that DBA/2 mice are a relevant model for the study of IDV replication. This model will allow for rapid IDV fitness and replication evaluation and will enable phenotypic comparisons between isolated viruses. It will also allow for a better understanding of the immune response induced after IDV infection.
一个新的属在 科在美国被鉴定出来,并被命名为流感 D 病毒(IDV)。牛被认为是主要宿主,已经描述了三个主要的病毒谱系(D/OK 样、D/660 样和 D/日本样)。为了研究 IDV 的发病机制,以前曾在猪、雪貂、小牛和豚鼠中进行过实验感染。我们开发了一种鼠实验模型,以促进 IDV 发病机制和免疫反应的研究。DBA/2 小鼠用 10 50%组织培养感染剂量(TCID)的 D/牛/法国/5920/2014(D/OK 样)接种。未观察到临床症状或体重减轻。病毒复制主要在上呼吸道(鼻甲)中观察到,但也在感染小鼠的下呼吸道中观察到,在感染后 4 天达到峰值。此外,病毒也在肠道中检测到。所有感染的小鼠在感染后 14 天内血清转化。转录组分析表明,IDV 诱导了促炎基因的激活,如γ干扰素(IFN-γ)和 CCL2。NF-κB-荧光素酶和 Ifnar1 小鼠的接种表明,IDV 诱导了轻度炎症,并且清除 IDV 不需要 I 型干扰素反应。IDV 在小鼠中的连续传代适应不足以引起疾病或增加发病机制。总的来说,目前的数据和与小牛模型的比较表明,我们的小鼠模型允许研究 IDV 的复制和适应性(在选择的病毒可能接种在小牛之前),以及免疫反应。流感 D 病毒(IDV),一个 科的新属,具有广泛的宿主范围和全球传播。该病毒的致病性已在小牛模型中进行了研究。小鼠模型常用于评估流感 A 和 B 病毒的病原体适应性、复制和发病机制。我们表明,DBA/2 小鼠是研究 IDV 复制的一个相关模型。该模型将允许快速评估 IDV 的适应性和复制,并能够对分离的病毒进行表型比较。它还将有助于更好地了解感染 IDV 后诱导的免疫反应。
