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Журнал микробиологии, эпидемиологии и иммунобиологии. 2016; : 113-120

ВОЗМОЖНОСТЬ ПРЕДСКАЗАНИЯ ПАНДЕМИЙ ГРИППА

Гендон Ю. З.

https://doi.org/10.36233/0372-9311-2016-3-113-120

Аннотация

В XX и XXI вв. возникло пять пандемий гриппа. В последние годы получены данные о возможности инфицирования свиней вирусами гриппа человека и длительной циркуляции этих штаммов среди свиней с последующей инфекцией такими вирусами людей. В статье обсуждается возможность предсказания пандемий гриппа путем постоянного наблюдения и исследования вирусов гриппа, циркулирующих среди свиней.
Список литературы

1. Гендон Ю.З. Пандемия гриппа: предположения и факты. Журн. микробиол. 2008, 5: 109-118.

2. Гендон. Ю.З.Свиной грипп HlNl/Калифорния - страсти и факты. Журн. микробиол. 2010, 4: 105-114.

3. Гендон Ю.З. Эпизоотии гриппа птиц и борьба с ними. Журн. микробиол. 2006, 5: 17-28.

4. Castrucci М., Donatelli Г, Sidoil L. et al. Reassortmen between avian and human influenza A vims in Italian pigs.Virology. 1993, 193: 503-506.

5. Davenport E, Minuse E., Henessy A. et al. Interpretations influenza patterns of man. Bull. WHO. 1969,41:453-460.

6. Francis T, Shope R. Neutralization test with sera of immunized animals and the vims of swineand humans in influenza. J. Exp. Med. 1936, 63: 645-653.

7. Fanning T, Slemons R., Reid A. et al. 1917 avian influence vims sequences suggest that 1918t pandemic vims not acquire its hemagglutinin directory from birds. J. Virol. 2002, 76: 7860-7862.

8. Garten R., Davus C., Russel C. et al. Antigenic avian and genetic characteristics of swine-origin 2009 (H1N1) influenza vims circulating in humans. Science. 2009, 325: 197-201.

9. Hilleman M. Realites and enigmas of human vims influenza: pathogenesis, epidemiology and control. Vaccine. 2002, 20: 3068-3087.

10. ItoT., Couclio J., Kelm S. et al.Molecular basis for the generation in pige of influenza A vims with pandemic potential. J. Virol. 1998, 72: 7367-7373.

11. Kulbourne E. Influenza pandemics of the 20th century. Emerg. Infect. Dis. 2006, 12: 9-14.

12. Kawaoka Y., Krauss S.,Webster R. Avian to human transmission of the PB1 gene of influenza vims in the 1957 and 1968 pandemics. J. Virol. 1989, 63: 4608.

13. Kundin W. Hong Kong A-2 influenza among swine during a human epidemic in Taiwan. Nature. 1970, 228: 85.

14. Karasin A., Sutten M., Cooptr L. et al.Gentic characterization of H3N2 influenza vims isolated from pigs in North America, 1977-1999: evidence for wholly human and reassortant vims genotype. Vims Res. 2000, 68:71-85.

15. Katsuda R., Sato S., Shirahata T. et al. Antigenic and genetic characteristics of H1 N1 human influenza vims isolated from pige in Japan. J. Gen. Virol. 1995, 76: 1247-1249.

16. Masurel N., Marine W. Recycling of Asian and Hong Kong influenza A vims hemagglutinin in man. Am. J. Epidemiol. 1973, 97: 44-49.

17. Matrocovich M., Gambaryan A., Teneberg S. et al.Avian influenza virus differ from human vims by recognition of sialioligosaccaharides and gangliosides and by higher conservation of the HA receptor-binding site.Virology. 1997, 233: 224-234.

18. Matrosovich M., MatrosovichT., GrayT. et al. Human and avian influenza vimses target different cell types in cultures of human airway epitelium. Proc. Nat. Acad. Sci. USA. 2004, 101: 4620-4624.

19. Marosini S., Gregory V, Cameron K. et al. Antigenic and genetic diver-city among swine influenza A/H INI in Europe. J.Gen.Virol. 2002, 83: 735-745.

20. Nakajima K., Desselberger U., Palese P. Recent human influenza A vimses closely related genetically to strain isolated in 1950. Nature. 274: 334-339.

21. Pat oka F., Shreiber E., Kubelka V. et al. An attempt to transit the human influenza vims strain А/ Singapore/57 to swine. J. Hyg. Epidemiol. Microbiol. Immun. 1958, 2: 9-12.

