Your search keyword '"Proshina, E. S."' showing total 26 results

1. Peculiarities of the influenza and ARVI viruses circulation during epidemic season 2019–2020 in some regions of Russia

Author

L’vov, D. K., primary, Burtseva, E. I., additional, Kolobukhina, L. V., additional, Fedyakina, I. T., additional, Bovin, N. V., additional, Ignatjeva, A. V., additional, Krasnoslobodtsev, K. G., additional, Feodoritova, E. L., additional, Trushakova, S. V., additional, Breslav, N. V., additional, Merkulova, L. N., additional, Mukasheva, E. A., additional, Khlopova, I. N., additional, Voronina, O. L., additional, Aksyonova, E. I., additional, Kunda, M. S., additional, Ryzhova, N. N., additional, Vartanjan, R. V., additional, Kistenyova, L. B., additional, Kirillov, I. M., additional, Proshina, E. S., additional, Rosatkevich, A. G., additional, Kruzhkova, I. S., additional, Zaplatnikov, A. L., additional, Bazarova, M. V., additional, Smetanina, S. V., additional, Kharlamov, M. V., additional, Karpov, N. L., additional, and Shikhin, A. V., additional

Published

2021

2. ANTIVIRAL EFFECT OF «KAGOCEL» SUBSTANCE IN VITRO ON INFLUENZA VIRUSES H1N1, H1N1PDM09 AND H3N2

Author

Fediakina, I. T., primary, Konopleva, M. V., additional, Proshina, E. S., additional, Linnik, E. V., additional, and Nikitina, N. I., additional

Published

2019

3. EVOLUTION OF PANDEMIC INFLUENZA VIRUS A(H1N1)PDM09 IN 2009-2016: DYNAMICS OF RECEPTOR SPECIFICITY OF THE FIRST HEMAGGLUTININ SUBUNIT (HA1)

Author

Lvov, D. K., primary, Bogdanova, V. S., additional, Kirillov, I. M., additional, Shchelkanov, M. Yu., additional, Burtseva, E. I., additional, Bovin, N. V., additional, Fedyakina, I. T., additional, Prilipov, A. G., additional, Alhovsky, S. V., additional, Samokhvalov, E. I., additional, Proshina, E. S., additional, Kirillova, E. S., additional, and Syroeshkin, A. V., additional

Published

2019

4. [The peculiarities of the influenza epidemics in some areas of Russia during 2012-2013 season. The influenza A (H1N1) pdm09 virus domination in European countries]

Author

Lvov, D. K., Burtseva, E. I., Shchelkanov, M. Yu, Kolobukhina, L. V., Feodoritova, E. L., Trushakova, S. V., Kirillova, E. S., Breslav, N. V., Beljaev, A. L., Merkulova, L. N., Vartanian, R. V., Fedyakina, I. T., Bogdanova, V. S., Proshina, E. S., Kirillov, I. M., Kisteneva, L. B., Ivanova, V. T., Oskerko, T. A., Silujanova, E. V., Evgeniya Mukasheva, Krasnoslobotsev, K. G., Lavrischeva, V. V., Alkhovsky, S. V., Prilipov, A. G., Samokhvalov, E. I., Aristova, V. A., Morozova, T. N., Garina, E. O., and Malishev, N. A.

Subjects

Europe, Influenza A Virus, H1N1 Subtype, Influenza, Human, Humans, Epidemics, Antiviral Agents, Russia

Abstract

The peculiarities of the influenza viruses circulation in 2012-2013 are discussed. The results were obtained in 10 cities of Russia, where basic laboratories of the Influenza Ecology and Epidemics Center of on the basis of Ivanovsky Institute of Virology, Ministry of Health of the Russian Federation, are situated. The increasing rate of the ARD morbidity caused by influenza viruses was observed in January-March 2013. The highest indices of the morbidity were detected during 6-7 weeks with the following decreasing rate till threshold levels to week 14. The influenza A (H1N1) pdm09, A (H3N2), and B viruses were the cause of the epidemic, but their activity differed over areas of Russia. The results of study of the antigenic and genetic properties of the influenza strains demonstrated closed relatives with respect to vaccine strains. In addition, some heterogeneity of the circulating strains and their drift variants were found as well. All tested strains were sensitive to oseltamivir (excluding one A (H1N1) pdm09 strain), zanamivir, arbidol, and remained resistant to rimantadine. The ratio of the ARD viruses was comparable with the last epidemic seasons.

Published

2014

5. Influenza epidemic development in some regions of Russia and in countries of the North hemisphere during 2013-2014

Author

Lvov, D. K., Burtseva, E. I., Shchelkanov, M. Yu, Kolobukhina, L. V., Feodoritova, E. L., Trushakova, S. V., Elena Kirillova, Beljaev, A. L., Merkulova, L. N., Vartanian, R. V., Kisteneva, L. B., Ivanova, V. T., Oskerko, T. A., Silujanova, E. V., Mukasheva, E. A., Krasnoslobodtsev, K. G., Garina, E. O., Alkhovsky, S. V., Prilipov, A. G., Fedyakina, I. T., Bogdanova, V. S., Proshina, E. S., Samohvalov, E. I., Aristova, V. A., Klrillov, I. M., and Malishev, N. A.

6. [Trends in the spread of pandemic influenza A(H1N1) swl in the Far East in 2009]

Author

Shchelkanov, M. I. U., L Vov, D. N., Fediakina, I. T., Baranov, N. I., Gorelikov, V. N., Reznik, V. I. A., Zdanovskaia, N. I., Pukhovskaia, N. M., Avdoshina, L. N., Shapiro, N. I., Snetkova, I. P., Kozhan, V. N., Iarovenko, G. M., Kalaeva, E. E., Gromova, M. A., Elovskiĭ, O. V., Eremeeva, I. V., Dovgal, M. A., Kuchenkov, A. A., Anan Ev, V. I. U., Burtnik, V. I., Leonid Ivanov, Garbuz, I. A., Podolianko, I. A., Grigor Ev, S. N., Proshina, E. S., Samokhvalov, E. I., Al Khovskiĭ, S. V., Burtseva, E. I., Prilipov, A. G., Abbasova, E. I., Mironenko, E. S., Kolobukhina, L. V., Deriabin, P. G., Ott, V. A., Maslov, D. V., Ianovich, V. A., and L Vov, D. K.

Subjects

Siberia, Dogs, Influenza A Virus, H1N1 Subtype, Epidemiological Monitoring, Influenza, Human, Animals, Humans, Chick Embryo, Antibodies, Viral, Cell Line, Disease Outbreaks, Environmental Monitoring

Abstract

The paper describes the trend in the spread of pandemic influenza A(H1N1) swl virus in the Far East, which started in this region 2-3 months later than that in the European part of Russia. By mid-October seasonal epidemic influenza was practically displaced by pandemic one.

