Triple reassortant H3N2 influenza a viruses, Canada, 2005.Since January 2005, H3N2 influenza viruses have been isolated from pigs and turkeys throughout Canada and from a swine farmer and pigs on the same farm in Ontario. These are human/classical swine/avian reassortants similar to viruses that emerged in US pigs in 1998 but with a distinct human-lineage neuraminidase neuraminidase /neu·ra·min·i·dase/ (-ah-min´i-das) an enzyme of the surface coat of myxoviruses that destroys the neuraminic acid of the cell surface during attachment, thereby preventing hemagglutination. gene. ********** Influenza viruses of the classical H1N1 lineage were the dominant cause of influenza among North American North American named after North America. North American blastomycosis see North American blastomycosis. North American cattle tick see boophilusannulatus. pigs for >60 years (1). However, in 1998, H3N2 viruses emerged and rapidly spread throughout the US swine population (2-4). These were unique triple reassortant genotype viruses, with hemagglutinin hemagglutinin /he·mag·glu·ti·nin/ (-gloo´ti-nin) an antibody that causes agglutination of erythrocytes. cold hemagglutinin one which acts only at temperatures near 4° C. (HA), neuraminidase (NA), and RNA polymerase RNA polymerase n. A polymerase that catalyzes the synthesis of RNA from a DNA or RNA template. (PB1) genes of human influenza virus lineage; nucleoprotein nucleoprotein Macromolecular complex consisting of a protein linked to a nucleic acid, either DNA or RNA. The proteins that combine with DNA are generally of characteristic types called histones and protamines. (NP), matrix (M), and nonstructural (NS) genes of classical swine virus lineage; and RNA polymerase (PA and PB2) genes of North American avian virus lineage. Further reassortment between these viruses and classical H1N1 swine viruses led to the emergence ofreassortant H1N2 and H1N1 viruses among pigs in the United States (1). The reassortant H3N2 and H1N2 viruses have also been isolated from turkeys and ducks in the United States (5-8). Despite geographic proximity and cross-boundary trade in pigs and turkeys between the United States and Canada (9, D. Harvey, pers. comm.), these reassortant viruses did not initially infect animals in Canada. However, beginning in approximately January 2005, H3N2 influenza viruses swept rapidly across Canada. We describe the genetic characterization of reassortant H3N2 viruses from pigs, turkeys, and a swine farm worker in contact with sick pigs during this outbreak. The Study Influenza viruses were isolated in Madin-Darby canine kidney cells from lung tissue or nasal swab samples from pigs of various ages (young growers to adults) manifesting influenzalike illness (ILI) in Manitoba in January (A/ Swine/Manitoba/12707/05), Alberta in February (A/ Swine/Alberta/14722/05), British Columbia in May (A/Swine/British Columbia/28103/05), and Ontario in July (A/Swine/Ontario/33853/05). No clear epidemiologic links existed between these farms. A/Ontario/RV1273/05 was isolated in primary rhesus monkey rhesus monkey: see macaque. rhesus monkey Sand-coloured macaque (Macaca mulatta), widespread in South and Southeast Asian forests. Rhesus monkeys are 17–25 in. (43–64 cm) long, excluding the furry 8–12-in. kidney cells from a nasal swab specimen collected as part of a diagnostic workup work·up n. Abbr. w/u A thorough medical examination for diagnostic purposes. from an otherwise healthy farm worker in Ontario in whom ILI developed 2-3 days after onset of ILI among pigs on his premises. Fourteen-day courses of oseltamivir therapy were prescribed for this patient beginning the day he saw his physician and for 11 other potentially exposed farm workers beginning 2 days later. The patient recovered uneventfully; no other respiratory viruses were identified from his samples. A/Turkey/Ontario/31232/05 was isolated in embryonated hen's eggs from a cloacal cloacal emanating from or pertaining to cloaca. cloacal kiss the contact which occurs during insemination in birds when the vent of the female is everted exposing the cloacal mucosa against which the phallus of the male is pressed. swab sample from turkeys showing a severe drop in egg production. The turkey farm was located across the road from a swine farm at which pigs concurrently exhibited ILI, although virus isolates were not available from those pigs. Nucleotide sequences of the full-length coding regions of all 8 RNA RNA: see nucleic acid. RNA in full ribonucleic acid One of the two main types of nucleic acid (the other being DNA), which functions in cellular protein synthesis in all living cells and replaces DNA as the carrier of genetic segments from each virus were determined by direct cycle sequencing with previously described techniques and primers (3,10,11). Related reference viruses were identified by BLAST (basic local alignment search tool) analyses, sequence comparisons were conducted by using DNASTAR software, version 6.3 (DNASTAR Inc., Madison, WI, USA), and phylogenetic phy·lo·ge·net·ic adj. 1. Of or relating to phylogeny or phylogenetics. 