Abstract
Despite extensive planning for the next influenza pandemic in humans, nature has once again confounded the influenza experts. The emergence and development of an H1N1 pandemic strain while an H1N1 virus was still circulating in humans is an unprecedented event. Here, we examine the emergence of H1N1 influenza viruses in the USA, Europe, and Asia from the natural aquatic bird reservoir through intermediate hosts including pigs and turkeys to humans. There were some remarkable parallel evolutionary developments in the swine influenza viruses in the Americas and in Eurasia. Classical swine influenza virus in the USA emerged either before or immediately after the Spanish influenza virus emerged in humans in 1918. Over the next 50 plus years this swine influenza virus became increasingly attenuated in pigs but occasionally transmitted to humans causing mild clinical infection but did not consistently spread human to human. The remarkable parallel evolution was the introduction of avian influenza virus genes independently in swine influenza viruses in Europe and the USA, with almost simultaneous acquisition of genes from seasonal human influenza. Influenza in pigs in both Eurasia and America became more aggressive necessitating the production of vaccines, and the incidence of transmission of clinical influenza to humans increased. Eventually the different triple reassortants with gene segments from avian, swine, and human influenza viruses in pigs in Europe and America met and mated and developed into the 2009 pandemic H1N1 influenza that is highly transmissible in people, pigs, and turkeys. Whether this occurred in Mexico or in Asia is currently unknown. The failure of the experts was to not recognize the importance of pigs in the evolution and host range transmission of influenza viruses with pandemic potential.
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References
de Jong JC, Claas EC, Osterhaus AD, Webster RG, Lim WL (1997) A pandemic warning? Nature 389:554
Peiris JS, de Jong MD, Guan Y (2007) Avian influenza virus (H5N1): a threat to human health. Clin Microbiol Rev 20:243–267
Slemons RD, Johnson DC, Osborn JS, Hayes F (1974) Type A influenza viruses from wild free-flying ducks in California. Avian Dis 18:119–124
Webster RG, Bean WJ, Gorman OT, Chambers TM, Kawaoka Y (1992) Evolution and ecology of influenza A viruses. Microbiol Rev 56:152–179
Olsen B, Munster VJ, Wallensten A, Waldenström J, Osterhaus AD, Fouchier RA (2006) Global patterns of influenza A virus in wild birds. Science 312:384–388
Stallknecht DE, Kearny SSM, MT ZPJ (1990) Persistence of avian influenza viruses in water. Avian Dis 34:406–411
Kawaoka Y, Krauss S, Webster RG (1989) Avian-to-human transmission of the PB1 gene of influenza A viruses in the 1957 and 1968 pandemics. J Virol 63:4603–4608
Taubenberger JK, Reid AH, Fanning TG (2000) The 1918 influenza virus: a killer comes into view. Virology 274:241–245
Nakajima K, Desselberger U, Palese P (1978) Recent human influenza A (H1N1) viruses are closely related genetically to strains isolated in 1950. Nature 274:334–339
Scholtissek C (1990) Pigs as the “mixing vessel” for the creation of new pandemic influenza A viruses. Med Princ Pract 2:65–71
Ito T, Couceiro JN, Kelm S, Baum LG, Krauss S, Castrucci MR, Donatelli I, Kida H, Paulson JC, Webster RG, Kawaoka Y (1998) Molecular basis for the generation in pigs of influenza A viruses with pandemic potential. J Virol 72:7367–7373
Kida H, Ito T, Yasuda J, Shimizu Y, Itakura C, Shortridge KF, Kawaoka Y, Webster RG (1994) Potential for transmission of avian influenza viruses to pigs. J Gen Virol 75:2183–2188
Matrosovich MN, Krauss S, Webster RG (2001) H9N2 influenza A viruses from poultry in Asia have human virus-like receptor specificity. Virology 281:156–162
Humberd J, Guan Y, Webster RG (2006) Comparison of the replication of influenza A viruses in Chinese ring-necked pheasants and chukar partridges. J Virol 80:2151–2161
Webster RG (2004) Wet markets – a continuing source of severe acute respiratory syndrome and influenza? Lancet 363:234–236