7. Trends in the spread of pandemic influenza A(H1N1) swi in the Far East in 2009

Author

Shchelkanov, M. Y., Lvov, D. N., Fedyakina, I. T., Baranov, N. I., Gorelikov, V. N., Reznik, V. Y., Zdanovskaya, N. I., Pukhovskaya, N. M., Avdoshina, L. N., Shapiro, N. I., Snetkova, I. P., Kozhain, V. N., Yarovenko, G. M., Kalayeva, E. E., Gromova, M. A., Elovsky, O. V., Eremeyeva, Yu V., Dovgal, M. A., Kuchenkov, A. A., Ananyav, V. Y., Burtnik, V. I., Ivanov, L. I., Garbuz, Yu A., Podolyanko, I. A., Grigoryov, S. N., Proshina, E. S., Samokhvalov, E. I., Sergey Alkhovsky, Burtsava, E. I., Prilipov, A. G., Abbasovar, E. I., Mironanko, E. S., Kolobukhina, L. V., Deryabin, P. G., Ott, V. A., Maslov, D. V., Yanovlch, V. A., and Lvov, D. K.

8. Etiotropic therapy of influenza: Lessons from the last pandemic

Author

Kolobukhina, L. V., Shchelkanov, M. Yu, Merkulova, L. N., Bazarova, M. V., Elena Burtseva, Samokhvalov, E. I., Alkhovsky, S. V., Prilipov, A. G., Fedyakina, I. T., Proshina, E. S., Aristova, V. A., Morozova, T. N., Sutochnikova, O. A., Ponomarenko, R. A., Malyshev, N. A., Maslov, A. M., and Chuchalin, A. G.

9. Correlation between the receptor specificity of pandemic influenza a (H1N1)pdm09 virus strains isolated in 2009-2011 and the structure of the receptor-binding site and the probability of fatal primary viral pneumonia

Author

Lvov, D. K., Yu Shchelkanov, M., Bovin, N. V., Malyshev, N. A., Chuchalin, A. G., Kolobukhina, L. V., Prilipov, A. G., Bogdanova, V. S., Alkhovsky, S. V., Samokhvalov, E. I., Fedyakina, I. T., Burtseva, E. I., Deryabin, P. G., Zhuravleva, M. M., Shevchenko, E. S., Lavrishcheva, V. V., Lvov, D. N., Proshina, E. S., Starikov, N. S., Morozova, T. N., Bazarova, M. V., Grigoryeva, T. A., Kirillov, I. M., Shidlovskaya, E. V., Kelli, E. I., Malikov, V. E., Yashkulov, K. B., Yu Ananyev, V., Baranov, N. I., Gorelikov, V. N., Tsoi, O. V., Garbuz, Y. A., Ya Reznik, V., Leonid Ivanov, Yu Fedelesh, I., Ponomarenko, R. A., Sakharova, E. A., Lebedev, G. B., and Maslov, A. I.

Subjects

Binding Sites, Polymers, Sialoglycoproteins, Molecular Mimicry, Pneumonia, Viral, Survival Analysis, Russia, Viral Proteins, Hemagglutinins, Influenza A Virus, H1N1 Subtype, Amino Acid Substitution, Influenza, Human, Humans, Receptors, Virus, Pandemics, Probability

Abstract

The receptor specificity (RS) of pandemic influenza A(H1N1) pdm09 virus strains deposited into the State Collection of Viruses of the Russian Federation, D. I. Ivanovsky Research Institute of Virology, Ministry of Health and Social Development of Russia, in the 2009-2010 and 2010-2011 epidemic seasons to a panel of 9 sialoglycopolymers (SGP). The strains were divided into 3 groups according to the W(3/6) index proposed by the authors, which was equal to the amount of reactivities to unbranched alpha2-3-SGP to that of reactivities to unbranched alphal-6-SGP: W(3/6)or = 1.0; 1.0W(3/6)or = 1.5. The W(3/6)or = 1.5 group showed a predominance of a2-3-RS, attended by the high incidence of fatal primary viral pneumonias (FPVP) (60.0%) and amino acid replacements in the HA1 receptor-binding site (RBS) (80.0%): D222{G, N} and Q223R. The 1.0W(3/6)or = 1.5 group was characterized by mixed alpha2-3/alpha2-6-RS with the incidence of FPVP (29.7%) and amino acid replacements in the HA1 RBS (40.5%) (D222{G, N, V} and Q223), respectively. In the W(3/6)or = 1.0 group, alpha2-6-RS was prevalent, FPVPs were absent and amino acid replacements in HA1 RBS (D222{G, E}) were seen only in 6.0% of cases. The number of strains with increased specificity to alpha2-3-sialosides increased in the 2010-2011 epidemic season as compared to the previous season. With their further spread among the population, there may be a rise in cases of severe primary viral pneumonias with possible fatal outcomes, which can be, however, accompanied by a decrease in the capacity of mutants to air-dropwise transmission.

10. A possible association of fatal pneumonia with mutations of pandemic influenza A/H1N1 sw1 virus in the receptor-binding site of the HA1 subunit

Author

Lvov, D. K., Burtseva, E. I., Prilipov, A. G., Bogdanova, V. S., Yu Shchelkanov, M., Bovin, N. V., Samokhvalov, E. I., Fedyakina, I. T., Deryabin, P. G., Kolobukhina, L. V., Shtyrya, Yu A., Shevchenko, E. S., Malyshev, N. A., Merkulova, L. N., Bazarova, M. V., Maslov, A. I., Ishchenko, N. M., Iskhakova, E. A., Alkhovsky, S. V., Grebennikova, T. V., Galina Sadykova, Lvov, D. N., Zhuravleva, M. M., Yamnikova, S. S., Shlyapnikova, O. V., Poglazov, A. B., Trushakova, S. V., Lavrishcheva, V. V., Aristova, V. A., Proshina, E. S., Vereshchagin, N. N., Kuzmichev, A. G., Yashkulov, K. B., Dzhambinov, S. D., Ts Bushkiyeva, B., Eliseyeva, S. M., Bystrakov, S. I., Sokolova, I. A., Dzhaparidze, N. I., Ledenev, Yu A., Rosolovsky, A. P., Gareyev, R. V., Boldyreva, V. V., Yu Ananyev, V., Baranov, N. I., Gorelikov, V. N., Garbuz, Yu A., Ya Reznik, V., Ivanov, L. I., Zdanovskaya, N. I., Sergeyeva, N. M., Podolyanko, I. A., Elovsky, O. V., Gromova, M. A., Kalayeva, E. E., Grigoryev, S. N., Eremeyeva, Yu V., Dovgal, M. A., Yu Fedelesh, I., Sakharova, E. A., Burtnik, V. I., Avdoshina, L. N., Shapiro, N. P., Maslov, D. V., Yanovich, V. A., Ott, V. A., and Lebedev, G. B.

Subjects

Male, Binding Sites, Virulence, Pneumonia, Viral, Hemagglutinin Glycoproteins, Influenza Virus, Polymerase Chain Reaction, Disease Outbreaks, Russia, Protein Subunits, Influenza A Virus, H1N1 Subtype, Pregnancy, Sequence Analysis, Protein, Influenza, Human, Humans, Receptors, Virus, Female, Pregnancy Complications, Infectious, Lung

Abstract

The paper gives the results of sequence analysis of 150 positive samples in real-time RT-PCR, including 47 autopsy materials from patients (including 10 pregnant women), who died from fatal pneumonia mainly in November-December 2009, in whom the lifetime etiological diagnosis had not been made and hence no early etiotropic therapy performed. 70% of the primary materials from the deceased patients were found to have pandemic influenza A(H1N1) v mutants in the lung tissue with D222G (15%), D222N (15%), D222E (2%) substitutions, as well as a mixture of mutants (38%). Nasopharyngeal lavages from 3 Chukotka deceased patients exhibited only consensus (nonmutant) D222 virus variants; there was a mixture of consensus and mutant virus variants in the trachea and a mixture of mutant ones in the lung. Preliminary data from the study of the interaction of the hemagglutinin of two strains having D222G and D222N mutations with 9 oligosaccharides imitating the variants of cell receptors for influenza A virus suggest that there is a double receptor specificity for alpha2'-3' and alpha2'-6'-sialosides with a preponderance of alpha2'-3'-specificity. Further spread of the mutants that have acquired a high virulence and preserved their capacity for the respiratory route of human infection may lead to the situation similar to that seen in the 1918-1919 pandemic. Another scenario for evolution of the virus is to preserve its receptor specificity for alpha2'-3'-sialosides and high virulence with losses of alpha2'-6' specificity and capacity for aerosol transmission, by damping the pandemic.

