Avian and swine influenza viruses: our current understanding of the zoonotic risk.

The introduction of swine or avian influenza (AI) viruses in the human population can set the stage for a pandemic, and many fear that the Asian H5N1 AI virus will become the next pandemic virus. This article first compares the pathogenesis of avian, swine and human influenza viruses in their natural hosts. The major aim was to evaluate the zoonotic potential of swine and avian viruses, and the possible role of pigs in the transmission of AI viruses to humans. Cross-species transfers of swine and avian influenza to humans have been documented on several occasions, but all these viruses lacked the critical capacity to spread from human-to-human. The extreme virulence of H5N1 in humans has been associated with excessive virus replication in the lungs and a prolonged overproduction of cytokines by the host, but there remain many questions about the exact viral cell and tissue tropism. Though pigs are susceptible to several AI subtypes, including H5N1, there is clearly a serious barrier to infection of pigs with such viruses. AI viruses frequently undergo reassortment in pigs, but there is no proof for a role of pigs in the generation of the 1957 or 1968 pandemic reassortants, or in the transmission of H5N1 or other wholly avian viruses to humans. The major conclusion is that cross-species transmission of influenza viruses per se is insufficient to start a human influenza pandemic and that animal influenza viruses must undergo dramatic but largely unknown genetic changes to become established in the human population.

[1]  Yi Guan,et al.  Fatal outcome of human influenza A (H5N1) is associated with high viral load and hypercytokinemia , 2006, Nature Medicine.

[2]  N. Cox,et al.  Lack of transmission of H5N1 avian–human reassortant influenza viruses in a ferret model , 2006, Proceedings of the National Academy of Sciences.

[3]  Yoshihiro Kawaoka,et al.  [Influenza virus receptors in the human airway]. , 2006, Uirusu.

[4]  P. Bhattarakosol,et al.  H5N1 Influenza A Virus and Infected Human Plasma , 2006, Emerging infectious diseases.

[5]  E. Holmes,et al.  Host Species Barriers to Influenza Virus Infections , 2006, Science.

[6]  Thijs Kuiken,et al.  H5N1 Virus Attachment to Lower Respiratory Tract , 2006, Science.

[7]  A. Osterhaus,et al.  Global Patterns of Influenza A Virus in Wild Birds , 2006, Science.

[8]  Yoshihiro Kawaoka,et al.  Avian flu: Influenza virus receptors in the human airway , 2006, Nature.

[9]  R. Webster,et al.  The polymerase complex genes contribute to the high virulence of the human H5N1 influenza virus isolate A/Vietnam/1203/04 , 2006, The Journal of experimental medicine.

[10]  K. Matsuda,et al.  Pathogenicity of a highly pathogenic avian influenza virus, A/chicken/Yamaguchi/7/04 (H5N1) in different species of birds and mammals , 2006, Archives of Virology.

[11]  H. Klenk,et al.  The viral polymerase mediates adaptation of an avian influenza virus to a mammalian host. , 2005, Proceedings of the National Academy of Sciences of the United States of America.

[12]  F. Hayden,et al.  Transmission of Avian Influenza Viruses to and between Humans , 2005, The Journal of infectious diseases.

[13]  Y. Guan,et al.  Are Ducks Contributing to the Endemicity of Highly Pathogenic H5N1 Influenza Virus in Asia? , 2005, Journal of Virology.

[14]  Y. Guan,et al.  Studies of H5N1 Influenza Virus Infection of Pigs by Using Viruses Isolated in Vietnam and Thailand in 2004 , 2005, Journal of Virology.

[15]  V. Martin,et al.  Origin and evolution of highly pathogenic H5N1 avian influenza in Asia , 2005, Veterinary Record.

[16]  J. Nicholls,et al.  Influenza A H5N1 Replication Sites in Humans , 2005, Emerging infectious diseases.

[17]  J. Farrar,et al.  Fatal avian influenza A (H5N1) in a child presenting with diarrhea followed by coma. , 2005, The New England journal of medicine.

[18]  M. Enserink Bird Flu Infected 1000, Dutch Researchers Say , 2004, Science.

[19]  A. Karasin,et al.  Characterization of Avian H3N3 and H1N1 Influenza A Viruses Isolated from Pigs in Canada , 2004, Journal of Clinical Microbiology.

[20]  Y. Guan,et al.  Genesis of a highly pathogenic and potentially pandemic H5N1 influenza virus in eastern Asia , 2004, Nature.

[21]  J. Peiris,et al.  Re-emergence of fatal human influenza A subtype H5N1 disease , 2004, The Lancet.

[22]  T. Kuiken,et al.  Avian influenza A virus (H7N7) associated with human conjunctivitis and a fatal case of acute respiratory distress syndrome. , 2004, Proceedings of the National Academy of Sciences of the United States of America.

[23]  M. Zambon,et al.  Influenza AH1N2 Viruses, United Kingdom, 2001–02 Influenza Season , 2003, Emerging infectious diseases.

[24]  Y. Guan,et al.  Induction of proinflammatory cytokines in human macrophages by influenza A (H5N1) viruses: a mechanism for the unusual severity of human disease? , 2002, The Lancet.

[25]  A. Takada,et al.  Seroepidemiological evidence of avian H4, H5, and H9 influenza A virus transmission to pigs in southeastern China. , 2002, Veterinary microbiology.

