病毒学报

参考文献

[1]Gao G F.From"A"IV to"Z"IKV:attacks from emerging and re-emerging pathogens[J].Cell,2018,172(6):1157-1159.

[2]Belser J A,Bridges C B,Katz J M,Tumpey T M.Past,present,and possible future human infection with influenza virus A subtype H7[J].Emerg Infect Dis,2009,15(6):859-865.

[3]Fouchier R A,Schneeberger P M,Rozendaal F W,Broekman J M,Kemink S A,Munster V,Kuiken T,Rimmelzwaan G F,Schutten M,Van Doornum G J,Koch G,Bosman A,Koopmans M,Osterhaus A D.Avian influenza A virus(H7N7)associated with human conjunctivitis and a fatal case of acute respiratory distress syndrome[J].Proc Natl Acad Sci U S A,2004,101(5):1356-1361.

[4]Liu J,Xiao H,Wu Y,Liu D,Qi X,Shi Y,Gao G F.H7N9:a low pathogenic avian influenza A virus infecting humans[J].Curr Opin Virol,2014,5:91-97.

[5]Li J,Yu X,Pu X,Xie L,Sun Y,Xiao H,Wang F,Din H,Wu Y,Liu D,Zhao G,Liu J,Pan J.Environmental connections of novel avian-origin H7N9influenza virus infection and virus adaptation to the human[J].Sci China Life Sci,2013,56(6):485-492.

[6]Xiang N,Li X,Ren R,Wang D,Zhou S,Greene C M,Song Y,Zhou L,Yang L,Davis C T,Zhang Y,Wang Y,Zhao J,Li X,Iuliano A D,Havers F,Olsen S J,Uyeki T M,Azziz-Baumgartner E,Trock S,Liu B,Sui H,Huang X,Zhang Y,Ni D,Feng Z,Shu Y,Li Q.Assessing change in avian influenza A(H7N9)virus infections during the fourth epidemic-China,September2015-August 2016[J]. MMWR Morb Mortal Wkly Rep,2016,65(49):1390-1394.

[7]Chen Y,Liang W,Yang S,Wu N,Gao H,Sheng J,Yao H,Wo J,Fang Q,Cui D,Li Y,Yao X,Zhang Y,Wu H,Zheng S,Diao H,Xia S,Zhang Y,Chan K H,Tsoi H W,Teng J L,Song W,Wang P,Lau S Y,Zheng M,Chan J F,To K K,Chen H,Li L,Yuen K Y.Human infections with the emerging avian influenza A H7N9virus from wet market poultry:clinical analysis and characterisation of viral genome[J].Lancet,2013,381(9881):1916-1925.

[8]Wang X,Jiang H,Wu P,Uyeki T M,Feng L,Lai S,Wang L,Huo X,Xu K,Chen E,Wang X,He J,Kang M,Zhang R,Zhang J,Wu J,Hu S,Zhang H,Liu X,Fu W,Ou J,Wu S,Qin Y,Zhang Z,Shi Y,Zhang J,Artois J,Fang V J,Zhu H,Guan Y,Gilbert M,Horby P W,Leung G M,Gao G F,Cowling B J,Yu H.Epidemiology of avian influenza A H7N9virus in human beings across five epidemics in China's mainland,2013-17:an epidemiological study of laboratory-confirmed case series[J].Lancet Infect Dis,2017,17(8):822-832.

[9]Chen H,Liu S,Liu J,Chai C,Mao H,Yu Z,Tang Y,Zhu G,Chen H X,Zhu C,Shao H,Tan S,Wang Q,Bi Y,Zou Z,Liu G,Jin T,Jiang C,Gao G F,Peiris M,Yu H,Chen E.Nosocomial co-transmission of avian influenza A(H7N9)and A(H1N1)pdm09viruses between 2patients with hematologic disorders[J].Emerg Infect Dis,2016,22(4):598-607.

[10]Li J,Rao Y,Sun Q,Wu X,Jin J,Bi Y,Chen J,Lei F,Liu Q,Duan Z,Ma J,Gao G F,Liu D,Liu W.Identification of climate factors related to human infection with avian influenza A H7N9and H5N1viruses in China[J].Sci Rep,2015,5:18094.