11. Pandemic flu in russia: Special features of a clinical course and the absence of early etiotropic therapy as a risk factor of severe forms of the disease

Author

Kolobukhina, L. V., Merkulova, L. N., Schelkanov, M. Y., Burtseva, E. I., Lavrischeva, V. V., Samokhvalov, E. I., Alkhovsky, S. V., Prilipov, A. G., Proshina, E. S., Avdeev, S. N., Sutochnikova, O. A., Bazarova, M. V., Kelti, E. I., Tserukalova, N. D., Blank, I. A., Shestakova, O. M., Kolivashko, O. N., Arseneva, T. V., Ambrosi, O. E., Andrey Shuldyakov, Popov, A. F., Simakova, A. I., Malyshev, N. A., Chuchalin, A. G., and Lvov, D. K.

12. The specific features of the cocirculation of influenza viruses in the 2010-2011 postpandemic period according to the results of activities of the D. I. Ivanovsky research institute of Virology, Ministry of health and social development of Russia

Author

Elena Burtseva, Lvov, D. K., Yu Shchelkanov, M., Kolobukhina, L. V., Prilipov, A. G., Alkhovsky, S. V., Lavrishcheva, V. V., Shevchenko, E. S., Fedyakina, I. T., Ivanova, V. T., Belyakova, N. V., Proshina, E. S., Abramov, D. D., Trushakova, S. V., Merkulova, L. N., Vartyanyan, R. V., Kisteneva, L. B., Samokhvalov, E. I., Oskerko, T. A., Feodoritova, E. L., Siluyanova, E. V., Mukasheva, E. A., Belyaev, A. L., Malikov, V. E., and Malyshev, N. A.

Subjects

Adult, Adolescent, Coinfection, Adenoviridae Infections, Influenza A Virus, H3N2 Subtype, Academies and Institutes, Antiviral Agents, Respirovirus Infections, Respirovirus, Adenoviridae, Russia, Influenza B virus, Influenza A Virus, H1N1 Subtype, Oseltamivir, Rimantadine, Child, Preschool, Drug Resistance, Viral, Influenza, Human, Humans, Seasons, Child, Pandemics

Abstract

The paper gives the results of monitoring the circulation of influenza viruses in the 2010-2011 season, that covers the second year of circulation of pandemic A(H1N1)v virus strains, and their interaction with seasonal A (H3N2) and B strains. Unlike the previous season, the beginning of an increase in morbidity was recorded in January 2011; its peak in the most of contiguous areas was noted at 5-7 weeks of 2011, with its further decline to threshold levels at week 11 of 2011. Preschool and school children were most involved in the epidemic process. Three influenza virus strains (A(H1N1)v, A(H3N2), and B) were found to circulate. Differences were found in the level of participation of the isolated strains in individual areas of the Russian Federation. Detailed typing of the isolated strains determined the compliance of the vast majority of them with vaccine viruses. The pandemic influenza A(H1N1)v virus strains retained their susceptibility to oseltamivir and were resistant to rimantadine. The participation of non-influenza acute respiratory viral infection pathogens was estimated as follows: 11.9% for parainfluenza viruses, 5.9% for adenoviruses, and 3.5% for PC viruses, and 0.7% for pneumonia Mycoplasma, which was comparable with the previous epidemic seasons.

13. [Peculiarities of the influenza and ARVI viruses circulation during epidemic season 2019-2020 in some regions of Russia].

Author

L'vov DK, Burtseva EI, Kolobukhina LV, Fedyakina IT, Bovin NV, Ignatjeva AV, Krasnoslobodtsev KG, Feodoritova EL, Trushakova SV, Breslav NV, Merkulova LN, Mukasheva EA, Khlopova IN, Voronina OL, Aksyonova EI, Kunda MS, Ryzhova NN, Vartanjan RV, Kistenyova LB, Kirillov IM, Proshina ES, Rosatkevich AG, Kruzhkova IS, Zaplatnikov AL, Bazarova MV, Smetanina SV, Kharlamov MV, Karpov NL, and Shikhin AV

Subjects

Adolescent, Adult, Female, Hemagglutinin Glycoproteins, Influenza Virus isolation & purification, Humans, Influenza A Virus, H1N1 Subtype isolation & purification, Influenza A Virus, H1N1 Subtype pathogenicity, Influenza A Virus, H3N2 Subtype genetics, Influenza A Virus, H3N2 Subtype isolation & purification, Influenza A Virus, H3N2 Subtype pathogenicity, Influenza A virus genetics, Influenza A virus isolation & purification, Influenza A virus pathogenicity, Influenza B virus genetics, Influenza B virus isolation & purification, Influenza B virus pathogenicity, Influenza Vaccines therapeutic use, Influenza, Human genetics, Influenza, Human prevention & control, Influenza, Human virology, Male, Russia epidemiology, Seasons, Young Adult, Epidemics, Epidemiological Monitoring, Hemagglutinin Glycoproteins, Influenza Virus genetics, Influenza, Human epidemiology

Abstract

Introduction: The surveillance of influenza viruses in ARVI structure and study of their properties in epidemic season 2019-2020 in Russian Federation are actual for investigations due to tasks of Global Influenza Strategy initiated by WHO in 2019., Material and Methods: The data of epidemiological surveillance on influenza- and ARVI-associated morbidity and hospitalization in different age groups of population were analyzed; virological, genetic and statistical methods were used., Results: Preschool children were involved in epidemic the most. Meanwhile, the highest rate of hospitalization was observed in patients of 18-40 years old. Influenza A(H1N1)pdm09 virus dominated in etiology of ARVI in hospitalized patients and pneumonia. The role of respiratory viruses in severe cases of pneumonia and bronchoalveolar syndrome in children was shown. The differences in spectrum of circulating viruses caused ARVI in different regions of Russia were found. Influenza A(H1N1)pdm09 and B/Victoria-like viruses were the main etiological agents that caused of epidemic; its activity among all ARVI was 7.3 and 8.0%, respectively. The differences in antigenic properties of influenza A(H3N2) and B epidemic strains compared to vaccine viruses were found. The populations of epidemic strains were presented by following dominant genetic groups: 6B1.A5/183P for A(H1N1)pdm09, 3С.2а1b+137F for A(H3N2) and V1A.3 line B/Victoria-like for B viruses. The good profile of epidemic strains susceptibility to anti-neuraminidase inhibitors has been saved. The most of the studied influenza strains had the receptor specificity characteristic of human influenza viruses., Conclusions: Obtained results identified the peculiarities of viruses caused the influenza and ARVI in epidemic season 2019-2020 in different regions of Russia. These results suggested the important role of influenza A(H1N1) pdm09 in severe cases and pneumonia in adults 18-40 years old. The continuing drift in influenza viruses was found, which, apparently, could not but affect the efficacy of vaccine prophylaxis and was also considered in the recommendations of WHO experts on the composition of influenza vaccines for the countries of the Northern Hemisphere in the 2020-2021 season.

