Avian influenza H5N1 in tigers and leopards.Influenza virus is not known to affect wild felids felids cats. . We demonstrate that avian influenza A (H5N1) virus caused severe pneumonia in tigers and leopards that fed on infected poultry carcasses. This finding extends the host range of influenza virus and has implications for influenza virus and wildlife conservation. ********** The Study The 2003-2004 avian influenza A (H5N1) virus outbreak in Southeast Asia resulted in 24 reports of fatal human cases (May 12, 2004) due to direct transmission of the virus from birds to humans. During the H5N1 virus outbreak in Thailand in December 2003 (1), two tigers (Panthera tigris) and two leopards (P. pardus) at a zoo in Suphanburi, Thailand, showed clinical signs, including high fever and respiratory distress, and they died unexpectedly. The animals had been fed fresh chicken carcasses from a local slaughterhouse. At that time many chickens around Suphanburi were dying with respiratory and neurologic symptoms of what was retrospectively identified as H5N1 virus infection (1). Postmortem examinations were performed on all four zoo felids, and samples were collected for histologic, immunohistochemical, and virologic analyses. At necropsy, the primary gross lesions in all four animals were severe pulmonary consolidation and multifocal multifocal /mul·ti·fo·cal/ (mul?te-fo´k'l) arising from or pertaining to many foci. mul·ti·fo·cal adj. Relating to or arising from many foci. hemorrhage in several organs, including lung, heart, thymus, stomach, intestine, liver, and lymph nodes. Histologic examination was performed on formalin-fixed, paraffin-embedded tissue sections stained with hematoxylin hematoxylin /he·ma·tox·y·lin/ (he?mah-tok´si-lin) an acid coloring matter from the heartwood of Haematoxylon campechianum; used as a histologic stain and also as an indicator. and eosin eosin /eo·sin/ (e´o-sin) any of a class of rose-colored stains or dyes, all being bromine derivatives of fluorescein; eosin Y, the sodium salt of tetrabromofluorescein, is much used in histologic and laboratory procedures. . Pulmonary lesions were characterized by loss of bronchiolar bronchiolar pertaining to or emanating from the bronchioles. bronchiolar microlithiasis see microlithiasis. bronchiolar tumors see pulmonary neoplasm. and alveolar epithelium; thickening of alveolar walls; and flooding of alveolar lumens with edema fluid mixed with fibrin, erythrocytes, neutrophils, and macrophages (Figures 1A and 1B). One tiger and one leopard had evidence of encephalitis, characterized by multifocal infiltration by neutrophils and macrophages. Tissues were examined for influenza A (H5N 1) virus nucleic acid by reverse transcriptase-polymerase chain reaction (RT-PCR RT-PCR reverse transcriptase-polymerase chain reaction. See PCR1. ) analysis, with primer pairs specific for the 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) and 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. (NA) genes (2). Lung samples from all four animals were positive for H5N1 with both primer pairs, and the identity of the PCR PCR polymerase chain reaction. PCR abbr. polymerase chain reaction Polymerase chain reaction (PCR) products was confirmed by nucleotide sequencing. Formalin-fixed, paraffin-embedded tissue sections from one of the leopards were examined for influenza virus antigen by an immunohistochemical technique (3). A monoclonal antibody against the 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. of influenza A virus was used as primary antibody. Alveolar and bronchiolar epithelial cells in affected lungs expressed influenza virus antigen (Figure 1C and 1D), confirming that influenza virus infection was the primary cause of the pneumonia. [FIGURE 1 OMITTED] Influenza A virus was isolated from lung samples of one of the tigers and one of the leopards by injecting into embryonated chicken eggs (3). The entire genomes of these two viruses were sequenced. RT-PCR specific for the conserved noncoding regions of influenza A virus