Influenza virus transmission (experimental data)

I V Kiseleva; Киселева И В; N V Larionova; Ларионова Наталья Валентиновна; E A Bazhenova; Баженова Е А; I A Dubrovina; Дубровина И А; I N Isakova-Sivak; Исакова-Сивак И Н; E P Grigorieva; Григорьева Е П; S A Donina; Донина С А; L G Rudenko; Руденко Л Г

doi:10.17816/MAJ104240-248

Influenza virus transmission (experimental data)

Authors: Kiseleva IV¹, Larionova NV¹, Bazhenova EA¹, Dubrovina IA¹, Isakova-Sivak IN¹, Grigorieva EP¹, Donina SA¹, Rudenko LG¹
Affiliations:
1. ГУ «Научно-исследовательский институт экспериментальной медицины СЗО РАМН»
Issue: Vol 10, No 4 (2010)
Pages: 240-248
Section: Articles
URL: https://ogarev-online.ru/MAJ/article/view/10101
DOI: https://doi.org/10.17816/MAJ104240-248
ID: 10101

Cite item

Abstract

Person-to-person transmission plays key role to seasonal and pandemic influenza virus spread. There is a need to better understand the transmission of influenza viruses so that we may improve methods for their control and prevention. At present, vaccination with live influenza vaccines has been used as an effective public health tool for influenza prophylaxis. Thus study of potential possibility of reassortment of circulating influenza viruses with live influenza vaccine viruses followed by vaccination is extremely important. In this study the ability of pig-to-pig transmission of H5N1 and novel pandemic H1N1 viruses was studied. The efficacy of vaccination with cold-adapted influenza viruses in blocking the transmission of wild type influenza viruses between guinea pigs was also examined. The results shown are H5N1 virus is highly contagious agent w//ch can be transmit both between co-caged naïve guinea pigs and individuals separated from infected animals at a distance of 4-5 meters. The relative mildness of the pandemic 2009 (H1N1) swine influenza virus transmission between guinea pigs compared to H5N1 virus was demonstrated. Data indicated that interference between cold-adapted and wild type influenza viruses had taken place. These findings open up new prospects in live influenza pandemic vaccine preparedness and confirmed weakness of fear that large scale vaccination of population with live attenuated influenza vaccine may lead to generation of reassortant «mutants-killers» possessed abnormally high level of pathogenicity.