2. Relating to or based on evolutionary development or history. relationships were estimated from the nucleotide sequences by the method of maximum parsimony (fast heuristic search algorithm, PAUP PAUP Phylogenetic Analysis Using Parsimony software, version 4.0b 10 [Sinauer Associates, Inc., Sunderland, MA, USA]) with a bootstrap See boot. (operating system, compiler) bootstrap - To load and initialise the operating system on a computer. Normally abbreviated to "boot". From the curious expression "to pull oneself up by one's bootstraps", one of the legendary feats of Baron von Munchhausen. resampling method (200 replications). Pairwise nucleotide identities among the 2005 Canadian swine, turkey, and human isolates range from 94.0%-100% (NA) to 99.9%-100% (M), and amino acid amino acid (əmē`nō), any one of a class of simple organic compounds containing carbon, hydrogen, oxygen, nitrogen, and in certain cases sulfur. These compounds are the building blocks of proteins. identities range from 98.9%-100% (NA) to 100% (M, NP). The human and swine isolates recovered on a single farm in Ontario are 100% identical in nucleotide sequences across all 8 RNA segments. Phylogenetically phy·lo·ge·net·ic adj. 1. Of or relating to phylogeny or phylogenetics. 2. Relating to or based on evolutionary development or history: a phylogenetic classification of species. , the 2005 Canadian viruses form single clusters on phylograms for each of the 8 viral RNA segments, confirming that this epizootic ep·i·zo·ot·ic adj. Affecting a large number of animals at the same time within a particular region or geographic area. Used of a disease. ep was caused by a single lineage of viruses. All of the viruses share the same human/classical swine/avian triple reassortant genotype as the H3N2 viruses that emerged in pigs in the United States in 1998 (2-4). The HA genes (Figure 1) of the Canadian viruses are most closely related to the cluster III group of American viruses that were first isolated from pigs in 1999 (4) and subsequently from turkeys (7,8), though the HA phylogram topography suggests that these Canadian and related US viruses represent a new, separate cluster (IV) of viruses. The M, NP, NS, and polymerase genes of the Canadian viruses are also phylogenetically closely related to reassortant viruses dating back to 1998 in the United States (data not shown). In contrast, the NA genes (Figure 2) of the 2005 Canadian viruses, though still clearly of human lineage, are phylogenetically distinct from most of the US swine and turkey isolates. This lineage is represented by human H3N2 isolates from Asuncion, Paraguay, (2001) and New York New York, state, United States New York, Middle Atlantic state of the United States. It is bordered by Vermont, Massachusetts, Connecticut, and the Atlantic Ocean (E), New Jersey and Pennsylvania (S), Lakes Erie and Ontario and the Canadian province of (2003). However, this lineage of NA genes has also been introduced into animal influenza viruses on 2 previous occasions. The first is represented by A/Turkey/Ohio/313053/04 (8), which phylogenetically is the most closely related virus to the Canadian viruses across all 8 RNA segments. Since this virus was isolated in February 2004 (8), nearly 1 year before the first isolations of viruses from Canada, one might conjecture that this or a closely related virus from the United States was the source of the Canadian viruses. However, this lineage of NA genes was also already present in human/classical swine reassortant H1N2 viruses (A/Swine/Ontario/48235/04, A/Swine/Ontario/55383/04) isolated from Canadian pigs in 2004 (12). Thus, it is neither possible nor prudent from the phylogenetic data alone to define the specific epidemiologic source(s) of the 2005 Canadian H3N2 viruses. However, the appearance of this lineage of NA genes among H3N2 viruses in turkeys in the United States and Canada and H3N2 and H1N2 viruses in pigs in Canada suggests that a complicated web of interspecies transmission, reassortment, and transboundary movement of viruses occurred in a relatively short period of time. [FIGURES 1-2 OMITTED] Conclusions To our knowledge, this report