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Evidence of natural Zika virus infection in neotropical non-human primates in Brazil (2018)

  • Authors:
  • USP affiliated authors: DIAS, JOSÉ LUIZ CATÃO - FMVZ ; CHIARAVALLOTI NETO, FRANCISCO - FSP
  • USP Schools: FMVZ; FSP
  • DOI: 10.1038/s41598-018-34423-6
  • Subjects: EPIDEMIOLOGIA VETERINÁRIA; PRIMATAS; ZIKA VÍRUS
  • Agências de fomento:
  • Language: Inglês
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    Informações sobre o DOI: 10.1038/s41598-018-34423-6 (Fonte: oaDOI API)
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    • ABNT

      TERZIAN, Ana Carolina B; REIS, Andréia Francesli Negri; SANTOS, Izalco Nuremberg Penha dos; et al. Evidence of natural Zika virus infection in neotropical non-human primates in Brazil. Scientific Reports, London, Nature Publishing Group, v. 8, p. 1-15, 2018. Disponível em: < http://dx.doi.org/10.1038/s41598-018-34423-6 > DOI: 10.1038/s41598-018-34423-6.
    • APA

      Terzian, A. C. B., Reis, A. F. N., Santos, I. N. P. dos, Ferreira, A. C. M., Cruz, L. E. A. A., Rahal, P., et al. (2018). Evidence of natural Zika virus infection in neotropical non-human primates in Brazil. Scientific Reports, 8, 1-15. doi:10.1038/s41598-018-34423-6
    • NLM

      Terzian ACB, Reis AFN, Santos INP dos, Ferreira ACM, Cruz LEAA, Rahal P, Zini N, Sacchetto L, Rocha RF, Parra MCP, Del Sarto JL, Dias ACF, Coutinho F, Rayra J, Silva RA da, Costa VV, Fernandes NCCDA, Réssio R, Díaz-Delgado J, Guerra J, Cunha MS, Catão-Dias JL, Bittar C, Ullmann L, Malossi C, Araújo Júnior JP de, Widen S, Chiaravalloti-Neto F, Vasilakis N, Teixeira MM, Nogueira ML, Rezende IM de, Mello É, Pacca CC, Kroon EG, Trindade G, Drumond B. Evidence of natural Zika virus infection in neotropical non-human primates in Brazil [Internet]. Scientific Reports. 2018 ; 8 1-15.Available from: http://dx.doi.org/10.1038/s41598-018-34423-6
    • Vancouver

      Terzian ACB, Reis AFN, Santos INP dos, Ferreira ACM, Cruz LEAA, Rahal P, Zini N, Sacchetto L, Rocha RF, Parra MCP, Del Sarto JL, Dias ACF, Coutinho F, Rayra J, Silva RA da, Costa VV, Fernandes NCCDA, Réssio R, Díaz-Delgado J, Guerra J, Cunha MS, Catão-Dias JL, Bittar C, Ullmann L, Malossi C, Araújo Júnior JP de, Widen S, Chiaravalloti-Neto F, Vasilakis N, Teixeira MM, Nogueira ML, Rezende IM de, Mello É, Pacca CC, Kroon EG, Trindade G, Drumond B. Evidence of natural Zika virus infection in neotropical non-human primates in Brazil [Internet]. Scientific Reports. 2018 ; 8 1-15.Available from: http://dx.doi.org/10.1038/s41598-018-34423-6

