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Emerg Infect Dis. Human Infection with Eurasian Avian-like Influenza A(H1N1) Virus, China
[Source: Emerging Infectious Diseases Journal, full page: (LINK). Abstract, edited.]
Volume 19, Number 10?October 2013
Letter
Human Infection with Eurasian Avian-like Influenza A(H1N1) Virus, China
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To the Editor: We report a human infection with avian-like swine A(H1N1) influenza virus first identified through a surveillance system for influenza-like illness (ILI) in mainland China. An influenza virus, isolated from a patient with ILI, was originally subtyped as influenza A(H1N1)pdm09 virus with a hemagglutination-inhibition (HI) test, but it was identified as a Eurasian avian-like influenza A(H1N1) virus (EA-H1N1) by full genome sequencing on January 30, 2013. The virus was named A/Hebei-Yuhua/SWL1250/2012 (H1N1v) (HB/1250/12), according to the definition protocol of the World Health Organization (1).
The case-patient was a 3-year-old boy who had fever and sore throat; his highest body temperature was 38?C on December 9, 2012. He was brought for medical treatment to an influenza sentinel hospital in the city of Shijiazhuang in Hebei Province, China, on December 12. He recovered within a week without hospitalization and without oseltamivir treatment. A throat swab specimen was collected and sent to the local Chinese Center for Disease Control and Prevention for virus isolation and characterization, according to the Guidelines of the Chinese National Influenza Surveillance Network. A retrospective investigation was conducted to identify the possible source of infection and any other possible cases. The case-patient was previously healthy and had no history of close contact with animals (live or dead wild birds, poultry, and swine) within 2 weeks before the onset of symptoms, nor a history of travel. He lived with his sister and parents; influenza-like symptoms did not develop in any other family members.
Sporadic human infections with swine influenza virus had been reported (2,3). Another case-patient, infected by EA-H1N1 influenza virus A/Jiangsu/1/2011(JS11) in early 2011, was reported (4,5). The genome sequences of the viruses isolated from the 2 case-patients showed high homology; the similarity of the polymerase basic protein 2 was 99.1%; of polymerase basic protein 1, 99.3%; of polymerase acidic protein, 98.9%; of hemagglutinin (HA), 99.1%; nucleocapsid protein, 99.1%; neuraminidase protein, 99.2%; matrix protein, 99.6%; and nonstructural protein, 99.2% (Global Initiative on Sharing Avian Influenza Data [GISAID] accession no. EPI301156?63 for JS11 and EPI438417?25 for HB/1250/12). The HB/1250/12 virus has the amino acids D (at site 190) and E (at site 225) within the HA protein, which are reported to be critical for enhancement of the HA affinity in binding to α-2,6?linked sialosides (6). The virus was resistant to amantadine and rimantadine with S31N (Ser→Asp) mutation in the M2 gene, but it was predicted to be susceptible to the neuraminidase inhibitor drugs oseltamivir and zanamivir on the basis of the neuraminidase gene.
HI test with ferret antiserum against A(H1N1)pdm09 (CA09), seasonal H3N2(Vic11,BR10/07 and Perth09), classical swine subtype H1N1(NJ76), and the seasonal influenza subtype H1N1 viruses (BR59/07, SI06) showed that the HB/1250/12 virus is antigenically indistinguishable from NJ76 and CA09 but different from subtype H3N2 viruses (Vic11, BR10/07, and Perth09) and seasonal subtype H1N1 viruses(BR59/07, SI06) (Technical Appendix [PDF - 92 KB - 1 page]). These findings were consistent with results reported previously (7?9). To estimate the susceptibility of human population to this virus and to investigate whether seasonal trivalent inactivated influenza vaccine (TIV) could provide cross-protection, we collected serum samples from children, adults, and elderly adults before and after 2012?13 influenza season TIV vaccination, and the antibody against HB/1250/12 virus was tested by HI assay. The seroprotection antibody was defined as HI titers >40. Before vaccination, 28% of children (3?5 years) and 6.7% of adults (18?59 years) had HI titers >40, but elderly adults (>60 years) did not. Samples from 56% of children, 56.7% of adults, and 26.7% of elderly adults had HI titers >40 after TIV vaccination; in fact, a 4-fold antibody rise developed in <30% of persons in any age group (Table). These results indicated that a proportion of children and adults possess cross-protective antibody against EA-H1N1, whereas elderly adults are the most susceptible to EA-H1N1 infection with no cross-protective antibodies and that vaccination with TIV could not substantially improve the level of cross-reactive EA-H1N1 antibodies.