describes the first isolation of a human/classical swine/avian triple reassortant H3N2 virus from a human. This isolation could not have occurred through cross-contamination in a laboratory since the animal and human virus isolations and sequencing were conducted in different locations. Hemagglutination-inhibition (HI) and virus neutralization neutralization, chemical reaction, according to the Arrhenius theory of acids and bases, in which a water solution of acid is mixed with a water solution of base to form a salt and water; this reaction is complete only if the resulting solution has neither acidic nor (VN) assays of acute- and convalescent-phase (11 and 45 days after the acute-phase sample) sera did not show evidence of sero-conversion against the patient's own isolate, A/Ontario/RV1273/05 (HI titer titer /ti·ter/ (ti´ter) the quantity of a substance required to react with or to correspond to a given amount of another substance. = 8 and VN titer = 16 on all 3 test dates). Thus, although this farm worker had a febrile febrile /feb·rile/ (feb´ril) pertaining to or characterized by fever. feb·rile adj. Of, relating to, or characterized by fever; feverish. respiratory illness and no other etiologic agent was identified, we cannot prove that he was actively infected with the triple reassortant virus; he may have simply been harboring the virus in his nasal passages. Nonetheless, this isolation shows that agricultural workers may be exposed to influenza viruses from livestock. In summary, this report describes the emergence and rapid spread since January 2005 of reassortant H3N2 influenza A influenza A n. Influenza caused by infection with a strain of influenza virus type A. influenza A Infectious disease An avian virus, especially of ducks–which in China live near the pig reservoir and 'vector'; viruses among pigs and turkeys across Canada and isolation of a related virus from the nasal passages of a farm worker in Ontario. The 4 swine isolates chosen for our analyses provide a sampling of viruses from British Columbia to Ontario, but clinical reports indicate that the outbreak of ILI in pigs was much more extensive than this limited number of isolates might suggest. For example, H3N2 virus infections were confirmed on 22 swine farms in Ontario between late April and early July 2005. Likewise, additional infections of turkeys with H3 viruses in 2005 were reported in British Columbia (on a farm that was near a swine farm where H3 virus was detected [13]) and in multiple flocks in Manitoba (A. Hamel Ham´el v. t. 1. Same as Hamble. and G. Nayar, pers. comm.). When this Canadian epizootic is considered together with the extensive spread of genotypically similar H3N2 and H1N2 viruses in pigs and turkeys seen in the United States since 1998, we see that viruses with this human/classical swine/avian triple reassortant genotype can efficiently infect both pigs and turkeys. The GenBank numbers assigned to the gene sequences of viruses investigated in this study are as follows: A/Ontario/RV1273/05, DQ469955-DQ469962; A/Swine/ Alberta/14722/05, DQ469963-DQ469970; A/Swine/ British Columbia/28103/05, DQ469971-DQ469978; A/Swine/Manitoba/12707/05, DQ469979-DQ469986; A/Swine/Ontario/33853/05, DQ469987-DQ469994; and A/Turkey/Ontario/31232/05, DQ469995-DQ470002. Acknowledgments We thank Gabriele Landolt, Bruce McNab, Paul Innes, Grant Maxie, Eng-Soon Chan, Theresa Tam, Kerri Watkins, Jean Wilson, and staff members from the Ontario Ministry of Health and Long-Term Care long-term care (LTC), n the provision of medical, social, and personal care services on a recurring or continuing basis to persons with chronic physical or mental disorders. and the Perth District Health Unit for helpfill discussions; Alireza Eshaghi for excellent technical support; and Mo Saif for providing sequence information on A/Turkey/Ohio/313053/04 before submission to GenBank. References (1.) Olsen CW. Emergence of novel strains of swine influenza swine influenza n. A highly contagious form of human influenza caused by a filterable virus identical or related to a virus formerly isolated from infected swine. Also called swine flu. virus in North America. In: Morilla A, Yoon K-J, Zimmerman JJ, editors. Trends in emerging viral infections of swine. Ames (IA): Iowa State University Academics ISU is best known for its degree programs in science, engineering, and agriculture. ISU is also home of the world's first electronic digital computing device, the Atanasoff–Berry Computer. Press; 2002. p. 37-43. (2.) Zhou NN, Senne DA, Landgraf JS, Swenson SL, Erickson G, Rossow K, et al. Genetic reassortment of avian, swine, and human influenza A viruses in American pigs. J Virol. 