[11]Li Q,Zhou L,Zhou M,Chen Z,Li F,Wu H,Xiang N,Chen E,Tang F,Wang D,Meng L,Hong Z,Tu W,Cao Y,Li L,Ding F,Liu B,Wang M,Xie R,Gao R,Li X,Bai T,Zou S,He J,Hu J,Xu Y,Chai C,Wang S,Gao Y,Jin L,Zhang Y,Luo H,Yu H,He J,Li Q,Wang X,Gao L,Pang X,Liu G,Yan Y,Yuan H,Shu Y,Yang W,Wang Y,Wu F,Uyeki T M,Feng Z.Epidemiology of human infections with avian influenza A(H7N9)virus in China[J].N Engl J Med,2014,370(6):520-532.

[12]Shu Y.Human infection with H7N9virus[J].N Engl J Med,2013,369(9):880.

[13]Gao H N,Lu H Z,Cao B,Du B,Shang H,Gan J H,Lu S H,Yang Y D,Fang Q,Shen Y Z,Xi X M,Gu Q,Zhou X M,Qu H P,Yan Z,Li F M,Zhao W,Gao Z C,Wang G F,Ruan L X,Wang W H,Ye J,Cao H F,Li X W,Zhang W H,Fang X C,He J,Liang W F,Xie J,Zeng M,Wu X Z,Li J,Xia Q,Jin Z C,Chen Q,Tang C,Zhang Z Y,Hou B M,Feng Z X,Sheng J F,Zhong N S,Li L J.Clinical findings in111cases of influenza A(H7N9)virus infection[J].N Engl J Med,2013,368(24):2277-2285.

[14]Chen X,Yang Z,Lu Y,Xu Q,Wang Q,Chen L.Clinical features and factors associated with outcomes of patients infected with a Novel Influenza A(H7N9)virus:apreliminary study[J/OL].PLoS One,2013,8(9):e73362.

[15]Guo J,Huang F,Liu J,Chen Y,Wang W,Cao B,Zou Z,Liu S,Pan J,Bao C,Zeng M,Xiao H,Gao H,Yang S,Zhao Y,Liu Q,Zhou H,Zhu J,Liu X,Liang W,Yang Y,Zheng S,Yang J,Diao H,Su K,Shao L,Cao H,Wu Y,Zhao M,Tan S,Li H,Xu X,Wang C,Zhang J,Wang L,Wang J,Xu J,Li D,Zhong N,Cao X,Gao G F,Li L,Jiang C.The serum profile of hypercytokinemia factors identified in H7N9-infected patients can predict fatal outcomes[J].Sci Rep,2015,5:10942.

[16]Huang F,Guo J,Zou Z,Liu J,Cao B,Zhang S,Li H,Wang W,Sheng M,Liu S,Pan J,Bao C,Zeng M,Xiao H,Qian G,Hu X,Chen Y,Chen Y,Zhao Y,Liu Q,Zhou H,Zhu J,Gao H,Yang S,Liu X,Zheng S,Yang J,Diao H,Cao H,Wu Y,Zhao M,Tan S,Guo D,Zhao X,Ye Y,Wu W,Xu Y,Penninger J M,Li D,Gao G F,Jiang C,Li L.Angiotensin II plasma levels are linked to disease severity and predict fatal outcomes in H7N9-infected patients[J].Nat Commun,2014,5:3595.

[17]Wang Z,Zhang A,Wan Y,Liu X,Qiu C,Xi X,Ren Y,Wang J,Dong Y,Bao M,Li L,Zhou M,Yuan S,Sun J,Zhu Z,Chen L,Li Q,Zhang Z,Zhang X,Lu S,Doherty P C,Kedzierska K,Xu J.Early hypercytokinemia is associated with interferon-induced transmembrane protein-3dysfunction and predictive of fatal H7N9infection[J].Proc Natl Acad Sci U S A,2014,111(2):769-774.

[18]Chen Y,Li X,Tian L,Zheng S,Yang S,Dong Y,Wang Y,Cui D,Liu X,Liang W,Chen H,Li L.Dynamic behavior of lymphocyte subgroups correlates with clinical outcomes in human H7N9infection[J].J Infect,2014,69(4):358-365.

[19]Diao H,Cui G,Wei Y,Chen J,Zuo J,Cao H,Chen Y,Yao H,Tian Z,Li L.Severe H7N9infection is associated with decreased antigen-presenting capacity of CD14+cells[J/OL]. PLoS One, 2014, 9(3):e92823.

[20]Wang Z,Wan Y,Qiu C,Quinones-Parra S,Zhu Z,Loh L,Tian D,Ren Y,Hu Y,Zhang X,Thomas P G,Inouye M,Doherty P C,Kedzierska K,Xu J.Recovery from severe H7N9disease is associated with diverse response mechanisms dominated by CD8(+)T cells[J].Nat Commun,2015,6:6833.