Antiserum from hyperimmune sheep is usually used for influenza virus typing and subtyping. The CA09 sheep antiserum reacted well with the HB/1250/12 virus (Table). This is the reason the local Chinese Center for Disease Control and Prevention originally subtyped HB/1250/12 as A(H1N1)pdm09 virus. Such avian-like H1N1 virus could be missed with regular HI test. In addition, a large proportion of swine influenza infections are mild and even asymptomatic (2); thus, human infections with swine influenza virus may have been underestimated in China.
Identification of this human case of EA-H1N1 infection through the national ILI surveillance network in China indicates that the influenza surveillance network not only plays a critical role in monitoring the seasonal influenza circulation and the vaccine virus selection, but also is useful for early detection of novel influenza viruses with pandemic potential. This study also highlighted the value of, and urgent demand for, a cost-effective sequencing platform on routine influenza surveillance for pandemic preparedness.
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Da-Yan Wang<SUP>1</SUP>, Shun-Xiang Qi<SUP>1</SUP>, Xi-Yan Li, Jun-Feng Guo, Min-Ju Tan, Guang-Yue Han, Yan-Fang Liu, Yu Lan, Lei Yang, Wei-Juan Huang, Yan-Hui Cheng, Xiang Zhao, Tian Bai, Zhao Wang, He-Jiang Wei, Ning Xiao, and Yue-Long Shu
Author affiliations: Chinese Center for Disease Control and Prevention. Beijing, People?s Republic of China (D.-Y. Wang, X.-Y. Li, J.-F. Guo, M.-J. Tan, Y. Lan, L. Yang, W.-J. Huang, Y.-H. Cheng, X. Zhao, T. Bai, Z. Wang, N. Xiao, H.-J. Wei, Y.-L. Shu); Hebei Center for Disease Control and Prevention, Shijiazhuang, People?s Republic of China (S.-X. Qi, G.-Y. Han, Y.-F. Liu)
Acknowledgment
This work was partly supported by National Basic Research Program of China (973 program, no. 2011CB504704) and the China Mega-Project for Infectious Disease (no. 2012ZX10004215).
References
Table
Table. Antigenic characterization of influenza virus subtypes, measured by hemagglutinin inhibition assays, China, 2013
Technical Appendix
Technical Appendix. . Table showing cross-reactive antibody response against avian-like influenza A(H1N1) virus in pediatric and adult recipients of seasonal trivalent inactivated influenza vaccines, China, 2013 [92 KB - 1 page]
Suggested citation for this article: Wang D-Y, Qi S-X,1 Li X-Y, Guo J-F, Tan M-J, Han G-Y, et al. Human infection with Eurasian avian-like influenza A(H1N1) virus, China [letter]. Emerg Infect Dis [Internet]. 2013 Oct [date cited]. http://dx.doi.org/10.3201/eid1910.130420
DOI: 10.3201/eid1910.130420
<SUP>1</SUP>These authors contributed equally to this article.
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Volume 19, Number 10?October 2013
Letter
Human Infection with Eurasian Avian-like Influenza A(H1N1) Virus, China
__
To the Editor: We report a human infection with avian-like swine A(H1N1) influenza virus first identified through a surveillance system for influenza-like illness (ILI) in mainland China. An influenza virus, isolated from a patient with ILI, was originally subtyped as influenza A(H1N1)pdm09 virus with a hemagglutination-inhibition (HI) test, but it was identified as a Eurasian avian-like influenza A(H1N1) virus (EA-H1N1) by full genome sequencing on January 30, 2013. The virus was named A/Hebei-Yuhua/SWL1250/2012 (H1N1v) (HB/1250/12), according to the definition protocol of the World Health Organization (1).