was performed (4). PCR products were purified by using the QIAquick gel extraction kit (Qiagen, Leusden, the Netherlands) and sequenced with the Big Dye Terminator sequencing kit, version 3.0 (Amersham Biosciences, Piscataway, NJ). Nucleotide sequences were aligned by using Clustal-W running under BIOEDIT 5.0.9 (Ibis Therapeutics, Carlsbad, CA) and maximum likelihood trees were generated with PHYLIP PHYLIP Phylogeny Inference Package (genetics software) 3.6 (University of Washington, Seattle, WA) (5) with 100 bootstraps and three jumbles. The consensus tree was used as a user tree in DNAML to recalculate branch lengths. The trees had good bootstrap support (data not shown). Sequencing and phylogenetic analysis of the HA and NA genes of these two isolates showed that they were virtually identical to each other and to the HSNI HSNI Hypertonic Saline Nasal Irrigation virus circulating in poultry at the time (Figure 2) (6). Therefore, the zoo fends were most probably directly infected with avian influenza A (H5N1) virus by feeding on infected poultry carcasses. Furthermore, phylogenetic analysis of the remaining six genome segments (data not shown; leopard accession no. AY646177-AY646182; tiger accession no. AY646169-AY646174) showed that they were of avian origin, which indicates that no reassortment with mammalian influenza viruses had occurred. [FIGURE 2 OMITTED] The virus isolates obtained from the tiger and the leopard contained a gLUtamine at position 222 (226 in H3) and a glycine glycine (glī`sēn), organic compound, one of the 20 amino acids commonly found in animal proteins. Glycine is the only one of these amino acids that is not optically active, i.e. at position 224 (228 in H3) in HA1, which were also found in other recent H5N1 isolates and which are related to preferential binding to avian cell-surface receptors (7). Both viruses contained a deletion of five amino acid residues in NS1, like other recent HSN1 isolates, and contained a glutamic acid at position 92 (6,8). The mutation glutamic acid to lysine lysine (lī`sēn), organic compound, one of the 20 amino acids commonly found in animal proteins. Only the l-stereoisomer appears in mammalian protein. at position 627 of PB2, which was responsible for the high virulence of A/Hong Kong/483/97 and was also found in fatal human cases of H7N7 infection in the Netherlands, was observed in the virus isolate obtained from the leopard, but not from the tiger (9,10). Thus, with the exception of position 627 at PB2 in the leopard isolate, the genomic sequences of these zoo felid isolates did not show substantial differences from other recent H5N1 isolates from Asia. Lung samples from all four fends tested negative for canine distemper virus by RT-PCR (11), while those of three of four felids tested positive for a vaccine strain of feline panleukopenia virus (12), administered 2 weeks before death. Although absence of typical clinical signs and lesions ruled out feline panleukopenia as the primary cause of death, an immunosuppressive effect cannot be ruled out (13). Conclusions This report is the first of influenza virus infection causing disease or death in nondomestic felids. Generally, influenza virus is also not considered pathogenic for the domestic cat. Experimental infection of domestic cats in the 1970s and 1980s with influenza A viruses of subtypes H3N2 from humans, H7N3 from a turkey, and H7N7 from a harbor seal (Phoc vitulina) resulted in transient virus excretion and a temporary increase in body temperature but did not induce clinical signs of disease (14-16). However, anecdotes of fatal infection have been reported in this species during the 2003-2004 H5N1 virus outbreak (17), and these reports were recently confirmed experimentally (18). Our findings in tigers and leopards extend the host range of this virus and, together with the findings in domestic cats (18), suggest that this H5N1 virus is more pathogenic for felids than other influenza viruses. This finding has important implications for wildlife conservation and