[21]Wang Z,Zhu L,Nguyen T H O,Wan Y,Sant S,Quinones-Parra S M,Crawford J C,Eltahla A A,Rizzetto S,Bull R A,Qiu C,Koutsakos M,Clemens E B,Loh L,Chen T,Liu L,Cao P,Ren Y,Kedzierski L,Kotsimbos T,McCaw J M,La Gruta N L,Turner S J,Cheng A C,Luciani F,Zhang X,Doherty P C,Thomas P G,Xu J,Kedzierska K.Clonally diverse CD38(+)HLA-DR(+)CD8(+)T cells persist during fatal H7N9 disease[J]. Nat Commun,2018,9(1):824.

[22]Hou D,Ying T,Wang L,Chen C,Lu S,Wang Q,Seeley E,Xu J,Xi X,Li T,Liu J,Tang X,Zhang Z,Zhou J,Bai C,Wang C,Byrne-Steele M,Qu J,Han J,Song Y.Immune repertoire diversity correlated with mortality in avian influenza A(H7N9)virus infected patients[J].Sci Rep,2016,6:33843.

[23]Chen J,Cui G,Lu C,Ding Y,Gao H,Zhu Y,Wei Y,Wang L,Uede T,Li L,Diao H.Severe infection with avian influenza A virus is associated with delayed immune recovery in survivors[J/OL].Medicine(Baltimore),2016,95(5):e2606.

[24]Zhao M,Chen J,Tan S,Dong T,Jiang H,Zheng J,Quan C,Liao Q,Zhang H,Wang X,Wang Q,Bi Y,Liu F,Feng L,Horby P W,Klenerman P,Gao G F,Liu W J,Yu H.Prolonged evolution of virus-specific memory T cell immunity after severe avian influenza A(H7N9)virus infection[J/OL].J Virol,2018,92(17):e01024-18.

[25]Assarsson E,Bui H H,Sidney J,Zhang Q,Glenn J,Oseroff C,Mbawuike I N,Alexander J,Newman M J,Grey H,Sette A.Immunomic analysis of the repertoire of T-cell specificities for influenza A virus in humans[J].J Virol,2008,82(24):12241-12251.

[26]Epstein S L.Prior H1N1influenza infection and susceptibility of Cleveland Family Study participants during the H2N2pandemic of 1957:an experiment of nature[J].J Infect Dis,2006,193(1):49-53.

[27]Kreijtz J H,de Mutsert G,van Baalen C A,Fouchier R A,Osterhaus A D,Rimmelzwaan G F.Cross-recognition of avian H5N1influenza virus by human cytotoxic T-lymphocyte populations directed to human influenza A virus[J].J Virol,2008,82(11):5161-5166.

[28]Lee L Y,Ha do L A,Simmons C,de Jong M D,Chau N V,Schumacher R,Peng Y C,McMichael A J,Farrar J J,Smith G L,Townsend A R,Askonas B A,Rowland-Jones S,Dong T.Memory T cells established by seasonal human influenza A infection cross-react with avian influenza A(H5N1)in healthy individuals[J].J Clin Invest,2008,118(10):3478-3490.

[29]Liu J,Wu B,Zhang S,Tan S,Sun Y,Chen Z,Qin Y,Sun M,Shi G,Wu Y,Sun M,Liu N,Ning K,Ma Y,Gao B,Yan J,Zhu F,Wang H,Gao G F.Conserved epitopes dominate cross-CD8+T-cell responses against influenza A H1N1virus among Asian populations[J].Eur J Immunol,2013,43(8):2055-2069.

[30]Liu J,Zhang S,Tan S,Yi Y,Wu B,Cao B,Zhu F,Wang C,Wang H,Qi J,Gao G F.Cross-allele cytotoxic T lymphocyte responses against 2009pandemic H1N1influenza A virus among HLA-A24and HLAA3supertype-positive individuals[J].J Virol,2012,86(24):13281-13294.

[31]Bai T,Zhou J,Shu Y.Serologic study for influenza A(H7N9)among high-risk groups in China[J].N Engl J Med,2013,368(24):2339-2340.

[32]Zhao M,Zhang H,Liu K,Gao G F,Liu W J.Human T-cell immunity against the emerging and re-emerging viruses[J].Sci China Life Sci,2017,60(12):1307-1316.