The case-patient was a 3-year-old boy who had fever and sore throat; his highest body temperature was 38?C on December 9, 2012. He was brought for medical treatment to an influenza sentinel hospital in the city of Shijiazhuang in Hebei Province, China, on December 12. He recovered within a week without hospitalization and without oseltamivir treatment. A throat swab specimen was collected and sent to the local Chinese Center for Disease Control and Prevention for virus isolation and characterization, according to the Guidelines of the Chinese National Influenza Surveillance Network. A retrospective investigation was conducted to identify the possible source of infection and any other possible cases. The case-patient was previously healthy and had no history of close contact with animals (live or dead wild birds, poultry, and swine) within 2 weeks before the onset of symptoms, nor a history of travel. He lived with his sister and parents; influenza-like symptoms did not develop in any other family members.
Sporadic human infections with swine influenza virus had been reported (2,3). Another case-patient, infected by EA-H1N1 influenza virus A/Jiangsu/1/2011(JS11) in early 2011, was reported (4,5). The genome sequences of the viruses isolated from the 2 case-patients showed high homology; the similarity of the polymerase basic protein 2 was 99.1%; of polymerase basic protein 1, 99.3%; of polymerase acidic protein, 98.9%; of hemagglutinin (HA), 99.1%; nucleocapsid protein, 99.1%; neuraminidase protein, 99.2%; matrix protein, 99.6%; and nonstructural protein, 99.2% (Global Initiative on Sharing Avian Influenza Data [GISAID] accession no. EPI301156?63 for JS11 and EPI438417?25 for HB/1250/12). The HB/1250/12 virus has the amino acids D (at site 190) and E (at site 225) within the HA protein, which are reported to be critical for enhancement of the HA affinity in binding to α-2,6?linked sialosides (6). The virus was resistant to amantadine and rimantadine with S31N (Ser→Asp) mutation in the M2 gene, but it was predicted to be susceptible to the neuraminidase inhibitor drugs oseltamivir and zanamivir on the basis of the neuraminidase gene.
HI test with ferret antiserum against A(H1N1)pdm09 (CA09), seasonal H3N2(Vic11,BR10/07 and Perth09), classical swine subtype H1N1(NJ76), and the seasonal influenza subtype H1N1 viruses (BR59/07, SI06) showed that the HB/1250/12 virus is antigenically indistinguishable from NJ76 and CA09 but different from subtype H3N2 viruses (Vic11, BR10/07, and Perth09) and seasonal subtype H1N1 viruses(BR59/07, SI06) (Technical Appendix [PDF - 92 KB - 1 page]). These findings were consistent with results reported previously (7?9). To estimate the susceptibility of human population to this virus and to investigate whether seasonal trivalent inactivated influenza vaccine (TIV) could provide cross-protection, we collected serum samples from children, adults, and elderly adults before and after 2012?13 influenza season TIV vaccination, and the antibody against HB/1250/12 virus was tested by HI assay. The seroprotection antibody was defined as HI titers >40. Before vaccination, 28% of children (3?5 years) and 6.7% of adults (18?59 years) had HI titers >40, but elderly adults (>60 years) did not. Samples from 56% of children, 56.7% of adults, and 26.7% of elderly adults had HI titers >40 after TIV vaccination; in fact, a 4-fold antibody rise developed in <30% of persons in any age group (Table). These results indicated that a proportion of children and adults possess cross-protective antibody against EA-H1N1, whereas elderly adults are the most susceptible to EA-H1N1 infection with no cross-protective antibodies and that vaccination with TIV could not substantially improve the level of cross-reactive EA-H1N1 antibodies.
Antiserum from hyperimmune sheep is usually used for influenza virus typing and subtyping. The CA09 sheep antiserum reacted well with the HB/1250/12 virus (Table). This is the reason the local Chinese Center for Disease Control and Prevention originally subtyped HB/1250/12 as A(H1N1)pdm09 virus. Such avian-like H1N1 virus could be missed with regular HI test. In addition, a large proportion of swine influenza infections are mild and even asymptomatic (2); thus, human infections with swine influenza virus may have been underestimated in China.
Identification of this human case of EA-H1N1 infection through the national ILI surveillance network in China indicates that the influenza surveillance network not only plays a critical role in monitoring the seasonal influenza circulation and the vaccine virus selection, but also is useful for early detection of novel influenza viruses with pandemic potential. This study also highlighted the value of, and urgent demand for, a cost-effective sequencing platform on routine influenza surveillance for pandemic preparedness.
