Respiratory epithelial cells in innate immunity to influenza virus infection

被引:134
|
作者
Sanders, Catherine J. [1 ]
Doherty, Peter C. [1 ,2 ]
Thomas, Paul G. [1 ]
机构
[1] St Jude Childrens Res Hosp, Dept Immunol, Memphis, TN 38105 USA
[2] Univ Melbourne, Dept Microbiol & Immunol, Melbourne, Vic 3010, Australia
来源
CELL AND TISSUE RESEARCH | 2011年 / 343卷 / 01期
关键词
Innate immunity; Influenza; Epithelial cells; Virus infection; Secretory innate defenses; KERATINOCYTE GROWTH-FACTOR; A H5N1 VIRUSES; NF-KAPPA-B; GENE-EXPRESSION; INDUCED APOPTOSIS; LIGAND TRAIL; NS1; PROTEIN; HUMAN NK; I CELLS; LUNG;
D O I
10.1007/s00441-010-1043-z
中图分类号
Q2 [细胞生物学];
学科分类号
071009 ; 090102 ;
摘要
Infection by influenza virus leads to respiratory failure characterized by acute lung injury associated with alveolar edema, necrotizing bronchiolitis, and excessive bleeding. Severe reactions to infection that lead to hospitalizations and/or death are frequently attributed to an exuberant host response, with excessive inflammation and damage to the epithelial cells that mediate respiratory gas exchange. The respiratory mucosa serves as a physical and chemical barrier to infection, producing mucus and surfactants, anti-viral mediators, and inflammatory cytokines. The airway epithelial cell layer also serves as the first and overwhelmingly primary target for virus infection and growth. This review details immune events during influenza infection from the viewpoint of the epithelial cells, secretory host defense mechanisms, cell death, and recovery.
引用
收藏
页码:13 / 21
页数:9
相关论文
共 50 条
  • [31] Cultures of equine respiratory epithelial cells and organ explants as tools for the study of equine influenza virus infection
    C. Lin
    R. E. Holland Jr
    N. M. Williams
    T. M. Chambers
    Archives of Virology, 2001, 146 : 2239 - 2247
  • [32] Development and characterization of swine primary respiratory epithelial cells and their susceptibility to infection by four influenza virus types
    Sreenivasan, Chithra C.
    Thomas, Milton
    Antony, Linto
    Wormstadt, Tristen
    Hildreth, Michael B.
    Wang, Dan
    Hause, Ben
    Francis, David H.
    Li, Feng
    Kaushik, Radhey S.
    VIROLOGY, 2019, 528 : 152 - 163
  • [33] Innate immunity to viruses:: Control of vaccinia virus infection by γδ T cells
    Selin, LK
    Santolucito, PA
    Pinto, AK
    Szomolanyi-Tsuda, E
    Welsh, RM
    JOURNAL OF IMMUNOLOGY, 2001, 166 (11): : 6784 - 6794
  • [34] Contribution of innate immune cells to pathogenesis of severe influenza virus infection
    Cole, Suzanne L.
    Ho, Ling-Pei
    CLINICAL SCIENCE, 2017, 131 (04) : 269 - 283
  • [35] Ciliostasis of airway epithelial cells facilitates influenza A virus infection
    Fu, Yuguang
    Tong, Jie
    Meng, Fandan
    Hoeltig, Doris
    Liu, Guangliang
    Yin, Xiangping
    Herrler, Georg
    VETERINARY RESEARCH, 2018, 49
  • [36] Ciliostasis of airway epithelial cells facilitates influenza A virus infection
    Yuguang Fu
    Jie Tong
    Fandan Meng
    Doris Hoeltig
    Guangliang Liu
    Xiangping Yin
    Georg Herrler
    Veterinary Research, 49
  • [37] AMFR promotes innate immunity activation and proteasomal degradation of HMGCR in response to influenza virus infection in A549 cells
    Tewari, Devendra Nath
    Biswas, Asim
    Chakrabarti, Alok Kumar
    Dutta, Shanta
    VIROLOGY, 2023, 587
  • [38] Innate immunity to influenza virus: implications for future therapy
    White, Mitchell R.
    Doss, Mona
    Boland, Patrick
    Tecle, Tesfaldet
    Hartshorn, Kevan L.
    EXPERT REVIEW OF CLINICAL IMMUNOLOGY, 2008, 4 (04) : 497 - 514
  • [39] Interaction of Respiratory Dendritic cells with Influenza Virus Infection in vitro
    Hao, Xueli
    Braciale, Thomas
    JOURNAL OF IMMUNOLOGY, 2007, 178
  • [40] IL-15 Participates in the Respiratory Innate Immune Response to Influenza Virus Infection
    Verbist, Katherine C.
    Rose, David L.
    Cole, Charles J.
    Field, Mary B.
    Klonowski, Kimberly D.
    PLOS ONE, 2012, 7 (05):
12345