22. Pan C.,Wang G., Liao M. et al. High genetic and antigenic similarity between a swine H3N2 influenza A vims and a prior human influenza vaccine virus: A possible immune pressure-drive crossspecies transmission. Bioch. Bioph. Res. Com. 2009, 385: 402-407.

23. Potter C. Chronicle of influenza pandemics. /«/Textbook of influenza. K.Nicholson, R.Webster, A.Hay (ed.). Blackwell Sci. 1998, p. 3-18.

24. Shoper R., Francis T. The susceptibility of swine to the vims of human influenza. J. Exp. Med. 1936, 64: 791-801.

25. Styk B., Subo A., Blaskovic D. Experimental infection of pigs with Hong Kong influenza vimses. Acta Virol. 1971, 15: 221-224.

26. Shinde V, BridgesC., Uyeki T. et al. Triple-reassortant swine influenza A (HI) in humans in the United States, 2005-2009. New Engl. J. Med. 2009, 360: 2616-2625.

27. Schnurrenberger F., Woods G., Martin R. Serologic evidence of human infection with swine influenza vims. Am. Rev. Respir. 1970, 102: 356-360.

28. Scholtissek C., Rhode W., Hoyningen V. et al. On the origin of the human influenza vims subtype H2N2 and H3N2. Virology. 1978, 87: 13-20.

29. Taubenberger J., Reid A., Lowrens R. et al. Characterisation of the 1918 influenza virus polymerase genes. Nature. 2005, 437: 889-893.

30. Taubenberger J. The origin and virulence of the 1918 «Spanish» influenza virus. Proc. Am. Phil. Soc. 2006,150: 86-112.

31. Top F., Russell P. Swine influenza A at Fort Dix, New Jersey. Summary and speculation. J. Infect. Dis. 1977, 136: 379-380.

32. WHO. Pandemic (H1N1)2009 -update 58: http.//www.who.int/csr/disease/swineflu/en/index. html.

33. WHO. New influenza A(H1N1) virus : global epidemiological situation. Weekly Epidemiol. Rec. 2009, 84: 249-257.

34. WHO. Influenza vaccines. WHO position paper. Weekly Epidemiol. Rec. 2005, 80: 306-308.

Journal of microbiology, epidemiology and immunobiology. 2016; : 113-120

POSSIBILITY OF INFLUENZA PANDEMIC PREDICTION

Ghendon Yu. Z.

https://doi.org/10.36233/0372-9311-2016-3-113-120

Abstract

Five influenza pandemics emerged in the 20th and 21st centuries. Data regarding possibility of infection of swine with human influenza viruses and persistent circulation of these strains among swine with subsequent infection of humans with these viruses were obtained in the recent years. A possibility of prediction of influenza pandemics by constant observation and study of influenza viruses circulating among swine is discussed in the paper.
References

1. Gendon Yu.Z. Pandemiya grippa: predpolozheniya i fakty. Zhurn. mikrobiol. 2008, 5: 109-118.

2. Gendon. Yu.Z.Svinoi gripp HlNl/Kaliforniya - strasti i fakty. Zhurn. mikrobiol. 2010, 4: 105-114.

3. Gendon Yu.Z. Epizootii grippa ptits i bor'ba s nimi. Zhurn. mikrobiol. 2006, 5: 17-28.

4. Castrucci M., Donatelli G, Sidoil L. et al. Reassortmen between avian and human influenza A vims in Italian pigs.Virology. 1993, 193: 503-506.

5. Davenport E, Minuse E., Henessy A. et al. Interpretations influenza patterns of man. Bull. WHO. 1969,41:453-460.

6. Francis T, Shope R. Neutralization test with sera of immunized animals and the vims of swineand humans in influenza. J. Exp. Med. 1936, 63: 645-653.

7. Fanning T, Slemons R., Reid A. et al. 1917 avian influence vims sequences suggest that 1918t pandemic vims not acquire its hemagglutinin directory from birds. J. Virol. 2002, 76: 7860-7862.

8. Garten R., Davus C., Russel C. et al. Antigenic avian and genetic characteristics of swine-origin 2009 (H1N1) influenza vims circulating in humans. Science. 2009, 325: 197-201.

9. Hilleman M. Realites and enigmas of human vims influenza: pathogenesis, epidemiology and control. Vaccine. 2002, 20: 3068-3087.