Kung NY, Guan Y, Perkins NR, Bissett L, Ellis T, Sims L, Morris RS, Shortridge KF, Peiris JS (2003) The impact of a monthly rest day on avian influenza virus isolation rates in retail live poultry markets in Hong Kong. Avian Dis 47:1037–1041
Taubenberger JK, Morens DM (2006) 1918 Influenza: the mother of all pandemics. Emerg Infect Dis 12:15–22
Smith GJ, Bahl J, Vijaykrishna D, Zhang J, Poon LL, Chen H, Webster RG, Peiris JS, Guan Y (2009) Dating the emergence of pandemic influenza viruses. Proc Natl Acad Sci USA 106:11709–11712
Shope RE (1931) Swine influenza. III. Filtration experiments and aetiology. J Exp Med 54:373–385
Easterday BC, Hinshaw VS (1992) Swine influenza. In: Leman AD, Straw BE, Mengeling WL, D’Allaire SD, Taylor DJ (eds) Diseases of swine, 7th edn. Iowa State University Press, Ames, pp 349–357
Easterday BC (1981) Swine influenza. In: Leman AD, Glock RD, Mengeling WL, Penny RHC, Scholl E, Straw B (eds) Diseases of swine, 5th edn. Iowa State University Press, Ames, pp 184–194
Myers KP, Olsen CW, Gray GC (2007) Cases of swine influenza in humans: a review of the literature. Clin Infect Dis 44:1084–1088
Top FH Jr, Russell PK (1977) Swine influenza A at Fort Dix, New Jersey (January–February 1976). IV. Summary and speculation. J Infect Dis 136:S376–S380
Langmuir AD (1979) Guillain–Barré syndrome: the swine influenza virus vaccine incident in the United States of America, 1976–77: preliminary communication. J R Soc Med 72:660–669
Langmuir AD, Bregman DJ, Kurland LT, Nathanson N, Victor M (1984) An epidemiologic and clinical evaluation of Guillain–Barré syndrome reported in association with the administration of swine influenza vaccines. Am J Epidemiol 119:841–879
Hinshaw VS, Webster RG, Bean WJ, Downie J, Senne DA (1983) Swine influenza-like viruses in turkeys: potential source of virus for humans? Science 220:206–208
Wright SM, Kawaoka Y, Sharp GB, Senne DA, Webster RG (1992) Interspecies transmission and reassortment of influenza A viruses in pigs and turkeys in the United States. Am J Epidemiol 136:488–497
Zhou NN, Senne DA, Landgraf JS, Swenson SL, Erickson G, Rossow K et al (1999) Genetic reassortment of avian, swine, and human influenza A viruses in American pigs. J Virol 73:8851–8856
Webby RJ, Swenson SL, Krauss SL, Gerrish PJ, Goyal SM, Webster RG (2000) Evolution of swine H3N2 influenza viruses in the United States. J Virol 74:8243–8251
Nardelli L, Pascucci S, Gualandi GL, Loda P (1978) Outbreaks of classical swine influenza in Italy in 1976. Zentralbl Veterinärmed B 25:853–857
Pensaert M, Ottis K, Vandeputte J, Kaplan MM, Bachmann PA (1981) Evidence for the natural transmission of influenza A virus from wild ducts to swine and its potential importance for man. Bull World Health Organ 59:75–78
Castrucci MR, Donatelli I, Sidoli L, Barigazzi G, Kawaoka Y, Webster RG (1993) Genetic reassortment between avian and human influenza A viruses in Italian pigs. Virology 193:503–506
Campitelli L, Donatelli I, Foni E, Castrucci MR, Fabiani C, Kawaoka Y, Krauss S, Webster RG (1997) Continued evolution of H1N1 and H3N2 influenza viruses in pigs in Italy. Virology 232:310–318
Claas EC, Kawaoka Y, de Jong JC, Masurel N, Webster RG (1994) Infection of children with avian–human reassortant influenza virus from pigs in Europe. Virology 204:453–457
Brown IH, Harris PA, McCauley JW, Alexander DJ (1998) Multiple genetic reassortment of avian and human influenza A viruses in European pigs, resulting in the emergence of an H1N2 virus of novel genotype. J Gen Virol 79:2947–2955
Zell R, Motzke S, Krumbholz A, Wutzler P, Herwig V, Durrwald R (2008) Novel reassortant of swine influenza H1N2 virus in Germany. J Gen Virol 89:271–276
Kundin WD (1970) Hong Kong A-2 influenza virus infection among swine during a human epidemic in Taiwan. Nature 228:857
Yu H, Zhang GH, Hua RH, Zhang Q, Liu TQ, Liao M, Tong GZ (2007) Isolation and genetic analysis of human origin H1N1 and H3N2 influenza viruses from pigs in China. Biochem Biophys Res Commun 356:91–96
Lee CS, Kang BK, Kim HK, Park SJ, Park BK, Jung K, Song DS (2008) Phylogenetic analysis of swine influenza viruses recently isolated in Korea. Virus Genes 37:168–176
Guan Y, Shortridge KF, Krauss S, Li PH, Kawaoka Y, Webster RG (1996) Emergence of avian H1N1 influenza viruses in pigs in China. J Virol 70:8041–8046
