Department of Population Medicine and Diagnostic Sciences, College of Veterinary Medicine, Cornell University, Ithaca, New York, USA.
Biotechnological-Biomedical Center, Leipzig University, Leipzig, Germany.
Microbiol Spectr. 2024 Oct 3;12(10):e0109224. doi: 10.1128/spectrum.01092-24. Epub 2024 Aug 20.
Equine herpesvirus type 1 (EHV-1) is one of the most prevalent respiratory pathogens in horses with a high impact on animal health worldwide. Entry of the virus into epithelial cells of the upper respiratory tract and rapid local viral replication is followed by infection of local lymphoid tissues leading to cell-associated viremia and disease progression. Pre-existing mucosal immunity has previously been shown to reduce viral shedding and prevent viremia, consequently limiting severe disease manifestations. Here, nasopharyngeal transcriptomic profiling was used to identify differentially expressed genes following EHV-1 challenge in horses with different EHV-1 immune statuses. Immune horses ( = 4) did neither develop clinical disease nor viremia and did not shed virus after experimental infection, while non-immune horses ( = 4) did all the above. RNA sequencing was performed on nasopharyngeal samples pre- and 24 hours post-infection (24hpi). At 24hpi, 109 and 44 genes were upregulated in immune horses and non-immune horses, respectively, and three genes were explored in further detail. Antileukoproteinase () gene expression increased 2.1-fold within 24 hours in immune horses in concert with protein secretion. Interferon (IFN)-induced proteins with tetratricopeptide repeats 2 () and 3 () were upregulated in non-immune horses, corresponding with nasal IFN-α secretion and viral replication. By contrast, neither expression nor IFN-α secretion was induced by EHV-1 infection of immune horses. Transcriptomic profiling offered a tool to identify, for the first time, the role of SLPI in innate immunity against EHV-1, and further emphasized the central role of the type I IFN response in the anti-viral defense of non-immune horses.
Equine herpesvirus type 1 (EHV-1) remains a considerable concern in the equine industry, with yearly outbreaks resulting in morbidity, mortality, and economic losses. In addition to its importance in equine health, EHV-1 is a respiratory pathogen and an alphaherpesvirus, and it may serve as a model for other viruses with similar pathogenicity or phylogeny. Large animal models allow the collection of high-volume samples longitudinally, permitting in-depth investigation of immunological processes. This study was performed on bio-banked nasopharyngeal samples from an EHV-1 infection experiment, where clinical outcomes had previously been determined. Matched nucleic acid and protein samples throughout infection permitted longitudinal quantification of the protein or related proteins of selected differentially expressed genes detected during the transcriptomic screen. The results of this manuscript identified novel innate immune pathways of the upper respiratory tract during the first 24 hours of EHV-1 infection, offering a first look at the components of early mucosal immunity that are indicative of protection.
马疱疹病毒 1 型(EHV-1)是全球范围内对动物健康影响最大的最常见呼吸道病原体之一。病毒进入上呼吸道的上皮细胞并迅速在局部复制,随后感染局部淋巴组织,导致细胞相关的病毒血症和疾病进展。先前已经表明,预先存在的粘膜免疫可以减少病毒脱落并预防病毒血症,从而限制严重的疾病表现。在这里,使用马的不同 EHV-1 免疫状态下的鼻腔转录组分析来鉴定 EHV-1 感染后差异表达的基因。免疫马(n = 4)既没有发展临床疾病也没有发生病毒血症,并且在实验感染后没有病毒脱落,而非免疫马(n = 4)则全部发生了上述情况。在感染前和感染后 24 小时(24hpi)对鼻咽样本进行 RNA 测序。在 24hpi 时,免疫马和非免疫马分别有 109 和 44 个基因上调,其中三个基因进行了更详细的研究。抗白细胞蛋白酶(SLPI)基因表达在免疫马中在 24 小时内增加了 2.1 倍,同时伴随着蛋白分泌。非免疫马中干扰素(IFN)诱导的四肽重复蛋白 2(ISG15)和 3(IFI44)上调,与鼻内 IFN-α 分泌和病毒复制相对应。相比之下,EHV-1 感染免疫马不会诱导 表达或 IFN-α 分泌。转录组分析提供了一种工具,首次鉴定了 SLPI 在针对 EHV-1 的先天免疫中的作用,并进一步强调了 I 型 IFN 反应在非免疫马抗病毒防御中的核心作用。
马疱疹病毒 1 型(EHV-1)仍然是马业的一个重要关注点,每年的疫情都会导致发病率、死亡率和经济损失。除了在马的健康方面的重要性外,EHV-1 还是一种呼吸道病原体和α疱疹病毒,它可以作为具有类似致病性或系统发育的其他病毒的模型。大动物模型允许纵向采集大量样本,从而可以深入研究免疫过程。本研究是在 EHV-1 感染实验的生物银行鼻咽样本上进行的,其中临床结果先前已确定。在整个感染过程中,匹配的核酸和蛋白样本允许对在转录组筛选中检测到的差异表达基因的相关蛋白或蛋白进行纵向定量。本文的结果确定了 EHV-1 感染后上呼吸道的新的先天免疫途径,首次观察了预示保护的早期粘膜免疫的组成部分。
