Volume 23, Number 4—April 2017
Novel Reassortant Highly Pathogenic Avian Influenza (H5N8) Virus in Zoos, India
Since 1996, the hemagglutinin (HA) gene of subtype H5N1 highly pathogenic avian influenza (HPAI) viruses has evolved into multiple phylogenetic clades (1). During 2010, subtype H5N8 virus, bearing an H5N1 backbone and polymerase basic (PB) protein 1 (PB1), nucleoprotein (NP), and neuraminidase (NA) genes from non-H5N1 virus, emerged in China (2). In January 2014, a novel reassortant HPAI (H5N8) virus was detected in poultry and wild birds in South Korea (3) and subsequently spread to other counties in Asia and Europe before reaching North America by the end of 2014 (4). Because the H5N8-associated outbreaks coincided with bird migration routes, movement of wild waterfowl was suspected in intercontinental spread (5). Therefore, understanding the source and spread of the virus is a critical requirement for guidance of control measures. We report analysis of the genome of HPAI (H5N8) viruses isolated from waterfowl (domestic duck [Anas platyrhynchos domesticus] and painted stork [Mycteria leucocephala]) at 2 zoos in India in October 2016.
Twenty avian influenza viruses were isolated from 83 samples from National Zoological Park, Delhi, and Gandhi Zoological Park, Gwalior, Madhya Pradesh, India, in October 2016. The viruses were subtyped as H5N8 by using reverse transcription PCR and real-time RT-PCR (Technical Appendix 1[PDF - 2.26 MB - 13 pages]). One representative isolate each from Delhi (A/duck/India/10CA01/2016) and Madhya Pradesh (A/painted stork/India/10CA03/2016) were processed for pathogenic and molecular characterization. A detailed description of the methods for the intravenous pathogenicity index test and genetic analysis used are provided in Technical Appendix 1[PDF - 2.26 MB - 13 pages]. Nucleotide sequences were deposited in the GISAID EpiFlu database (http://www.gisaid.org) under accession nos. EP1858833–EP1858848.
Both isolates were highly pathogenic based on amino acid sequence at the HA cleavage region (PLREKRRKR/GLF), which was corroborated by using an intravenous pathogenicity index test of 3.00 (Delhi isolate) and 2.96 (Madhya Pradesh isolate). Amino acid markers in the neuraminidase protein and matrix protein 2 indicated sensitivity to neuraminidase inhibitors and amantadines. Markers for mammalian virulence and poultry adaptation, such as E627K and D701N in PB2 and amino acid deletion in nonstructural protein (NS) 1 (position 80–84), were absent in the H5N8 viruses. However, 42S and 13P mutations in NS and PB1 genes (6) associated with increased virulence of the virus to mice were present. The PB1-F2 protein was truncated because of nucleotide mutation C35A, leading to premature termination after 11 aa.
Except the polymerase acidic (PA) and NP genes, all other gene segments of both isolates shared high nucleotide identity, ranging from 99.2% to 99.5%. The nucleotide identity of the PA and NP gene was 95.8% and 94.8%, respectively, suggesting involvement of 2 gene pools of H5N8 virus in the waterfowl outbreaks at Delhi and Madhya Pradesh.
In the HA gene phylogeny, the Indian isolates clustered with H5N8 viruses from other countries in Asia and Europe within group B (intercontinental group B) (Technical Appendix 1[PDF - 2.26 MB - 13 pages] Figures 1–8). A similar grouping pattern was observed in the neuraminidase and nonstructural (NS) gene phylogenies. Further, within intercontinental group B, the isolates shared >99% nucleotide sequence identity with H5N8 viruses isolated in Uvs-Nuur Lake (located at the Mongolia–Russia border) and Qinghai Lake, China, in May 2016 (Technical Appendix 1[PDF - 2.26 MB - 13 pages] Table 2). However, PB1, PB2, and matrix protein genes grouped with low pathogenic avian influenza (LPAI) viruses isolated in Eurasia and H5N8 viruses isolated in Qinghai Lake, Uvs-Nuur Lake, and Tyva Republic (Russian Federation).
In the PA phylogeny, although the Delhi virus grouped with LPAI viruses isolated in Mongolia and Vietnam and viruses isolated in Qinghai Lake, Uvs-Nuur Lake, and Tyva Republic, the Madhya Pradesh virus shared close relationship with LPAI viruses from Eurasia. In the NP gene phylogeny, the Delhi virus shared close relationship with the Eurasia group of LPAI, whereas the Madhya Pradesh virus and H5N8 viruses from Qinghai Lake, Uvs-Nuur Lake, and Tyva Republic are closely related to the Eurasia 2 LPAI viruses. These results suggest that both isolates are 7:1 reassortant of the Tyva Republic and Uvs-Nuur Lake H5N8 viruses reported previously (7) with different gene constellations. A median-joining network analysis indicated that, even though the contemporary H5N8 viruses isolated from wild birds in Qinghai Lake, Uvs-Nuur Lake, and Tyva Republic are not the direct ancestors, closely related precursor gene pools are source of the H5N8 viruses that caused outbreaks in waterfowls at the 2 zoos in India (Technical Appendix 1[PDF - 2.26 MB - 13 pages] Figure 9).
The outbreak in waterfowls at both zoos coincided with winter migration of birds to India (September–March). The Uvs-Nuur Lake is an important habitat for 46 resident waterfowl species and 215 different species of birds migrating southward from Siberia (8). Therefore, different waves of migration of the wild birds might be the source of introduction of the H5N8 virus at the 2 zoos in India, as suggested by the observed spread of H5N1 clade 2.2 and 220.127.116.11c viruses (9,10).
Dr. Nagarajan is senior scientist at Indian Council of Agricultural Research–National Institute of High Security Animal Diseases, Bhopal, India. His research interests are focused on surveillance, development of diagnostics, molecular epidemiology, and pathogenesis of avian influenza.
We are thankful to the Indian Council of Agricultural Research, New Delhi, and the Indian Council of Agricultural Research–National Institute of High Security Animal Diseases, Bhopal, for providing necessary facilities to carry out this work. We are thankful to the Directors of Animal Husbandry Department of Delhi and Madhya Pradesh states in India for sharing the clinical samples used as part of this study. We gratefully acknowledge the authors and the originating and submitting laboratories for the sequences from the Global Initiative on Sharing Avian Influenza Data EpiFlu database (Technical Appendix 2).
We acknowledge funding by the Department of Animal Husbandry, Dairying and Fisheries, Ministry of Agriculture and Farmers Welfare, Government of India under Central Disease Diagnostic Laboratory Grant.
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1These authors contributed equally to this article.