influenza virus epidemiology. First, H5N1 virus infection may threaten the survival of endangered felids, as has been shown recently for other emerging viruses in susceptible wildlife (19,20). The severity of this threat is increased because H5NI virus may be transmitted horizontally between domestic cats (18). Second, if the higher pathogenicity of H5NI virus for felids also means longer excretion of more virus, the role of felids in avian influenza epidemiology, both in humans and in poultry, needs to be reevaluated. Finally, the confirmation of H5N1 virus infection as the probable cause of death in two other mammalian hosts besides humans implies that more species of mammals may be at risk for infection with this virus. Acknowledgments We thank Termsitthi Paphavasit and Somkid Kanda for technical support and Theo Bestebroer (virus isolation, PCR, and nucleotide sequencing), Pieter Derkx, Debby van Riel ri·el n. See Table at currency. [Origin unknown.] Noun 1. riel - the basic unit of money in Cambodia; equal to 100 sen (immunohistochemistry), and Frank van der Panne panne n. A special finish for velvet and satin that produces a high luster. [French, a soft cloth, from Old French penne, pane, fur lining, from Latin pinna, penna, (photography) for excellent technical assistance. The study was supported by a grant from the Center for Excellence Research Fund, Emergency Fund of Chulalongkorn University, and the Thailand Research Fund, Senior Research Scholar and National Center of Genetic Engineering and Biotechnology. Dr. Keawcharoen works at the Virology Unit, Faculty of Veterinary Science, Chulalongkorn University, Bangkok, Thailand. Her research interests include viral disease infection in companion animals and emerging diseases. References (1.) Cases of influenza A (H5NI) Thailand, 2004. MMWR MMWR Morbidity & Mortality Weekly Report Epidemiology A news bulletin published by the CDC, which provides epidemiologic data–eg, statistics on the incidence of AIDS, rabies, rubella, STDs and other communicable diseases, causes of mortality–eg, Morb Mortal Wkly Rep. 2004;53:100-3. (2.) Poddar SK. Influenza virus types and subtypes detection by single step single tube multiplex reverse transcription-polymerase chain reaction (RT-PCR) and agarose gel electrophoresis Agarose gel electrophoresis is a method used in biochemistry and molecular biology to separate DNA, RNA, or protein molecules by size. This is achieved by moving negatively charged nucleic acid molecules through an agarose matrix with an electric field (electrophoresis). . J Virol Methods. 2002;99:63-70. (3.) Rimmelzwaan GF, Kuiken T, van Amerongen G, Bestebroer TM, Fouchier RAM, Osterhaus ADME ADME Absorption, Distribution, Metabolism, and Excretion ADME Association of Destination Management Executives ADME Active Duty Medical Extension . Pathogenesis of influenza A (H5N1) virus infection in a primate model. J Virol. 2001;75:6687-91. (4.) Hoffmann E, Stech J, Guan Y, Webster RG, Perez DR. Universal primer set for the full-length amplification of all influenza A viruses. Arch Viroh 2001;146:2275-89. (5.) Felsenstein J. PHYLIP phylogeny inference package (version 3.2). Cladistics cladistics (klədĭs`tĭks) or phylogenetic systematics (fī'lōjənĕt`ĭk) . 1989;5:164-6. (6.) Viseshakul N, Thanawongnuwech R, Amonsin A, Suradhat S, Payungpom S, Keawcharoen J, et al. The gcnome sequence of H5N1 avian influenza A virus isolated from the outbreak among poultry populations in Thailand. Virology. 2004;328:169-76. (7.) Li KS, Guan Y, Wang J, Smith GJ, Xu KM, Duan L, et al. Genesis of a highly pathogenic and potentially pandemic H5N1 influenza virus in eastern Asia. Nature. 2004;430:209-13. (8.) Seo SH, Hoffmann E, Webster RG. Lethal H5NI influenza viruses escape host anti-viral cytokine responses. Nat Med. 2002;8:950-4. (9.) Hatta M, Gao P, Halfmann P, Kawaoka Y. Molecular basis for high virulence of Hong Kong H5N1 influenza A viruses. Science. 