[33]Tu W,Mao H,Zheng J,Liu Y,Chiu S S,Qin G,Chan P L,Lam K T,Guan J,Zhang L,Guan Y,Yuen K Y,Peiris J S,Lau Y L.Cytotoxic T lymphocytes established by seasonal human influenza cross-react against 2009pandemic H1N1influenza virus[J].J Virol,2010,84(13):6527-6535.

[34]Hillaire M L,Vogelzang-van Trierum S E,Kreijtz J H,de Mutsert G,Fouchier R A,Osterhaus A D,Rimmelzwaan G F.Human T-cells directed to seasonal influenza A virus cross-react with 2009pandemic influenza A(H1N1)and swine-origin triple-reassortant H3N2influenza viruses[J].J Gen Virol,2013,94(Pt3):583-592.

[35]van de Sandt C E,Kreijtz J H,de Mutsert G,Geelhoed-Mieras M M,Hillaire M L,Vogelzang-van Trierum S E,Osterhaus A D,Fouchier R A,Rimmelzwaan G F.Human cytotoxic T lymphocytes directed to seasonal influenza A viruses cross-react with the newly emerging H7N9virus[J].J Virol,2014,88(3):1684-1693.

[36]Quinones-Parra S,Grant E,Loh L,Nguyen T H,Campbell K A,Tong S Y,Miller A,Doherty P C,Vijaykrishna D,Rossjohn J,Gras S,Kedzierska K.Preexisting CD8+T-cell immunity to the H7N9influenza A virus varies across ethnicities[J].Proc Natl Acad Sci U S A,2014,111(3):1049-1054.

[37]Zhao M,Liu K,Luo J,Tan S,Quan C,Zhang S,Chai Y,Qi J,Li Y,Bi Y,Xiao H,Wong G,Zhou J,Jiang T,Liu W,Yu H,Yan J,Liu Y,Shu Y,Wu G,Wu A,Gao G F,Liu W J.Heterosubtypic protections against human-infecting avian influenza viruses correlate to biased cross-T-cell responses[J/OL].MBio,2018,9(4):e01408-18.

[38]Liu W J,Tan S,Zhao M,Quan C,Bi Y,Wu Y,Zhang S,Zhang H,Xiao H,Qi J,Yan J,Liu W,Yu H,Shu Y,Wu G,Gao G F.Cross-immunity against avian influenza A(H7N9)virus in the healthy population is affected by antigenicity-dependent substitutions[J].J Infect Dis,2016,214(12):1937-1946.

[39]McMaster S R,Gabbard J D,Koutsonanos D G,Compans R W,Tripp R A,Tompkins S M,Kohlmeier J E.Memory T cells generated by prior exposure to influenza cross react with the novel H7N9influenza virus and confer protective heterosubtypic immunity[J/OL].PLoS One,2015,10(2):e0115725.

[40]Duan S,Meliopoulos V A,McClaren J L,Guo X Z,Sanders C J,Smallwood H S,Webby R J,SchultzCherry S L,Doherty P C,Thomas P G.Diverse heterologous primary infections radically alter immunodominance hierarchies and clinical outcomes following H7N9influenza challenge in mice[J/OL].PLoS Pathog,2015,11(2):e1004642.

[41]Chen L,Zanker D,Xiao K,Wu C,Zou Q,Chen W.Immunodominant CD4+T-cell responses to influenza A virus in healthy individuals focus on matrix 1and nucleoprotein[J].J Virol,2014,88(20):11760-11773.

[42]Duvvuri V R,Duvvuri B,Alice C,Wu G E,Gubbay J B,Wu J.Preexisting CD4+T-cell immunity in human population to avian influenza H7N9virus:whole proteome-wide immunoinformatics analyses[J/OL].PLoS One,2014,9(3):e91273.

[43]Tan S,Zhang S,Wu B,Zhao Y,Zhang W,Han M,Wu Y,Shi G,Liu Y,Yan J,Wu G,Wang H,Gao G F,Zhu F,Liu W J.Hemagglutinin-specific CD4(+)T-cell responses following 2009-pH1N1 inactivated split-vaccine inoculation in humans[J].Vaccine,2017,35(42):5644-5652.

[44]Richards K A,Nayak J,Chaves F A,DiPiazza A,Knowlden Z A,Alam S,Treanor J J,Sant A J.Seasonal influenza can poise hosts for CD4T-cell immunity to H7N9avian influenza[J].J Infect Dis,2015,212(1):86-94.