[26]  L. Brammer,et al.  Serologic Evidence of H1 Swine Influenza Virus Infection in Swine Farm Residents and Employees , 2002, Emerging infectious diseases.

[27]  A. Douglas,et al.  The evolution of human influenza viruses. , 2001, Philosophical transactions of the Royal Society of London. Series B, Biological sciences.

[28]  Y. Guan,et al.  Cocirculation of Avian H9N2 and Contemporary “Human” H3N2 Influenza A Viruses in Pigs in Southeastern China: Potential for Genetic Reassortment? , 2001, Journal of Virology.

[29]  M. Zambon,et al.  The pathogenesis of influenza in humans , 2001, Reviews in medical virology.

[30]  R. Sung,et al.  Pathology of fatal human infection associated with avian influenza A H5N1 virus , 2001, Journal of medical virology.

[31]  I. Brown,et al.  H4N6 influenza virus isolated from pigs in Ontario. , 2000, The Canadian veterinary journal = La revue veterinaire canadienne.

[32]  Y. Guan,et al.  Interspecies transmission of influenza viruses: H5N1 virus and a Hong Kong SAR perspective. , 2000, Veterinary microbiology.

[33]  D J Alexander,et al.  A review of avian influenza in different bird species. , 2000, Veterinary microbiology.

[34]  M. Peiris,et al.  Human infection with influenza H9N2 , 1999, The Lancet.

[35]  J. Mcghee,et al.  Heterosubtypic immunity to lethal influenza A virus infection is associated with virus-specific CD8(+) cytotoxic T lymphocyte responses induced in mucosa-associated tissues. , 1999, Virology.

[36]  Y. Guan,et al.  Characterization of avian H5N1 influenza viruses from poultry in Hong Kong. , 1998, Virology.

[37]  Yoshihiro Kawaoka,et al.  Molecular Basis for the Generation in Pigs of Influenza A Viruses with Pandemic Potential , 1998, Journal of Virology.

[38]  H. Nauwynck,et al.  Bronchoalveolar Interferon-α, Tumor Necrosis Factor-α, Interleukin-1, and Inflammation during Acute Influenza in Pigs: A Possible Model for Humans? , 1998, The Journal of infectious diseases.

[39]  F. Hayden,et al.  Local and systemic cytokine responses during experimental human influenza A virus infection. Relation to symptom formation and host defense. , 1998, The Journal of clinical investigation.

[40]  Y. Guan,et al.  Emergence of avian H1N1 influenza viruses in pigs in China , 1996, Journal of virology.

[41]  J. Banks,et al.  Avian influenza virus isolated from a woman with conjunctivitis , 1996, The Lancet.

[42]  R. Webster,et al.  Receptor specificity in human, avian, and equine H2 and H3 influenza virus isolates. , 1994, Virology.

[43]  R. Webster,et al.  Potential for transmission of avian influenza viruses to pigs. , 1994, The Journal of general virology.

[44]  W. J. Bean,et al.  Intestinal influenza: Replication and characterization of influenza viruses in ducks , 1978, Virology.

[45]  Ladodo Ks,et al.  THE PATHOGENESIS OF INFLUENZA , 1964 .

[46]  T. Uyeki Emergency Management of Infectious Diseases: Avian Influenza A (H5N1) , 2008 .

[47]  E. Thacker,et al.  Are swine workers in the United States at increased risk of infection with zoonotic influenza virus? , 2006, Clinical infectious diseases : an official publication of the Infectious Diseases Society of America.

[48]  R. Webster,et al.  Intestinal replication of influenza A viruses in two mammalian species , 2005, Archives of Virology.

[49]  I. Capua,et al.  Human Health Implications of Avian Influenza Viruses and Paramyxoviruses , 2004, European Journal of Clinical Microbiology and Infectious Diseases.

[50]  G. Koch,et al.  TRANSMISSION OF A HIGHLY PATHOGENIC AVIAN INFLUENZA VIRUS TO SWINE IN THE NETHERLANDS , 2004 .

[51]  D. Bratzler,et al.  Weekly report: Influenza summary update , 2004 .

[52]  K. Yuen,et al.  Peiris, J.S.M. et al. Re-emergence of fatal human influenza A subtype H5N1 disease. Lancet 363, 617−619 , 2004 .

[53]  M. Pensaert,et al.  Correlations between lung proinflammatory cytokine levels, virus replication, and disease after swine influenza virus challenge of vaccination-immune pigs. , 2002, Viral immunology.

[54]  J. Paulson,et al.  Sialyloligosaccharides of the respiratory epithelium in the selection of human influenza virus receptor specificity. , 1990, Acta histochemica. Supplementband.

[55]  R. Webster,et al.  Origin of the hemagglutinin gene of H3N2 influenza viruses from pigs in China. , 1988, Virology.

[56]  M. Pensaert,et al.  Evidence for the natural transmission of influenza A virus from wild ducts to swine and its potential importance for man. , 1981, Bulletin of the World Health Organization.

[57]  John E. Bennett,et al.  Principles and practice of infectious diseases. Vols 1 and 2. , 1979 .

[58]  R. G. Fraser DIAGNOSIS OF DISEASES OF THE CHEST , 1978, The Ulster Medical Journal.

[59]  K. S. Ladodo,et al.  [THE PATHOGENESIS OF INFLUENZA]. , 1964, Pediatriia.

[60]  INFLUENZA viruses. , 1952, Lancet.