Keywords

transmission, influenza virus, live attenuated influenza vaccine

Full Text

##article.viewOnOriginalSite##

References

Александрова Г.И., Климов А.И. Живая вакцина против гриппа. СПб.: Наука, 1994.
Батенева Т. 22 миллиона россиян вооружат против гриппа 2006 // Электронный портал «Известия науки» от 22.09.2006. http://vww.inauka.ru/health/ article67790.html.
Правила проведения работ с использованием экспериментальных животных // Приказ Минздрава РФ №266 (Правила клинической практики в Российской Федерации) от 19.06.2003.23 с. http://www. soramn.ru/3/prikaz2003.pdf.
Чего больше от вакцинации пользы или вреда? // Электронное периодическое издание «РИАН.Ру» от 13.10.2006. http://www.rian.ru/society/20061013/ 54786587.html.
Davenport F.M., Hennessy A.V., Maassab H.F. et al. Pilot studies on recombinant cold-adapted live type A and В influenza virus vaccines // J. Infect. Dis. 1977. Vol. 136. № l.P. 17-25.
Herlocher M.L., Elias S., Truscon R. et al. Ferrets as a transmission model for influenza: sequence changes in HA1 of type A (H3N2) virus // J. Infect. Dis. 2001. Vol. 184. № 5. P. 542-546.
Kiseleva I., Klimov A., Su Q. et al. Role of individual genes of the A/Leningrad/134/17/57 (H2N2) cold-adapted donor strain in manifestation of the temperature sensitive phenotype of reassortant influenza A viruses // Y. Kawaoka (ed.), Proceedings of "Options for the Control of Influenza V". Okinawa. Japan. 7-11 October, 2003. Amsterdam: Elsevier. 2004. P. 547-550.
Kiseleva I., Voeten J.T.M., Teley L.C.P. et al. PB2 and PA genes control the expression of the temperature sensitive phenotype of cold-adapted B/USSR/60/69 influenza master donor vims // J. Gen. Virol. 2010. Vol. 91. P. 931-937.
Klimov A.I., Cox N.J. PCR restriction analysis of genome composition and stability of cold-adapted reassortant live influenza vaccines // J. Virol. Methods. 1995. Vol. 52. P. 41-49.
Lin Y.P., Gregory V., Bennett M., Hay A. Recent changes among human influenza viruses // Vims Res. 2004. Vol. 103. № 1-2. P. 47-52.
Lowen A.C., Mubareka S., Tumpey T.M. et al. The guinea pig as a transmission model for human influenza viruses // Proc. Natl. Acad. Sei. USA. 2006. Vol. 103. №26. P. 9988-9992.
Lowen A.C., Steel J., Mubareka S. et al. Blocking interhost transmission of influenza vims by vaccination in the guinea pig model // J. Virol. 2009. Vol. 83. № 7. P. 2803-2818.
Maassab H.F. Adaptation and growth characteristic of influenza virus at 25 degrees С // Nature. 1967. Vol. 213. P. 612-614.
Maassab H.F., DeBorde D.C. Development and characterization of cold-adapted vimses for use as live vims vaccines // Vaccine. 1985. Vol. 3. № 5. P. 355-369.
Maines T.R., Chen L.M., Matsuoka Y. et al. Lack of transmission of H5N1 avian-human réassortant influenza viruses in a ferret model // Proc. Natl. Acad. Sci. USA. 2006. Vol. 103. №32. P. 12121-12126.
McCullers J.A., Wang G.C., He S., Webster R.G. Re-assortment and insertion-deletion are strategics for the evolution of influenza В viruses in nature // J. Virol. 1999. Vol. 73. № 9. P. 7343-7348.
Neumann G., Noda T., Kawaoka Y. Emergence and pandemic potential of swine-origin H1N1 influenza vims // Nature. 2009. Vol. 459. № 7249. P. 931-939.
Padlan E.A. The pandemic 2009 (H1NI) swine influenza vims is mild compared to the pandemic 1918 (H1N1 ) vims because of a proline-to-serine substitution in the receptor-binding site of its hemagglutinin -a hypothesis // Med. Hypotheses. 2010. Vol. 74. № 2. P. 240-241.
Rudenko L.G., Lonskaya N.I., Klimov A.I. et al. Clinical and epidemiological evaluation of a live, cold-adapted influenza vaccine for 3-14-year-olds // Bull. World Health Organ. 1996. Vol. 74. № 1. P. 77-84.
Russell M.L., Keenliside J., Webby R. et al. Protocol: transmission and prevention of influenza in Hutterites: zoonotic transmission of influenza A: swine & swine workers // BMC Public. Health. 2009. Vol. 9. № 420. P. 1-6.
Schulman J.L. The use of an animal model to study transmission of influenza vims infection // Am. J. Public. Health. 1968. Vol. 58. P. 2092-2096.
Schulman J.L., Kilbourne E.D. Airborne transmission of influenza vims infection in mice // Nature. 1962. Vol. 195. P. 1129-1130.
Steel J., Staeheli P., Mubareka S. et al. Transmission of pandemic H1N1 influenza vims and impact of prior exposure to seasonal strains or interferon treatment // J. Virol. 2010. Vol. 84. № I. P. 21-26.
Tsai H.P., Wang H.C., Kiang D. et al. Increasing appearance of reassortant influenza В virus in Taiwan from 2002 to 2005 // J. Clin. Microbiol. 2006. Vol. 44. №8.P. 2705-2713.
Thompson W.W., Moore M.R., Weintraub E. et al. Estimating influenza-associated deaths in the United States //Am. J. Public. Health. 2009. Suppl. 2. P. S225-S230.
Thompson W.W., Shay D.K., Weintraub E. et al. Mortality associated with influenza and respiratory syncytial virus in the United States // JAMA. 2003. Vol. 289. №2. P. 179-186.
Ungchusak K., Auewarakul P., Dowell S.F. et al. Probable person-to-person transmission of avian influenza A (H5N1 ) // N. Engl. J. Med. 2005. Vol. 352. № 4. P. 333-340.
Vesikari T., Karvonen A., Korhonen T. et al. A randomized, double-blind study of the safety, transmissibility and phenotypic and genotypic stability of cold-adapted influenza virus vaccine // Pediatr. Infect. Dis. J. 2006. Vol. 25. № 7. P. 590-595.
Wang H., Feng Z., Shu Y. et al. Probable limited person-to-person transmission of highly pathogenic avian influenza A (H5N1 ) virus in China // Lancet. 2008. Vol. 371. № 9622. P. 1427-1434.
WHO. Initiative for Vaccine Research (IVR). Options for Live Attenuated Influenza Vaccines (LAIV) In the Control of Epidemic and Pandemic Influenza 12-13 June 2007// http://www.who.int/vaccine_research/diseases/ini1uenza/meeting_! 20707/en/indcx.htmI
WHO. Global alert and response (GAR). Confirmed Human Cases of Avian Influenza A (H5N1 ) // http:// www.who.int/csr/disease/avian_influenza/country/en/
WHO manual on animal influenza diagnosis and surveillance. Edition of 2002. http://www.wpro.w'ho.int/ intemet/rcsources.ashx/CSR/Publications/manual+on +animai+ai+diagnosis+and+surveillance.pdf
WHO. Progress in pandemic influenza vaccine preparedness (24 February 2009) // http://wwwv.who.int/ immunization/new'sroom/medianote_progress_Pandemic_influenza_feb09/en/index.html
Yen H.L., Lipatov A.S., Ilyushina N.A. et al. Inefficient transmission of H5N1 influenza viruses in a ferret contact model // Virol. 2007. Vol. 81. № 13. P. 6890-6898.
Zitzow L.A., Rowe T., Morken T. et al. Pathogenesis of avian influenza A (H5N1 ) viruses in ferrets // J. Virol. 2002. Vol. 76. № 9. P. 4420-4429.

Supplementary files

Supplementary Files

Action

1. JATS XML

Download

Username
Password
Remember me

Forgot password?	Register

Username
Password
Remember me

Forgot password?	Register

Influenza virus transmission (experimental data)

Full Text

Abstract

Keywords

Full Text

About the authors

References

Supplementary files