10. ItoT., Couclio J., Kelm S. et al.Molecular basis for the generation in pige of influenza A vims with pandemic potential. J. Virol. 1998, 72: 7367-7373.

11. Kulbourne E. Influenza pandemics of the 20th century. Emerg. Infect. Dis. 2006, 12: 9-14.

12. Kawaoka Y., Krauss S.,Webster R. Avian to human transmission of the PB1 gene of influenza vims in the 1957 and 1968 pandemics. J. Virol. 1989, 63: 4608.

13. Kundin W. Hong Kong A-2 influenza among swine during a human epidemic in Taiwan. Nature. 1970, 228: 85.

14. Karasin A., Sutten M., Cooptr L. et al.Gentic characterization of H3N2 influenza vims isolated from pigs in North America, 1977-1999: evidence for wholly human and reassortant vims genotype. Vims Res. 2000, 68:71-85.

15. Katsuda R., Sato S., Shirahata T. et al. Antigenic and genetic characteristics of H1 N1 human influenza vims isolated from pige in Japan. J. Gen. Virol. 1995, 76: 1247-1249.

16. Masurel N., Marine W. Recycling of Asian and Hong Kong influenza A vims hemagglutinin in man. Am. J. Epidemiol. 1973, 97: 44-49.

17. Matrocovich M., Gambaryan A., Teneberg S. et al.Avian influenza virus differ from human vims by recognition of sialioligosaccaharides and gangliosides and by higher conservation of the HA receptor-binding site.Virology. 1997, 233: 224-234.

18. Matrosovich M., MatrosovichT., GrayT. et al. Human and avian influenza vimses target different cell types in cultures of human airway epitelium. Proc. Nat. Acad. Sci. USA. 2004, 101: 4620-4624.

19. Marosini S., Gregory V, Cameron K. et al. Antigenic and genetic diver-city among swine influenza A/H INI in Europe. J.Gen.Virol. 2002, 83: 735-745.

20. Nakajima K., Desselberger U., Palese P. Recent human influenza A vimses closely related genetically to strain isolated in 1950. Nature. 274: 334-339.

21. Pat oka F., Shreiber E., Kubelka V. et al. An attempt to transit the human influenza vims strain A/ Singapore/57 to swine. J. Hyg. Epidemiol. Microbiol. Immun. 1958, 2: 9-12.

22. Pan C.,Wang G., Liao M. et al. High genetic and antigenic similarity between a swine H3N2 influenza A vims and a prior human influenza vaccine virus: A possible immune pressure-drive crossspecies transmission. Bioch. Bioph. Res. Com. 2009, 385: 402-407.

23. Potter C. Chronicle of influenza pandemics. /«/Textbook of influenza. K.Nicholson, R.Webster, A.Hay (ed.). Blackwell Sci. 1998, p. 3-18.

24. Shoper R., Francis T. The susceptibility of swine to the vims of human influenza. J. Exp. Med. 1936, 64: 791-801.

25. Styk B., Subo A., Blaskovic D. Experimental infection of pigs with Hong Kong influenza vimses. Acta Virol. 1971, 15: 221-224.

26. Shinde V, BridgesC., Uyeki T. et al. Triple-reassortant swine influenza A (HI) in humans in the United States, 2005-2009. New Engl. J. Med. 2009, 360: 2616-2625.

27. Schnurrenberger F., Woods G., Martin R. Serologic evidence of human infection with swine influenza vims. Am. Rev. Respir. 1970, 102: 356-360.

28. Scholtissek C., Rhode W., Hoyningen V. et al. On the origin of the human influenza vims subtype H2N2 and H3N2. Virology. 1978, 87: 13-20.

29. Taubenberger J., Reid A., Lowrens R. et al. Characterisation of the 1918 influenza virus polymerase genes. Nature. 2005, 437: 889-893.

30. Taubenberger J. The origin and virulence of the 1918 «Spanish» influenza virus. Proc. Am. Phil. Soc. 2006,150: 86-112.

31. Top F., Russell P. Swine influenza A at Fort Dix, New Jersey. Summary and speculation. J. Infect. Dis. 1977, 136: 379-380.

32. WHO. Pandemic (H1N1)2009 -update 58: http.//www.who.int/csr/disease/swineflu/en/index. html.

33. WHO. New influenza A(H1N1) virus : global epidemiological situation. Weekly Epidemiol. Rec. 2009, 84: 249-257.

34. WHO. Influenza vaccines. WHO position paper. Weekly Epidemiol. Rec. 2005, 80: 306-308.