2001;293:1840-2. (10.) Fouchier RA, Schnceberger PM, Rozendaal FW, Broekman JM, Kemink SA, Munster V, et al. Avian influenza A virus (H7N7) associated with human conjunctivitis conjunctivitis (kənjəngtəvī`təs), inflammation or infection of the mucosal membrane that covers the eyeball and lines the eyelid, usually acute, caused by a virus or, less often, by a bacillus, an allergic reaction, or an and a fatal case of acute respiratory distress syndrome acute respiratory distress syndrome n. See adult respiratory distress syndrome. . Proc Natl Acad Sci USA. 2004;101:1356-61. (11.) Barrett T, Visser IKG, Mamaev L, Goatley L, Van Bressem MF, Osterhaus ADME. Dolphin and porpoise porpoise, small whale of the family Phocaenidae, allied to the dolphin. Porpoises, like other whales, are mammals; they are warm-blooded, breathe air, and give birth to live young, which they suckle with milk. morbilliviruses are genetically distinct from phocine distemper virus Phocine distemper virus (PDV) is a paramyxovirus of the genus morbillivirus that is pathogenic for pinniped species, particularly seals.[1] Clinical signs include laboured breathing, fever and nervous symptoms. . Virology. 1993;193:1010-2. (12.) Sakulwira K, Oraveerakul K, Poovorawan Y. Detection and genotyping of canine parvovirus in enteric dogs by PCR and RFLP RFLP abbr. restriction fragment length polymorphism RFLP restriction fragment length polymorphism. RFLP . Sci Asia. 2001;27:143-7. (13.) Foley JE, Orgad U, Hirsh DC, Poland A, Pedersen NC. Outbreak of fatal salmonellosis salmonellosis (săl'mənĕlō`sĭs), any of a group of infectious diseases caused by intestinal bacteria of the genus Salmonella, in cats following use of a high-liter modified-live panleukopenia panleukopenia 1. abnormal depression in numbers of white blood cells. 2. the name of a disease caused by feline parvovirus; see feline panleukopenia. feline panleukopenia virus virus vaccine. J Ant Vet Med Assoc. 1999;214:67-74. (14.) Hinshaw VS, Webster RG, Easterday BC, Bean WJ Jr. Replication of avian influenza A viruses in mammals. Infect Immun. 1981;34:354-61. (15.) Paniker CKJ, Nair CMG. Infection with A2 Hong Kong influenza Hong Kong influenza n. Influenza caused by a serotype of influenza virus type A; it was first identified in Hong Kong during the 1968 epidemic. Also called Hong Kong flu. virus in domestic cats. Bull World Health Organ. 1970;43:859-62. (16.) Paniker CKJ, Nair CMG. Experimental infection of animals with influenza virus types A and B. Bull World Health Organ. 1972;47:461-3. (17.) World Health Organization. Avian influenza A(H5N1)--update 28: reports of infection in domestic cats (Thailand), situation (human) in Thailand, situation (poultry) in Japan and China. 2004 Feb 20 [cited 2004 Oct 20]. Available from http://wwww.who.int/csr/don/ 2004_02_20/en/ (18.) Kuiken T. Rimmelzwaan G, vail Ainerongen G, Baars M, Fouchier R, Osterhaus A. Avian H5N1 influenza in cats. Science. 2004;306:241. (19.) Roelke-Parker ME, Munson L, Packer C, Kock R, Cleaveland S, Carpenter M, et al. A canine distemper virus epidemic in Serengeti lions (Panthera leo). Nature. 1996;379:441-5. (20.) Walsh PD, Abemethy KA, Bermejo M, Beyers R, De Wachter P, Akou ME, et al. Catastrophic ape decline in western equatorial Africa. Nature. 2003;422:611-4. Juthatip Keawcharoen, * Kanisak Oraveerakul, * Thijs Kuiken, ([dagger]) Ron A.M. Fouchier, ([dagger]) Alongkorn Amonsin, * Sunchai Payungporn, * Suwanna Noppornpanth, ([dagger]) Sumitra Wattanodorn, * Apiradee Theamboonlers, * Rachod Tantilertcharoen, * Rattapan Pattanarangsan, ([double dagger]) Nlin Arya, ([double dagger]) Parntep Ratanakorn, ([double dagger]) Albert D.M.E. Osterhaus, ([dagger]) and Yong Poovorawan * * Chulalongkorn University, Bangkok, Thailand; ([dagger]) Erasmus Medical Centre, Rotterdam, the Netherlands; and ([double dagger]) Mahidol University, Salaya, Nakorn Pathom, Thailand Address for correspondence: Yung Poovorawan, Faculty of Medicine, Chulalongkom University, Rama 4 Rd, Pratumwan, Bangkok 10330, Thailand; fax: +662-256-4929; email: yong.p@chula.ac.th |
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