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H5N1亚型禽流感病毒低剂量感染小鼠发病模型的建立 被引量:2

Pathogenicity of a low-dosage inoculation of H5N1 avian influenza virus in mice
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摘要 为模拟哺乳动物感染H5亚型高致病性禽流感病毒(HPAIV)的发病进程,本研究采用对哺乳动物高度致病的 H5N1 亚型 HPAIV 株 A/bar-headed goose/Qinghai/3/05(BHG/3/05),以低剂量鼻腔接种小鼠,观察发病、存活、病毒复制及组织病理损伤情况。结果显示,100.4EID50即能够100%感染小鼠,但发病表现缓慢,死亡延迟至8d以后,存活达60%;体内病毒复制可持续10d以上,感染后前3d病毒的增殖限于呼吸道,随后扩散至脑、脾、肾等其他器官;组织病理学观察肺脏早期表现出渗出性炎症,第10d发展为典型的间质性肺炎。本研究结果为探讨人禽流感的病理发生机制提供了具有价值的模型。 To imitate the natural infection of H5N1 subtype avian influenza virus (AIV) in animals, BALB/c mice were inoculated with a low-dosage (10^0.4 EID50) of H5N1 A1V A/bar-headed goose/3/05 (BHG/3/05) strain and were observed for weight gain and mortality. Different organs of the mice were also collected at different time points after infection for virus titration and pathologic examination. The results indicated that all of the inoculated mice were successfully infected by the virus, and 60% of mice survived during the 2 weeks observation period. Virus could be detected from organs of mice at 3, 5, 7, and 10 days, but not at 14 days post infection (p.i.). The virus was only detected in the lung of mice on day 3 p.i., then gradually spread to spleen, kidney and brain. Histopathologic examination revealed the pneumonia with significant infiltration of inflammatory cells in the lung section at day 3 p.i., and interstitial pneumonia at day 10 p.i.. These results are useful for a better understanding of the pathogenesis of H5N1 influenza virus infection in nature.
出处 《中国预防兽医学报》 CAS CSCD 北大核心 2011年第7期503-506,共4页 Chinese Journal of Preventive Veterinary Medicine
基金 973专项(2011CD505000)
关键词 H5N1高致病性禽流感病毒 小鼠 感染模型 highly pathogenic H5N1 influenza virus mice infection model
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参考文献14

  • 1Chcn Hua-lan, Deng Guo-hua, Li Ze-jun, et al. The evolution ofH5NI inlluenza viruses in ducks in southern China [J]. PNAS, 2004, 101(28): 10452-10456.
  • 2Gao Yu-wei, Zhang Ying, Kyoko S, ct al. Identification of amino acids in HA and PB2 critical for the transmission ofH5N1 avian influenza viruses in a mammalian host [J]. PLoS Pathog, 2009, 5(12): et000709.
  • 3Li Ze-jun, Chen Hua-lan, Jiao Pei-rong, et al. Molecular basis of replication of duck H5NI influenza viruses in a mammalianmouse model [J]. J Virol, 2005, 79(18): 12(/58-121)61.
  • 4Maines T R, Jayaraman A, Belser J A, Ct al. Transmission andpathogenesis of swine-origin 2009 A (HINI) influenza viruses ill ferrets and mice [J]. Science, 2009, 325(5939): 484-491).
  • 5Scholtissek C, Rohdc W, Hoyningen V V, ct al. On thc ori- gin of the human influenza virus subtypes 1t2N2 and H3N2 [J].Virology, 1978, 87(1): 13-20.
  • 6Li Yan-bing, Shi Jian-zhong, Zhong Gong-xun, et al. Contmucdevolution of H5NI influenza viruses in wild birds, domeslic poultry, and humans in China from 2004 to 2009 [J]. J Virol, 2010, 84(17): 8389-8393.
  • 7Chan P K S. Outbreak of avian influenza A (tt5NI) virus inti:c- tion in Hong Kong in 1997 [J]. Clin Infect Dis, 2002, 34(Sup- plement 2): 58-63.
  • 8Lipatov A, Kwon Y, Mary J, et al. Pathogenesis of It5NI m- fluenza virus infections in mice and ferrct models diftbr betweenrespiratory and digestive system exposure [J]. J Infect Dis, 2009, 199: 717-725.
  • 9Zhou Ji-yong, Shen Hui-gang, Chen Hong-xun, el al. haractmi-zation of a highly pathogenic H5NI influenza virus derived Irom bar-headed geese in China [J]. J gen virol, 2006. 87(7): 1823- 1828.
  • 10Zhu Qing-yu, Wang Wei, Yu Jun, et al. Fatal infection with influenza A (H5N1) virus in China [J]. N Engl J Mcd, 2006, 354(25): 2731-2732.

同被引文献15

  • 1Webster R G, Bean W J, Gomlan O T, et al. Evolution and ecology of influenza A viruses [J]. Microbiol Rev, 1992, 56: 152-179.
  • 2Li Cheng-jun, Yu Kang-zhen, Tian Guo-bing, et al. Evolution of H9N2 influenza viruses from domestic poultry in China's Mainland [J]. Virology, 2005, 340: 70-83.
  • 3Guo Yuan-ji, Li Jian-guo, Cheng Xiao-wen. Discovery of humans infected by avian influenza A (H9N2) virus [J]. Chin J Exp Clin Virol, 1999, 15: 105-108.
  • 4Guo Yuan-ji, Krauss S, Senne D A, et al. Characterization of the pathogenicity of members of the newly established H9N2 influenza virus lineages in Asia [J]. Virology, 2000, 267 (2): 279-288.
  • 5Gao Yu-wei, Zhang Ying, Shinya k, et al. Identification of amino acids in HA and PB2 critical for the transmission of H5NI avian influenza viruses in a mammalian host [J]. PLOS Pathogen, 2009, 5 (12): el 000709.
  • 6Zhang Ying, Zhang Qian-yi, Gao Yu-wei, et al. Key molecular factors in HA and PB2 contribute to the efficient transmission of the 2009 H1N1 pandemic influenza virus [J]. J virol, 2012, 86 ( 18): 9666-9674.
  • 7Chen Hua-lan, Matsuoka Y, Swayne D, et al. Generation and characterization of a cold-adapted Influenza A H9N2 reassortant as a live pandemic influenza virus vaccine candidate [J]. Vac- cine, 2003, 21: 4430-4436.
  • 8Chan P K S.Outbreak of avian influenza A (H5N1) virus infection in Hong Kong in 1997[J].Clin Infect Dis,2002,34(Supplement 2):58-64.
  • 9Chen Hua-lan,Deng Guo-hua,Li Ze-jun,et al.The evolution of H5N1 influenza viruses in ducks in Southern China[J].PNAS USA,2004,101(28):10452-10457.
  • 10Li Yan-bing,Shi Jian-zhong,Zhong Gong-xun,et al.Continued evolution of H5N1 influenza viruses in wild birds,domestic poultry,and humans in China from 2004 to 2009[J].J Virol,2010,84(17):8389-8397.

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