Published

2021

14. [Evolution of pandemic influenza virus A(H1N1)pdm09 in 2009-2016: dynamics of receptor specificity of the first hemagglutinin subunit (HA1).]

Author

Lvov DK, Bogdanova VS, Kirillov IM, Shchelkanov MY, Burtseva EI, Bovin NV, Fedyakina IT, Prilipov AG, Alhovsky SV, Samokhvalov EI, Proshina ES, Kirillova ES, and Syroeshkin AV

Subjects

Animals, Chick Embryo, Dogs, Female, Humans, Madin Darby Canine Kidney Cells, Male, Russia epidemiology, Evolution, Molecular, Hemagglutinin Glycoproteins, Influenza Virus genetics, Hemagglutinin Glycoproteins, Influenza Virus metabolism, Influenza A Virus, H1N1 Subtype genetics, Influenza A Virus, H1N1 Subtype metabolism, Influenza A Virus, H1N1 Subtype pathogenicity, Influenza, Human epidemiology, Influenza, Human genetics, Influenza, Human metabolism, Pandemics, Receptors, Virus metabolism, Virulence Factors genetics, Virulence Factors metabolism

Abstract

Introduction: The new reassortant of the swine flu virus A(H1N1)pdm09, which emerged in 2009, overcame the species barrier and caused the 2009-2010 pandemic. One of the key points required for the influenza virus to overcome the species barrier and adapt it to humans is its specific binding to the receptors on the epithelium of the human respiratory tract., Purpose: Studying the dynamics of changes in receptor specificity (RS) of the HA1 subunit of the hemagglutinin of the influenza A(H1N1)pdm09 virus strains isolated during the period 2009-2016 on the territory of the Russian Federation, and an analysis of the possible impact of these changes on the incidence rates of the population of the Russian Federation of pandemic influenza in certain epidemic seasons., Material and Methods: Standard methods of collecting clinical materials, isolation of influenza viruses, their typing and genome sequencing were used. For the study of RS of influenza A virus (H1N1)pdm09, the method of solid phase sialosidenzyme analysis was used., Results: It is shown that the change in the parameter W 3/6 , which characterizes the degree of a2-3 receptor specificity (a2-3-RS) of the influenza virus A(H1N1) pdm09 over a2-6-RS, coincides with the change in the incidence rates of the Russian Federation's pandemic flu in separate epidemic seasons. There is a tendency to increase the affinity of the virus A(H1N1)pdm09 to α2-3 analogs of the sialyl-glycan receptors of the human respiratory tract epithelium - α2-3-sialoglycopolymers (α2-3-SGP), and falls to α2-6-SGP, with the virus showing the greatest affinity for sulfated sialoglycopolymers., Discussion: Screening for RS strains of influenza A (H1N1)pdm09 virus isolated on the territory of the Russian Federation in 2009-2016 revealed a decrease in the affinity of viruses for a2-6-sialosides, especially for 6'SL-SGP, which is probably due to the presence of amino acid substitutions in the 222 and 223 positions of RBS HA1 viruses. Previous studies have shown that the presence of such substitutions correlates with an increase in the virulence of the influenza A virus (H1N1)pdm09 [16, 23]. Probably, the pandemic virus has evolved towards the selection of more virulent pneumotropic variants., Conclusion: Monitoring of the receptor specificity of a pandemic influenza virus makes it possible to identify strains with altered RS to the epithelium of the human respiratory tract and an increased ability to transfer from person to person. Change in the period 2009-2016 the W 3/6 parameter characterizing the degree of α2-3-RS excess of the influenza A(H1N1)pdm09 virus over α2-6-RS, coincides with the change in the incidence rates of the pandemic influenza population of the Russian Federation in certain epidemic seasons., Competing Interests: The authors declare no conflict of interest.

Published

2019

15. [Antiviral effect of «Kagocel» substance in vitro on influenza viruses H1N1, H1N1pdm09 and H3N2.]

Author

Fediakina IT, Konopleva MV, Proshina ES, Linnik EV, and Nikitina NI

Subjects

Animals, Dogs, Drug Evaluation, Humans, Influenza, Human metabolism, Influenza, Human pathology, Madin Darby Canine Kidney Cells, Antiviral Agents pharmacology, Gene Expression Regulation, Viral drug effects, Gossypol pharmacology, Influenza A Virus, H1N1 Subtype metabolism, Influenza A Virus, H3N2 Subtype metabolism, Influenza, Human drug therapy

Abstract

Introduction: Active circulation of pandemic influenza and new variants of influenza H3N2 strains requires monitoring of antiviral efficacy of drugs permitted for influenza therapy in the Russian Federation., Purpose: Assessment of antiviral efficacy of «Kagocel» substance against influenza viruses H1N1, H1N1pdm09 and H3N2 in vitro., Material and Methods: Cytotoxic effect of «Kagocel» substance on MDCK cells had been determined by stained with MTS. Antiviral efficacy of «Kagocel» substance against influenza infection has been studied in vitro in the culture of MDCK cells infected with influenza virus strains: A/Puerto Rico/8/34 (H1N1), А/California/7/2009 (H1N1)pdm09, А/Hong Kong/1/68 (H3N2) and А/ Hong Kong/4801/2014 (H3N2). The antiviral activity of «Kagocel» substance was tested by its effect on the infectious titer of the influenza viruses and on its impact on the expression level of viral antigens in the enzyme immunoassay test system., Results: «Kagocel» substance had low toxicity for MDCK cells. «Kagocel» inhibited the infection titer of influenza virus strains A/Puerto Rico/8/34 (H1N1), А/California/7/2009 (H1N1)pdm09, А/Hong Kong/1/68 (H3N2) and А/ Hong Kong /4801/2014 (H3N2) in the MDCK cell culture with equal efficacy. Study of the impact of «Kagocel» substance on the expression level of viral antigens by ELISA also revealed its antiviral efficacy for all tested strains. Dose dependence was observed from concentration of substance and from infective dose of virus., Discussion: Effective suppression of the reproduction of influenza virus strains A(H1N1), A(Н1N1)pdm09 and A(H3N2) in the different sublines of MDCK cells with «Kagocel» was shown by the different methods. These results give the possibility to suggest that along with the ability to induce interferons, «Kagocel» can impact on the reproduction of influenza virus, but the further research is needed., Conclusion: «Kagocel» substance effectively inhibits the reproduction of influenza virus strains A(H1N1), A(Н1N1)pdm09 and A(H3N2) in vitro. At the same time, the selectivity index is quite high., Competing Interests: The authors declare no conflict of interest.

Published

2019

16. [The peculiarities of the influenza epidemics in some areas of Russia during 2012-2013 season. The influenza A (H1N1) pdm09 virus domination in European countries].

