Tisoncik-Go Jennifer, Gasper David J, Kyle Jennifer E, Eisfeld Amie J, Selinger Christian, Hatta Masato, Morrison Juliet, Korth Marcus J, Zink Erika M, Kim Young-Mo, Schepmoes Athena A, Nicora Carrie D, Purvine Samuel O, Weitz Karl K, Peng Xinxia, Green Richard R, Tilton Susan C, Webb-Robertson Bobbie-Jo, Waters Katrina M, Metz Thomas O, Smith Richard D, Kawaoka Yoshihiro, Suresh M, Josset Laurence, Katze Michael G
Department of Microbiology, University of Washington, Seattle, WA 98195, USA.
Department of Pathobiological Sciences, School of Veterinary Medicine, University of Wisconsin, Madison, WI 53706, USA.
Cell Host Microbe. 2016 Feb 10;19(2):254-66. doi: 10.1016/j.chom.2016.01.002.
Pandemic influenza viruses modulate proinflammatory responses that can lead to immunopathogenesis. We present an extensive and systematic profiling of lipids, metabolites, and proteins in respiratory compartments of ferrets infected with either 1918 or 2009 human pandemic H1N1 influenza viruses. Integrative analysis of high-throughput omics data with virologic and histopathologic data uncovered relationships between host responses and phenotypic outcomes of viral infection. Proinflammatory lipid precursors in the trachea following 1918 infection correlated with severe tracheal lesions. Using an algorithm to infer cell quantity changes from gene expression data, we found enrichment of distinct T cell subpopulations in the trachea. There was also a predicted increase in inflammatory monocytes in the lung of 1918 virus-infected animals that was sustained throughout infection. This study presents a unique resource to the influenza research community and demonstrates the utility of an integrative systems approach for characterization of lipid metabolism alterations underlying respiratory responses to viruses.
大流行性流感病毒可调节促炎反应,而这种反应可能导致免疫病理发生。我们对感染1918年或2009年人类大流行H1N1流感病毒的雪貂呼吸道区室中的脂质、代谢物和蛋白质进行了广泛而系统的分析。将高通量组学数据与病毒学和组织病理学数据进行综合分析,揭示了宿主反应与病毒感染表型结果之间的关系。1918年感染后气管中的促炎脂质前体与严重的气管病变相关。使用一种从基因表达数据推断细胞数量变化的算法,我们发现气管中不同T细胞亚群的富集。在1918年病毒感染的动物肺中,炎症单核细胞也有预测性增加,且在整个感染过程中持续存在。本研究为流感研究界提供了一个独特的资源,并证明了综合系统方法在表征病毒呼吸道反应背后脂质代谢改变方面的实用性。