1999;73:8851-5. (3.) Karasin AI, Schutten MM, Cooper LA, Smith CB, Subbarao K, Anderson GA, et al. Genetic characterization of H3N2 influenza viruses isolated from pigs in North America, 1977-1999: evidence for wholly human and reassortant virus genotypes. Virus Res. 2000;68:71-85. (4.) Webby RJ, Swenson SL, Krauss SL, Gerrish PJ, Goyal SM, Webster RG. Evolution of swine H3N2 influenza viruses in the United States. J Virol. 2000;74:8243-51. (5.) Suarez DL, Woolcock PR, Bermudez AJ, Senne DA. Isolation from turkey breeder hens of a reassortant H1N2 influenza virus with swine, human, and avian lineage genes. Avian Dis. 2002;46:111-21. (6.) Olsen CW, Karasin A, Erickson G. Characterization of a swine-like reassortant H1N2 influenza virus isolated from a wild duck in the United States. Virus Res. 2003;93:115-21. (7.) Choi YK, Lee JH, Erickson G, Goyal SM, Soo HS, Webster RG, et al. H3N2 influenza virus transmission from swine to turkeys, United States. Emerg Infect Dis. 2004; 10:2156-60. (8.) Tang Y, Lee CW, Zhang Y, Senne DA, Dearth R, Byrum B, et al. Isolation and characterization of H3N2 influenza virus from turkeys. Avian Dis. 2005;49:207-13. (9.) Haley MM. Market integration in the North American hog industries [monograph on the Internet]. United States Department of Agriculture United States Department of Agriculture (USDA), n.pr established in 1862, USDA is responsible for the safety of meat, poultry, and egg products. It conducts ongoing research in areas from human nutrition to new crop technologies and also helps ensure open . 2004 Nov [cited 2006 Apt 7]. Available from http://www.ers.usda.gov/publications/ldp/NOV04/ldpm12501/ldpml 2501.pdf (10.) Zou S. A practical approach to genetic screening for influenza virus variants. J Clin Microbiol. 1997;35:2623-7. (11.) Hoffmann E, Stech J, Guan guan: see curassow. Y, Webster RG, Perez DR. Universal primer set for the full-length amplification of all influenza A viruses. Arch Virol. 2001;146:2275-89. (12.) Karasin AI, Carman S, Olsen CW. Identification of human H1N2 and human-swine reassortant H1N2 and H1N1 influenza A viruses among pigs in Ontario, Canada, 2003-2005. J Clin Microbiol. 2006;44:1123-6. (13.) Canadian Food Inspection Agency The Canadian Food Inspection Agency (French: Agence canadienne d'inspection des aliments), or CFIA, which was created in April 1997, brought together inspection and related services previously provided through the activities of four federal government departments . Avian influenza avian influenza: see influenza. , turkeys, H3-Canada (British Columbia). 2005 Jun 1 [cited 2006 Apr 7]. Available from http://www.promedmail.org, archive no. 20050601.1524 Christopher W. Olsen, * Alexander I. Karasin, * Suzanne Carman, ([dagger]) Yan Li, ([double dagger]) Nathalie Bastien, ([double dagger]) Davor Ojkic, ([dagger]) David Alves, ([section]) George Charbonneau, ([paragraph]) Beth M. Henning, (#) Donald E. Low, ** Laura Burton, ** and George Broukhanski ** * University of Wisconsin-Madison “University of Wisconsin” redirects here. For other uses, see University of Wisconsin (disambiguation). A public, land-grant institution, UW-Madison offers a wide spectrum of liberal arts studies, professional programs, and student activities. , Madison, Wisconsin, USA; ([dagger]) Animal Health Laboratory, Guelph, Ontario, Canada; ([double dagger]) Canadian Science Centre for Human and Animal Health, Winnipeg, Manitoba, Canada; ([section]) Ontario Ministry of Agriculture, Food, and Rural Affairs, Guelph, Ontario, Canada; ([paragraph]) Swine Services Group, Stratford, Ontario, Canada; (#) Ontario Ministry of Health and Long Term Care, Clinton, Ontario, Canada; and ** Ontario Ministry of Health and Long Term Care, Toronto, Ontario, Canada Address for correspondence: Christopher W. Olsen, Department of Pathobiological Sciences, School of Veterinary Medicine veterinary medicine, diagnosis and treatment of diseases of animals. An early interest in animal diseases is found in ancient Greek writings on medicine. Veterinary medicine began to achieve the stature of a science with the organization of the first school in the , University of Wisconsin-Madison, 2015 Linden Dr, Madison, WI 53706, USA; email: olsenc@svm.vetmed.wisc.edu Dr Olsen is a professor of public health at the University of Wisconsin-Madison School of Veterinary Medicine. His professional interests include understanding infectious diseases at the human-animal interface, in particular, interspecies transmission of influenza viruses. |
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