Author

L'vov DK, Burtseva EI, Shchelkanov MIu, Kolobuhina LV, Feodoritova EL, Trushakova SV, Kirillova ES, Breslav NV, Beliaev AL, Merkulova LN, Vartanian RV, Fediakina IT, Bogdanova VS, Proshina ES, Kirillov IM, Kisteneva LV, Ivanova VT, Oskerko TA, Siluianova EV, Mukasheva EA, Krasnoslobodtsev KG, Lavrishcheva VV, Al'khovskiĭ SV, Prilipov AG, Samokhvalov EI, Aristova VA, Morozova TN, Garina EO, and Malysheva NA

Subjects

Antiviral Agents therapeutic use, Europe epidemiology, Humans, Influenza, Human drug therapy, Influenza, Human pathology, Influenza, Human virology, Russia epidemiology, Epidemics, Influenza A Virus, H1N1 Subtype pathogenicity, Influenza, Human epidemiology

Abstract

The peculiarities of the influenza viruses circulation in 2012-2013 are discussed. The results were obtained in 10 cities of Russia, where basic laboratories of the Influenza Ecology and Epidemics Center of on the basis of Ivanovsky Institute of Virology, Ministry of Health of the Russian Federation, are situated. The increasing rate of the ARD morbidity caused by influenza viruses was observed in January-March 2013. The highest indices of the morbidity were detected during 6-7 weeks with the following decreasing rate till threshold levels to week 14. The influenza A (H1N1) pdm09, A (H3N2), and B viruses were the cause of the epidemic, but their activity differed over areas of Russia. The results of study of the antigenic and genetic properties of the influenza strains demonstrated closed relatives with respect to vaccine strains. In addition, some heterogeneity of the circulating strains and their drift variants were found as well. All tested strains were sensitive to oseltamivir (excluding one A (H1N1) pdm09 strain), zanamivir, arbidol, and remained resistant to rimantadine. The ratio of the ARD viruses was comparable with the last epidemic seasons.

Published

2014

17. [Correlation between the receptor specificity of pandemic influenza A (H1N1)pdm09 virus strains isolated in 2009-2011 and the structure of the receptor-binding site and the probability of fatal primary viral pneumonia].

Author

L'vov DK, Shchelkanov MIu, Bovin NV, Malyshev NA, Chuchalin AG, Kolobukhina LV, Prilipov AG, Bogdanova VS, Al'khovskiĭ SV, Samokhvalov EI, Fediakina IT, Burtseva EI, Deriabin PG, Zhuravleva MM, Shevchenko ES, Lavrishcheva VV, L'vov DN, Proshina ES, Starikov NS, Morozova TN, Bazarova MV, Grigor'eva TA, Kirillov IM, Shidlovskaia EV, Kelli EI, Malikov VE, Iashkulov KB, Anan'ev VIu, Baranov NI, Gorelikov VN, Tsoi OV, Garbuz IuA, Reznik VI, Ivanov LI, Fedelesh IIu, Ponomarenko RA, Sakharova EA, Lebedev GB, and Maslov AI

Subjects

Amino Acid Substitution, Binding Sites, Hemagglutinins metabolism, Humans, Influenza A Virus, H1N1 Subtype genetics, Influenza A Virus, H1N1 Subtype pathogenicity, Influenza, Human complications, Influenza, Human transmission, Influenza, Human virology, Molecular Mimicry, Pandemics, Pneumonia, Viral etiology, Pneumonia, Viral transmission, Pneumonia, Viral virology, Polymers chemistry, Polymers metabolism, Probability, Receptors, Virus genetics, Receptors, Virus metabolism, Russia epidemiology, Sialoglycoproteins chemistry, Sialoglycoproteins metabolism, Survival Analysis, Viral Proteins metabolism, Hemagglutinins genetics, Influenza A Virus, H1N1 Subtype metabolism, Influenza, Human mortality, Pneumonia, Viral mortality, Receptors, Virus chemistry, Viral Proteins genetics

Abstract

The receptor specificity (RS) of pandemic influenza A(H1N1) pdm09 virus strains deposited into the State Collection of Viruses of the Russian Federation, D. I. Ivanovsky Research Institute of Virology, Ministry of Health and Social Development of Russia, in the 2009-2010 and 2010-2011 epidemic seasons to a panel of 9 sialoglycopolymers (SGP). The strains were divided into 3 groups according to the W(3/6) index proposed by the authors, which was equal to the amount of reactivities to unbranched alpha2-3-SGP to that of reactivities to unbranched alphal-6-SGP: W(3/6) < or = 1.0; 1.0 < W(3/6) < or = 1.5. The W(3/6) < or = 1.5 group showed a predominance of a2-3-RS, attended by the high incidence of fatal primary viral pneumonias (FPVP) (60.0%) and amino acid replacements in the HA1 receptor-binding site (RBS) (80.0%): D222{G, N} and Q223R. The 1.0 < W(3/6) < or = 1.5 group was characterized by mixed alpha2-3/alpha2-6-RS with the incidence of FPVP (29.7%) and amino acid replacements in the HA1 RBS (40.5%) (D222{G, N, V} and Q223), respectively. In the W(3/6) < or = 1.0 group, alpha2-6-RS was prevalent, FPVPs were absent and amino acid replacements in HA1 RBS (D222{G, E}) were seen only in 6.0% of cases. The number of strains with increased specificity to alpha2-3-sialosides increased in the 2010-2011 epidemic season as compared to the previous season. With their further spread among the population, there may be a rise in cases of severe primary viral pneumonias with possible fatal outcomes, which can be, however, accompanied by a decrease in the capacity of mutants to air-dropwise transmission.

Published

2012

18. [The specific features of the cocirculation of influenza viruses in the 2010-2011 postpandemic period according to the results of activities of the D. I. Ivanovsky Research Institute of Virology, Ministry of Health and Social Development of Russia].

Author

Burtseva EI, L'vov DK, Shchelkanov MIu, Kolobukhina LV, Prilipov AG, Al'khovskiĭ SV, Lavrishcheva VV, Shevchenko ES, Fediakina IT, Ivanova VT, Beliakova NV, Proshina ES, Abramov DD, Trushakova SV, Merkulova LN, Vartanian RV, Kisteneva LB, Samokhvalov EI, Oskerko TA, Feodoritova EL, Siluianova ÉV, Mukasheva EA, Beliaev AL, Malikov VE, and Malyshev NA

Subjects

Academies and Institutes, Adenoviridae drug effects, Adenoviridae physiology, Adenoviridae Infections drug therapy, Adenoviridae Infections virology, Adolescent, Adult, Antiviral Agents administration & dosage, Antiviral Agents therapeutic use, Child, Child, Preschool, Coinfection, Drug Resistance, Viral, Humans, Influenza A Virus, H1N1 Subtype drug effects, Influenza A Virus, H1N1 Subtype physiology, Influenza A Virus, H3N2 Subtype drug effects, Influenza A Virus, H3N2 Subtype physiology, Influenza B virus, Influenza, Human drug therapy, Influenza, Human virology, Oseltamivir administration & dosage, Oseltamivir therapeutic use, Respirovirus drug effects, Respirovirus physiology, Respirovirus Infections drug therapy, Respirovirus Infections virology, Rimantadine administration & dosage, Rimantadine therapeutic use, Russia epidemiology, Seasons, Adenoviridae Infections epidemiology, Influenza, Human epidemiology, Pandemics, Respirovirus Infections epidemiology

Abstract

The paper gives the results of monitoring the circulation of influenza viruses in the 2010-2011 season, that covers the second year of circulation of pandemic A(H1N1)v virus strains, and their interaction with seasonal A (H3N2) and B strains. Unlike the previous season, the beginning of an increase in morbidity was recorded in January 2011; its peak in the most of contiguous areas was noted at 5-7 weeks of 2011, with its further decline to threshold levels at week 11 of 2011. Preschool and school children were most involved in the epidemic process. Three influenza virus strains (A(H1N1)v, A(H3N2), and B) were found to circulate. Differences were found in the level of participation of the isolated strains in individual areas of the Russian Federation. Detailed typing of the isolated strains determined the compliance of the vast majority of them with vaccine viruses. The pandemic influenza A(H1N1)v virus strains retained their susceptibility to oseltamivir and were resistant to rimantadine. The participation of non-influenza acute respiratory viral infection pathogens was estimated as follows: 11.9% for parainfluenza viruses, 5.9% for adenoviruses, and 3.5% for PC viruses, and 0.7% for pneumonia Mycoplasma, which was comparable with the previous epidemic seasons.