__
Da-Yan Wang<SUP>1</SUP>, Shun-Xiang Qi<SUP>1</SUP>, Xi-Yan Li, Jun-Feng Guo, Min-Ju Tan, Guang-Yue Han, Yan-Fang Liu, Yu Lan, Lei Yang, Wei-Juan Huang, Yan-Hui Cheng, Xiang Zhao, Tian Bai, Zhao Wang, He-Jiang Wei, Ning Xiao, and Yue-Long Shu
Author affiliations: Chinese Center for Disease Control and Prevention. Beijing, People?s Republic of China (D.-Y. Wang, X.-Y. Li, J.-F. Guo, M.-J. Tan, Y. Lan, L. Yang, W.-J. Huang, Y.-H. Cheng, X. Zhao, T. Bai, Z. Wang, N. Xiao, H.-J. Wei, Y.-L. Shu); Hebei Center for Disease Control and Prevention, Shijiazhuang, People?s Republic of China (S.-X. Qi, G.-Y. Han, Y.-F. Liu)
Acknowledgment
This work was partly supported by National Basic Research Program of China (973 program, no. 2011CB504704) and the China Mega-Project for Infectious Disease (no. 2012ZX10004215).
References
- World Health Organization. Standardization of terminology for the variant A(H3N2) virus recently infecting humans [cited 2013 Aug 1]. http://wwwwhoint/influenza/gisrs_laboratory/terminology_ah3n2v/en/indexhtml
- Myers KP, Olsen CW, Gray GC. Cases of swine influenza in humans: a review of the literature. Clin Infect Dis. 2007;44:1084?8. DOI PubMed
- Adiego Sancho B, Omenaca Teres M, Martinez Cuenca S, Rodrigo Val P, Sanchez Villanueva P, Casas I, Human case of swine influenza A (H1N1), Aragon, Spain, November 2008. Euro Surveill. 2009;14:19120 .PubMed
- Qi X, Cui L, Jiao Y, Pan Y, Li X, Zu R, Antigenic and genetic characterization of a European avian-like H1N1 swine influenza virus from a boy in China in 2011. Arch Virol. 2013;158:???. DOI PubMed
- Yang H, Qiao C, Tang X, Chen Y, Xin X, Chen H. Human infection from avian-like influenza A (H1N1) viruses in pigs, China. Emerg Infect Dis. 2012;18:1144?6. DOI PubMed
- Matrosovich M, Tuzikov A, Bovin N, Gambaryan A, Klimov A, Castrucci MR, Early alterations of the receptor-binding properties of H1, H2, and H3 avian influenza virus hemagglutinins after their introduction into mammals. J Virol. 2000;74:8502?12. DOI PubMed
- Vijaykrishna D, Smith GJ, Pybus OG, Zhu H, Bhatt S, Poon LL, Long-term evolution and transmission dynamics of swine influenza A virus. Nature. 2011;473:519?22. DOI PubMed
- Vijaykrishna D, Poon LL, Zhu HC, Ma SK, Li OT, Cheung CL, Reassortment of pandemic H1N1/2009 influenza A virus in swine. Science. 2010;328:1529. DOI PubMed
- Zhu H, Zhou B, Fan X, Lam TT, Wang J, Chen A, Novel reassortment of Eurasian avian-like and pandemic/2009 influenza viruses in swine: infectious potential to humans. J Virol. 2011;85:10432?9. DOI PubMed
Table
Table. Antigenic characterization of influenza virus subtypes, measured by hemagglutinin inhibition assays, China, 2013
Technical Appendix
Technical Appendix. . Table showing cross-reactive antibody response against avian-like influenza A(H1N1) virus in pediatric and adult recipients of seasonal trivalent inactivated influenza vaccines, China, 2013 [92 KB - 1 page]
Suggested citation for this article: Wang D-Y, Qi S-X,1 Li X-Y, Guo J-F, Tan M-J, Han G-Y, et al. Human infection with Eurasian avian-like influenza A(H1N1) virus, China [letter]. Emerg Infect Dis [Internet]. 2013 Oct [date cited]. http://dx.doi.org/10.3201/eid1910.130420
DOI: 10.3201/eid1910.130420
<SUP>1</SUP>These authors contributed equally to this article.
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