Culicoides Midge 细胞衍生的蓝舌病病毒对 IFNAR 小鼠的毒力增强

Viruses Pub Date : 2024-09-17 DOI:10.3390/v16091474
Barbara S. Drolet, Lindsey Reister-Hendricks, Christie Mayo, Case Rodgers, David C. Molik, David Scott McVey
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摘要

蓝舌病(BT)是一种由蜱螨传播的出血性疾病,主要影响鹿科动物和反刍家畜,造成动物生产的重大经济损失和贸易限制。使用α/β干扰素受体敲除IFNAR小鼠模型和易感目标物种进行动物感染实验,对于了解病毒的致病机理、毒力和评估疫苗至关重要。然而,利用病媒本身进行病媒传播实验研究在后勤上很困难,在实验上也存在问题。因此,通常通过皮下注射来自小仓鼠肾脏(BHK)细胞的病毒来诱导实验感染。遗憾的是,对于美国的许多 BTV 血清型来说,很难通过向目标宿主动物注射 BHK 衍生病毒来复制蠓传播的自然感染中的疾病严重程度。利用 IFNAR BTV 小鼠模型,我们比较了传统 BHK 细胞衍生的 BTV-17 与 C. sonorensis midge(W8)细胞衍生的 BTV-17 的毒力,以确定使用传播媒介的细胞是否能提供媒介传播病毒的体外毒力。与接种 BHK-BTV-17 的小鼠相比,在低剂量和高剂量下,接种 W8-BTV-17 的小鼠出现病毒血症的时间更早,出现临床症状的时间和高峰期更早,死亡率明显更高。我们的研究结果表明,使用来源于 W8 细胞的 Culicoides 接种体可提供体外载体增强感染,从而更接近于自然蠓传播感染中的疾病水平,同时避免了使用活蠓进行后勤和实验的复杂性。
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Increased Virulence of Culicoides Midge Cell-Derived Bluetongue Virus in IFNAR Mice
Bluetongue (BT) is a Culicoides midge-borne hemorrhagic disease affecting cervids and ruminant livestock species, resulting in significant economic losses from animal production and trade restrictions. Experimental animal infections using the α/β interferon receptor knockout IFNAR mouse model and susceptible target species are critical for understanding viral pathogenesis, virulence, and evaluating vaccines. However, conducting experimental vector-borne transmission studies with the vector itself are logistically difficult and experimentally problematic. Therefore, experimental infections are induced by hypodermic injection with virus typically derived from baby hamster kidney (BHK) cells. Unfortunately, for many U.S. BTV serotypes, it is difficult to replicate the severity of the disease seen in natural, midge-transmitted infections by injecting BHK-derived virus into target host animals. Using the IFNAR BTV murine model, we compared the virulence of traditional BHK cell-derived BTV-17 with C. sonorensis midge (W8) cell-derived BTV-17 to determine whether using cells of the transmission vector would provide an in vitro virulence aspect of vector-transmitted virus. At both low and high doses, mice inoculated with W8-BTV-17 had an earlier onset of viremia, earlier onset and peak of clinical signs, and significantly higher mortality compared to mice inoculated with BHK-BTV-17. Our results suggest using a Culicoides W8 cell-derived inoculum may provide an in vitro vector-enhanced infection to more closely represent disease levels seen in natural midge-transmitted infections while avoiding the logistical and experimental complexity of working with live midges.
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