Published

2012

19. [Taxonomic structure of Orthomyxoviridae: current views and immediate prospects].

Author

Shchelkanov MIu, Fediakina IT, Proshina ES, L'vov DN, Ponomarenko RA, Chumakov VM, Burtseva EI, Galkina IV, and L'vov DK

Subjects

Animals, Birds virology, Disease Outbreaks prevention & control, Disease Reservoirs virology, Disease Vectors, Ecosystem, Genetic Vectors, Humans, Orthomyxoviridae Infections transmission, Phylogeny, Phylogeography trends, Salmon virology, Togaviridae Infections transmission, Virology trends, Zoonoses transmission, Zoonoses virology, Classification methods, Genome, Viral, Isavirus classification, Isavirus genetics, Isavirus pathogenicity, Orthomyxoviridae classification, Orthomyxoviridae genetics, Orthomyxoviridae pathogenicity, Orthomyxoviridae Infections virology, Togaviridae Infections virology

Abstract

Analysis of taxonomic structure of Orthomyxoviridae was undertaken in view of its anticipated evolution. Four concepts of circulation of influenza A viruses in the biosphere are discussed, viz. anthrponose, zooanthroponose, metastrongilose, and protozoan. All of them may be considered in the framework of the general zooantroponose concept. Influenza B and C viruses can not be regarded as strictly anthroponose. Comparative molecular-genetic analysis of the genus Thogotovirus provides a basis for the designation of Thogoto and Batken-Dhori as independent geni. It is speculated that t he proof of transmission of Isaviruses by copepods Caligus elongates and Lepeophtheirus salmonis (Crustacea: Copepoda) may open up a new line of developments in arborvirology since crustacean vectors of viruses have never been described before.

Published

2011

20. [Pandemic influenza in Russia: specific features of clinical course and the absence of early etiotropic therapy as a risk factor of severe forms of the disease].

Author

Kolobukhina LV, Merkulova LN, Shchelkanov MIu, Burtseva EI, Lavrishcheva VV, Samokhvalov EI, Al'khovskiĭ SV, Prilipov AG, Proshina ES, Avdeev SN, Sutochnikova OA, Bazarova MV, Kelli EI, Tserukalova ND, Blank IA, Shestakova OM, Kolivashko ON, Arseneva TV, Ambrosi OE, Shul'diakov AA, Popov AF, Simakova AI, Malyshev NA, Chuchalin AG, and L'vov DK

Subjects

Adolescent, Adult, Amides administration & dosage, Antiviral Agents administration & dosage, Caproates, Dicarboxylic Acids administration & dosage, Drug Administration Schedule, Female, Humans, Imidazoles administration & dosage, Influenza, Human epidemiology, Influenza, Human virology, Male, Middle Aged, Oseltamivir administration & dosage, Risk Factors, Russia epidemiology, Severity of Illness Index, Time Factors, Treatment Outcome, Young Adult, Amides therapeutic use, Antiviral Agents therapeutic use, Dicarboxylic Acids therapeutic use, Imidazoles therapeutic use, Influenza A Virus, H1N1 Subtype isolation & purification, Influenza, Human drug therapy, Oseltamivir therapeutic use, Pandemics

Abstract

Aim: To assess efficacy and safety of ingavirin in the treatment of the flu caused by pandemic virus of flu A (H1N1) sw1 in hospitalized patients compared with oseltamivir., Material and Methods: A population-based comparative multicenter trial included 194 patients with verified diagnosis of the flu aged 18-60 years with marked clinical symptoms, body temperature over 38 degrees C and duration of the disease 48 hours maximum. The patients were randomized into 2 groups: group 1 (n=152) received ingavirin (90 mg once a day), group 2 received oseltamivir (n=42) in a dose 150 mg twice a day. Duration of the course was 5 days., Results: Ingavirin and oseltamivir normalized body temperature within treatment hours 24-36 if therapy was initiated in the first disease hours 27.0 +/- 10.0 and 31.9 +/- 10.4. Mean duration of the fever for ingavirin was 35.1 +/- 14.5 hours, for oseltamivir--26.3 +/- 13.0 hours (p < 0.817). The antiviral medicines significantly reduced duration of intoxication (head ache, weakness), catarrhal symptoms (cough, tracheitis, rhinitis), rate of complication vs. patients untreated with antivirus drugs (n=30)., Conclusion: The results of the treatment show safety and efficacy of ingavirin in uncomplicated flu caused by pandemic virus of flu A (H1N1) sw1 in inpatients. Early etiotropic therapy is a basic treatment policy able to reduce the number of severe complications and lethality.

Published

2011

21. [Etiotropic therapy of influenza: lessons from the last pandemic].

Author

Kolobukhina LV, Shchelkanov MIu, Merkulova LN, Bazarova MV, Burtseva EI, Samokhvalov EI, Al'khovskiĭ SV, Prilipov AG, Fediakina IT, Proshina ES, Aristova VA, Morozova TN, Sutochnikova OA, Ponomarenko RA, Malyshev NA, Maslov AM, and Chuchalin AG

Subjects

Antiviral Agents administration & dosage, Antiviral Agents adverse effects, Communicable Diseases, Emerging virology, Drug Resistance, Viral, Early Diagnosis, Hemagglutination, Viral genetics, Humans, Influenza Vaccines therapeutic use, Influenza, Human epidemiology, Influenza, Human virology, Pandemics prevention & control, Pneumonia, Viral epidemiology, Pneumonia, Viral physiopathology, Pneumonia, Viral virology, Prognosis, Severity of Illness Index, Viral Interference, Influenza A Virus, H1N1 Subtype drug effects, Influenza A Virus, H1N1 Subtype pathogenicity, Influenza A Virus, H1N1 Subtype physiology, Influenza, Human drug therapy, Influenza, Human physiopathology, Oseltamivir administration & dosage, Oseltamivir adverse effects, Pneumonia, Viral drug therapy, Viral Tropism genetics, Zanamivir administration & dosage, Zanamivir adverse effects

Abstract

Analysis of the experience gained during the last pandemic of 'swine' influenza A (H1N1) sw1 is presented with reference to clinical studies and etiotropic therapy. The mechanism of development of severe pneumonia as a result of mutations at the binding site of hemagglutinin receptor enhancing a2'-3'-sialoside specificity and pneumotropism of the virus is described. The data on the efficiency of Ingavirin, a new Russian antiviral for the treatment of influenza, are reported.