Chutinimitkul S, Thippamom N, Damrongwatanapokin S, Payungporn S, Thanawongnuwech R, Amonsin A et al (2008) Genetic characterization of H1N1, H1N2 and H3N2 swine influenza virus in Thailand. Arch Virol 153:1049–1056
Takemae N, Parchariyanon S, Damrongwatanapokin S, Uchida Y, Ruttanapumma R, Watanabe C et al (2008) Genetic diversity of swine influenza viruses isolated from pigs during 2000 to 2005 in Thailand. Influenza Other Respi Viruses 2:181–189
Komadina N, Roque V, Thawatsupha P, Rimando-Magalong J, Waicharoen S, Bomasang E et al (2007) Genetic analysis of two influenza A (H1) swine viruses isolated from humans in Thailand and the Philippines. Virus Genes 35:161–165
Choi YK, Nguyen TD, Ozaki H, Webby RJ, Puthavathana P, Buranathal C et al (2005) Studies of H5N1 influenza virus infection of pigs by using viruses isolated in Vietnam and Thailand in 2004. J Virol 79:10821–10825
Takano R, Nidom CA, Kiso M, Muramoto Y, Yamada S, Shinya K et al (2009) A comparison of the pathogenicity of avian and swine H5N1 influenza viruses in Indonesia. Arch Virol 154:677–681
Cong YL, Pu J, Liu QF, Wang S, Zhang GZ, Zhang XL et al (2007) Antigenic and genetic characterization of H9N2 swine influenza viruses in China. J Gen Virol 88:2035–2041
Tumpey TM, Basler CF, Aguilar PV, Zeng H, Solórzano A, Swayne DE, Cox NJ, Katz JM, Taubenberger JK, Palese P, García-Sastre A (2005) Characterization of the reconstructed 1918 Spanish influenza pandemic virus. Science 310:77–80
Tumpey TM, García-Sastre A, Taubenberger JK, Palese P, Swayne DE, Pantin-Jackwood MJ, Schultz-Cherry S, Solórzano A, Van Rooijen N, Katz JM, Basler CF (2005) Pathogenicity of influenza viruses with genes from the 1918 pandemic virus: functional roles of alveolar macrophages and neutrophils in limiting virus replication and mortality in mice. J Virol 79:14933–14944
Kobasa D, Jones SM, Shinya K, Kash JC, Copps J, Ebihara H, Hatta Y, Kim JH, Halfmann P, Hatta M, Feldmann F, Alimonti JB, Fernando L, Li Y, Katze MG, Feldmann H, Kawaoka Y (2007) Aberrant innate immune response in lethal infection of macaques with the 1918 influenza virus. Nature 445:319–323
Garten RJ, Davis CT, Russell CA, Shu B, Lindstrom S, Balish A, Sessions WM, Xu X, Skepner E, Deyde V, Okomo-Adhiambo M, Gubareva L, Barnes J, Smith CB, Emery SL, Hillman MJ, Rivailler P, Smagala J, de Graaf M, Burke DF, Fouchier RA, Pappas C, Alpuche-Aranda CM, López-Gatell H, Olivera H, López I, Myers CA, Faix D, Blair PJ, Yu C, Keene KM, Dotson PD Jr, Boxrud D, Sambol AR, Abid SH, St George K, Bannerman T, Moore AL, Stringer DJ, Blevins P, Demmler-Harrison GJ, Ginsberg M, Kriner P, Waterman S, Smole S, Guevara HF, Belongia EA, Clark PA, Beatrice ST, Donis R, Katz J, Finelli L, Bridges CB, Shaw M, Jernigan DB, Uyeki TM, Smith DJ, Klimov AI, Cox NJ (2009) Antigenic and genetic characteristics of swine-origin 2009 A(H1N1) influenza viruses circulating in humans. Science 325:197–201
Neumann G, Noda T, Kawaoka Y (2009) Emergence and pandemic potential of swine-origin H1N1 influenza virus. Nature 459:931–939
Centers for Disease Control and Prevention (CDC) (2009) Serum cross-reactive antibody response to a novel influenza A (H1N1) virus after vaccination with seasonal influenza vaccine. MMWR Morb Mortal Wkly Rep 58:521–524
Acknowledgments
This study was supported by contract HHSN266200700005C from the National Institute of Allergy and Infectious Diseases, National Institutes of Health, Department of Health and Human Services, and the American Lebanese Syrian Associated Charities (ALSAC). The authors thank James Knowles for help with manuscript preparation and Elizabeth Stevens for the figures. Biomedical Advanced Research and Development Authority (BARDA) provided support for Robert G. Webster and Michael Perdue.
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Webster, R.G., Webby, R.J., Perdue, M. (2011). The Origin and Evolution of H1N1 Pandemic Influenza Viruses. In: Rappuoli, R., Del Giudice, G. (eds) Influenza Vaccines for the Future. Birkhäuser Advances in Infectious Diseases. Springer, Basel. https://doi.org/10.1007/978-3-0346-0279-2_4
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