Published

2011

22. [A possible association of fatal pneumonia with mutations of pandemic influenza A/H1N1 sw1 virus in the receptor-binding site of the HA1 subunit].

Author

L'vov DK, Burtseva EI, Prilipov AG, Bogdanova VS, Shchelkanov MIu, Bovin NV, Samokhvalov EI, Fediakina IT, Deriabin PG, Kolobukhina LV, Shtyria IuA, Shevchenko ES, Malyshev NA, Merkulova LN, Bazarova MV, Maslov AI, Ishchenko NM, Iskhakova EA, Al'khovskiĭ SV, Grebennikova TV, Sadykova GK, L'vov DN, Zhuravleva MM, Iamnikova SS, Shliapnikova OV, Poglazov AB, Trushakova SV, Lavrishcheva VV, Aristova VA, Proshina ES, Vereshchagin NN, Kuz'michev AG, Iashkulov KB, Dzhambinov SD, Bushkieva BTs, Eliseeva SM, Bystrakov SI, Sokolova IA, Dzhaparidzhe NI, Ledenev IuA, Rosolovskiĭ AP, Gareev RV, Boldyreva VV, Anan'ev VIu, Baranov NI, Gorelikov VN, Garbuz IuA, Reznik VI, Ivanov LI, Zdanovskaia NN, Sergeeva NM, Podolianko IA, Elovskiĭ OV, Gromova MA, Kalaeva EE, Grigor'ev SN, Eremeeva IuV, Dovgal' MV, Fedelesh IIu, Sakharova EA, Burtnik VI, Avdoshina LN, Shapiro NP, Maslov DV, Ianovich VA, Ott VA, and Lebedev GB

Subjects

Binding Sites genetics, Female, Hemagglutinin Glycoproteins, Influenza Virus metabolism, Humans, Influenza A Virus, H1N1 Subtype pathogenicity, Influenza, Human mortality, Lung virology, Male, Pneumonia, Viral mortality, Polymerase Chain Reaction, Pregnancy, Pregnancy Complications, Infectious mortality, Protein Subunits metabolism, Receptors, Virus metabolism, Russia epidemiology, Sequence Analysis, Protein, Virulence, Disease Outbreaks, Hemagglutinin Glycoproteins, Influenza Virus genetics, Influenza A Virus, H1N1 Subtype genetics, Influenza, Human epidemiology, Influenza, Human virology, Pneumonia, Viral epidemiology, Pneumonia, Viral virology, Pregnancy Complications, Infectious epidemiology, Pregnancy Complications, Infectious virology, Protein Subunits genetics

Abstract

The paper gives the results of sequence analysis of 150 positive samples in real-time RT-PCR, including 47 autopsy materials from patients (including 10 pregnant women), who died from fatal pneumonia mainly in November-December 2009, in whom the lifetime etiological diagnosis had not been made and hence no early etiotropic therapy performed. 70% of the primary materials from the deceased patients were found to have pandemic influenza A(H1N1) v mutants in the lung tissue with D222G (15%), D222N (15%), D222E (2%) substitutions, as well as a mixture of mutants (38%). Nasopharyngeal lavages from 3 Chukotka deceased patients exhibited only consensus (nonmutant) D222 virus variants; there was a mixture of consensus and mutant virus variants in the trachea and a mixture of mutant ones in the lung. Preliminary data from the study of the interaction of the hemagglutinin of two strains having D222G and D222N mutations with 9 oligosaccharides imitating the variants of cell receptors for influenza A virus suggest that there is a double receptor specificity for alpha2'-3' and alpha2'-6'-sialosides with a preponderance of alpha2'-3'-specificity. Further spread of the mutants that have acquired a high virulence and preserved their capacity for the respiratory route of human infection may lead to the situation similar to that seen in the 1918-1919 pandemic. Another scenario for evolution of the virus is to preserve its receptor specificity for alpha2'-3'-sialosides and high virulence with losses of alpha2'-6' specificity and capacity for aerosol transmission, by damping the pandemic.

Published

2010

23. [Trends in the spread of pandemic influenza A(H1N1) swl in the Far East in 2009].

Author

Shchelkanov MIu, L'vov DN, Fediakina IT, Baranov NI, Gorelikov VN, Reznik VIa, Zdanovskaia NI, Pukhovskaia NM, Avdoshina LN, Shapiro NI, Snetkova IP, Kozhan VN, Iarovenko GM, Kalaeva EE, Gromova MA, Elovskiĭ OV, Eremeeva IuV, Dovgal' MA, Kuchenkov AA, Anan'ev VIu, Burtnik VI, Ivanov LI, Garbuz IuA, Podolianko IA, Grigor'ev SN, Proshina ES, Samokhvalov EI, Al'khovskiĭ SV, Burtseva EI, Prilipov AG, Abbasova EI, Mironenko ES, Kolobukhina LV, Deriabin PG, Ott VA, Maslov DV, Ianovich VA, and L'vov DK

Subjects

Animals, Antibodies, Viral blood, Cell Line, Chick Embryo, Dogs, Environmental Monitoring, Epidemiological Monitoring, Humans, Influenza A Virus, H1N1 Subtype immunology, Influenza A Virus, H1N1 Subtype isolation & purification, Influenza, Human blood, Influenza, Human diagnosis, Influenza, Human virology, Siberia epidemiology, Disease Outbreaks, Influenza A Virus, H1N1 Subtype classification, Influenza, Human epidemiology

Abstract

The paper describes the trend in the spread of pandemic influenza A(H1N1) swl virus in the Far East, which started in this region 2-3 months later than that in the European part of Russia. By mid-October seasonal epidemic influenza was practically displaced by pandemic one.

Published

2010

24. [The first break-through of the genotype 2.3.2 of high-virulence influenza A virus A/HSN1, which is new for Russia, in the Far East].

Author

L'vov DK, Zhchelkanov MIu, Vlasov NA, Prilipov AG, Deriabin PG, Fediakina IT, Galkina IV, Zaberezhnyĭ AD, Liapina OV, Shliapnikova OV, Kireev DE, Fesenko EE, Kalmykov MV, Vitkova ON, Morozova TN, Proshina ES, Grebennikova TV, Akanina DS, Samokhvalov EI, Al'khovskiĭ SV, Volkov VA, Semenov VI, Gaponov VV, Shmakov NI, Kushnir AT, Kazarian AS, Starikov NS, Petrenko MS, Slavskiĭ AA, Litvin KE, Shcherbakova LO, Frolov AV, Manin TB, Umanets OA, Bandeev VV, Khvan AM, Dunaev VG, Cheledina TP, Abgarian SR, Mikhaĭlovich VM, Zasedatelev AS, Liubchenko EN, Fliagin VN, Tikhonova IF, Maslov DV, Anan'ev VIu, Baranov NI, Gorelikov VN, Iakovlev SS, Aliper TI, Nepoklonov EA, and Suarez D

Subjects

Animal Migration, Animals, Antiviral Agents pharmacology, Birds virology, Chickens virology, Genome, Viral, Genotype, Influenza A Virus, H5N1 Subtype drug effects, Influenza A Virus, H5N1 Subtype isolation & purification, Molecular Sequence Data, Oseltamivir pharmacology, Phylogeny, Rimantadine pharmacology, Siberia epidemiology, Disease Outbreaks, Influenza A Virus, H5N1 Subtype classification, Influenza A Virus, H5N1 Subtype genetics, Influenza in Birds epidemiology, Influenza in Birds virology

Abstract

The epizootic etiologically associated with highly pathogenic avian influenza H5N1 genotype 2.3.2 that is new for Russia among wild and domestic birds in the south of the Primorye Territory during spring migration in April 2008 has been decoded. About 25% of the wild birds of a water complex, which include European teals (Anas crecca), mallard ducks (Anas platyrhynchos), great-crested grebes (Podiceps cristatus), are involved in viral circulation in the area of the Suifun-Khankai plain. Chicken embryos and the cell lines MDCK, SPEV, BHK-21, SW-13 were used to isolate 3 strains from recently deceased hens (A/chicken/Primorje/1/08, A/chicken/Primorje/11/08, and A/chicken/Primorje/12/08) and one strain from a European teal (A/Anas crecca/Primorje/8/08). The strains were deposited in the State Collection of Viruses of the Russian Federation, D. I. Ivanovsky Research Institute of Virology, Russian Academy of Medical Sciences. The nucleotide sequences of the full-sized genomes of A/chicken/Primorje/1/08 and A/Anas crecca/Primorje/8/08 were sent to the International databank GenBank. The strains from domestic and wild birds were shown to be identical. The isolated strains are most close to the strains Alchicken/Viet Nam/10/05, A/chicken/Guangdong/178/04, and A/duck/Viet Nam/12/05. Molecular genetic analysis has indicated that the strains isolated are susceptible to rimantadine and ozeltamivir and less adapted to mammalian cells (particularly, they contain E627 in RV2, which agrees with the biological properties of these strains in vitro). Penetration of the newly isolated virus into the Far East ecosystem provides in the foreseeable future a way for infecting the birds wintering in America and Australia in the nesting places, with further carriage of viral populations there in the period of autumn migrations.

Published

2008

25. [Interpretation of the epizootic outbreak among wild and domestic birds in the south of the European part of Russia in December 2007].

Author

L'vov DK, Shchelkanov MIu, Prilipov AG, Deriabin PG, Fediakina IT, Galkina IV, Kireev DE, Frolov AV, Akanina DS, Usacheva OV, Shliapnikova OV, Poglazov AB, Morozova TN, Proshina ES, Grebennikova TV, Zaberezhnyĭ AD, Iakovlev SS, Shcherbakova LO, Shapovalov AB, Zhalin MV, Rudenko VP, Pichuev AE, Litvin KN, Varkentin AV, Steshenko VV, Kharitonov SP, Proshina ES, Samokhvalov EI, Al'khovskiĭ SV, Aliper TI, Martynovchenko VV, Lysenko SN, Vlasov NA, and Nepoklonov EA

Subjects

Amino Acid Substitution, Animal Migration, Animals, Genome, Viral genetics, Influenza A Virus, H5N1 Subtype classification, Influenza A Virus, H5N1 Subtype genetics, Influenza in Birds virology, Phylogeny, Risk Factors, Russia epidemiology, Viral Proteins metabolism, Birds virology, Chickens virology, Disease Outbreaks, Influenza A Virus, H5N1 Subtype isolation & purification, Influenza in Birds epidemiology, Turkeys virology

Abstract

The paper presents the results of interpreting the epizootic outbreak etiologically associated with high-virulent influenza virus A/H5N1 among domestic and wild birds in the Zernogradsky and Tselinsky districts of the Rostov Region. Epizooty was characterized by a high infection rate in the synanthropic birds of a ground-based complex. RT-PCT revealed influenza virus A/H5 in 60% of pigeons and crows and in around 20% of starlings, and in 10% of tree sparrows. Fifteen viral strains from chickens (Gallus gallus domesticus), Indian ducks (Cairina moschata), rooks (Corvus frugilegus), rock pigeons (Columba livia), tree sparrows (Passer montanus), common starlings (Sturnus vulgaris), and great white herons (Egretta alba) were isolated and deposited in the State Collection of Viruses of the Russian Federation. Full-sized genomes of 5 strains were sequenced and deposited in the international database GenBank. The isolated strains belong to the Quinhai-Siberian (2.2) genotype, an Iranian-Northern Caucasian subgroup, they are phylogenetically closest to the strain A/chicken/Moscow/2/2007 (inducing epizooty among poultry in the near-Moscow Region in February 2007) and have 13 unique amino acid replacements as the consensus of the Quinhai-Siberian genotypes in the proteins PB2, PA, HA, NP, NA, and M2, by preserving thereby 4 unique replacements first describes for the strain A/chicken/Moscow/2/2007. The findings are indicative of a different mechanism that is responsible for bringing the virus into the northeastern part of the Azov Sea area in September 2007 (during the fall migration of wild birds) and in December 2007 in the south-western Rostov Region where a human factor cannot be excluded. Mass infection of synanthropic birds endangers the further spread of epizooty, including that in the central regions of the Russian Federation in spring after near migrants return after wintering.

Published

2008

26. [Serological monitoring of arbovirus infections in the estuary of the Kuban River (the 2006-2007 data)].

Author

L'vov DK, Shchelkanov MIu, Kolobukhina LV, L'vov DN, Galkina IV, Aristova VA, Morozova TN, Proshina ES, Kulikov AG, Kogdenko NV, Andronova OV, Pronin NI, Shevkoplias VN, Fontanetskiĭ AS, Vlasov NA, and Nepoklonov EA

Subjects

Animals, Animals, Domestic blood, Animals, Domestic immunology, Antibodies, Viral immunology, Antibody Specificity, Arbovirus Infections blood, Arboviruses immunology, Birds blood, Birds immunology, Cattle, Culicidae virology, Environmental Monitoring, Enzyme-Linked Immunosorbent Assay, Epidemiological Monitoring, Hares blood, Hares virology, Hemagglutination Inhibition Tests, Humans, Neutralization Tests, Rivers, Russia epidemiology, Seroepidemiologic Studies, Antibodies, Viral blood, Arbovirus Infections epidemiology, Arbovirus Infections veterinary, Arboviruses isolation & purification

Abstract

Solid-phase enzyme immunoassay, neutralization test, and the hemagglutination-inhibition test were used to study the sera from human beings (152 samples), agricultural animals (n = 77), hares (n = 3), and wild birds (n = 69), collected in 2006-2007 in the Kuban River estuary (Temryuk District, Krasnodar Territory). There were specific antibodies against viruses of West Nile (WH), tick-borne encephalitis (TBE) (Flaviviridae, Flavivirus), Sindbis (Togaviridae, Alphavirus), the antigenic complex of California, Batai (Bunyaviridae, Orthobunyavirus), Dhori (Orthomyxoviridae, Thogotovirus). The findings suggest the presence of arboviruses from 6 transmitting mosquitoes and ticks in the study area and human infection by the viruses of the antigenic complex of California (20-47%), Batai (3-15%), West Nile (3-12%), Dhori (2%). The index agricultural animals (horses, cattle) were observed to have specific antibodies to the viruses of WN (8-15%), TBE (0-2%), Sindbis (2-9%), the antigenic complex of California (27-54%). Out of the representatives of the wild fauna, virus-neutralizing antibodies to Sindbis virus were found in European hares (Lepus europaeus), California complex virus in gulls (Larus argentatus) and terns (Sterna hirundo), WN and Sindbis viruses in herons (Ardea purpurea), and WN and California complex viruses in bald-coots (Fulica atra).

Published

2008