    Referências citadas na obra
    Weaver, S. C., Charlier, C., Vasilakis, N. & Lecuit, M. Zika, Chikungunya, and Other Emerging Vector-Borne Viral Diseases. Annu. Rev. Med. 69, 395–408 (2018).
    Lazear, H. M. & Diamond, M. S. Zika Virus: New Clinical Syndromes and Its Emergence in the Western Hemisphere. J. Virol. 90, 4864–4875 (2016).
    Buechler, C. R. et al. Seroprevalence of Zika Virus in Wild African Green Monkeys and Baboons. mSphere 2, e00392–16 (2017).
    Vasilakis, N. & Weaver, S. C. Flavivirus transmission focusing on Zika. Curr. Opin. Virol. 22, 30–35 (2017).
    Dick, G. W., Kitchen, S. F. & Haddow, A. J. Zika virus. I. Isolations and serological specificity. Trans R Soc Trop Med Hyg 46, 509–20 (1952).
    Kirya, B. G. & Okia, N. O. A yellow fever epizootic in zika forest, uganda, during 1972: Part 2: Monkey serology. Trans. R. Soc. Trop. Med. Hyg. 71, 300–303 (1977).
    McCrae, A. W. & Kirya, B. G. Yellow fever and Zika virus epizootics and enzootics in Uganda. Trans R Soc Trop Med Hyg 76, 552–562 (1982).
    Favoretto, S. et al. First detection of Zika virus in neotropical primates in Brazil: a possible new reservoir. bioRxiv 049395 10.1101/049395 (2016).
    Mansfield, K. Marmoset Models Commonly Used in Biomedical Research. Comp. Med. 53, 383–392 (2003).
    Rylands, A. B., Mittermeier, R. A., de Oliveira, M. M. & Kierulff, M. C. M. Callithrix jacchus. The IUCN Red List of Threatened Species 2008. (2008). Available at: http://www.iucnredlist.org/details/41518/0. (Accessed: 20th November 2017).
    Vanchiere, J. A. et al. Experimental Zika Virus Infection of Neotropical Primates. Am. J. Trop. Med. Hyg. 98, 173–177 (2018).
    Carrion, R. & Patterson, J. L. An animal model that reflects human disease: the common marmoset (Callithrix jacchus). Curr. Opin. Virol. 2, 357–362 (2012).
    Chiu, C. Y. et al. Experimental Zika Virus Inoculation in a New World Monkey Model Reproduces Key Features of the Human Infection. Sci. Rep. 7, 17126 (2017).
    Driggers, R. W. et al. Zika Virus Infection with Prolonged Maternal Viremia and Fetal Brain Abnormalities. N. Engl. J. Med. 374, 2142–51 (2016).
    Terzian, A. C. B. et al. Long-Term Viruria in Zika Virus-Infected Pregnant Women, Brazil, 2016. Emerg. Infect. Dis. 23, 1891–1893 (2017).
    Seferovic, M. et al. Experimental Zika Virus Infection in the Pregnant Common Marmoset Induces Spontaneous Fetal Loss and Neurodevelopmental Abnormalities. Sci. Rep. 8, 6851 (2018).
    Ayllón, T. et al. Early Evidence for Zika Virus Circulation among Aedes aegypti Mosquitoes, Rio de Janeiro, Brazil. Emerg. Infect. Dis. 23, 1411–1412 (2017).
    Campos, G. S., Bandeira, A. C. & Sardi, S. I. Zika Virus Outbreak, Bahia, Brazil. Emerg Infect Dis 21, 1885–1886 (2015).
    Faria, N. R. et al. Establishment and cryptic transmission of Zika virus in Brazil and the Americas. Nature 546, 406–410 (2017).
    Faria, N. R. et al. Zika virus in the Americas: Early epidemiological and genetic findings. Science (80-.). 352, 345–349 (2016).
    Gubler, D. J., Vasilakis, N. & Musso, D. History and Emergence of Zika Virus. J. Infect. Dis. 216, S860–S867 (2017).
    Fragaszy, D. M., Visalberghi, E. & Fedigan, L. The complete capuchin – the biology of the genus Cebus. (Cambridge University Press, 2004).
    Santos, M., Duarte, M. & Young, R. Behavioural and ecological aspects of black tuftedear marmosets, Callithrix penicillata (Geoffroy, 1812) (Primates: Callitrichidae) in a semiurban environment. Rev. Etol. 13, 37–46 (2014).
    Ministério da Saúde. Informe especial Febre Amarela no Brasil. n01/2017. Ministério da Saúde Secr. Vigilância em Saúde (2017).
    Fernandes, N. C. C. D. A. et al. Outbreak of Yellow Fever among Nonhuman Primates, Espirito Santo, Brazil, 2017. Emerg. Infect. Dis. 23, 2038–2041 (2017).
    Rezende, I. Mde et al. Persistence of Yellow fever virus outside the Amazon Basin, causing epidemics in Southeast Brazil, from 2016 to 2018. PLoS Negl. Trop. Dis. 12, e0006538 (2018).
    Vilela, A. P. P. et al. Spatial–Temporal Co-Circulation of Dengue Virus 1, 2, 3, and 4 Associated with Coinfection Cases in a Hyperendemic Area of Brazil: A 4-Week Survey. Am. J. Trop. Med. Hyg. 94, 1080–1084 (2016).
    World Health Organization. Yellow fever – Brazil. Disease outbreak news. WHO (2017).
    Elias Colombo, T. et al. Clinical, laboratory and virological data from suspected ZIKV patients in an endemic arbovirus area. (2017).
    Terzian, A. C. et al. Detection of Saint Louis encephalitis virus in dengue-suspected cases during a dengue 3 outbreak. Vector Borne Zoonotic Dis 11, 291–300 (2011).
    Mondini, A. et al. Saint Louis encephalitis virus, Brazil. Emerg Infect Dis 13, 176–178 (2007).
    Colombo, T. E. et al. Dengue virus surveillance: Detection of DENV-4 in the city of São José do Rio Preto, SP, Brazil. Acta Trop. 164, 84–89 (2016).
    Dudley, D. M. et al. A rhesus macaque model of Asian-lineage Zika virus infection. Nat. Commun. 7, 12204 (2016).
    Li, X.-F. et al. Characterization of a 2016 Clinical Isolate of Zika Virus in Non-human Primates. EBioMedicine 12, 170–177 (2016).
    Larocca, R. A. et al. Vaccine protection against Zika virus from Brazil. Nature 536, 474–478 (2016).
    Waldock, J. et al. The role of environmental variables on Aedes albopictus biology and chikungunya epidemiology. Pathog Glob Heal. 107, 224–241 (2013).
    Osuna, C. E. et al. Zika viral dynamics and shedding in rhesus and cynomolgus macaques. Nat. Med. 23, 264–264 (2017).
    Hirsch, A. J. et al. Zika Virus infection of rhesus macaques leads to viral persistence in multiple tissues. PLOS Pathog. 13, e1006219 (2017).
    Mccracken, M. K. et al. Impact of prior flavivirus immunity on Zika virus infection in rhesus macaques. PLOS Pathog. 13 (2017).
    Ferreira, M. S. et al. Callithrix penicillata: A feasible experimental model for dengue virus infection. Immunol. Lett. 158, 126–133 (2014).
    Omatsu, T. et al. Common marmoset (Callithrix jacchus) as a primate model of dengue virus infection: development of high levels of viraemia and demonstration of protective immunity. J. Gen. Virol. 92, 2272–2280 (2011).
    Coffey, L. L. et al. Zika Virus Tissue and Blood Compartmentalization in Acute Infection of Rhesus Macaques. PLoS One 12, e0171148 (2017).
    Lanciotti, R. S. et al. Genetic and serologic properties of Zika virus associated with an epidemic, Yap State, Micronesia, 2007. Emerg Infect Dis 14, 1232–1239 (2008).
    Omatsu, T. et al. Changes in hematological and serum biochemical parameters in common marmosets (Callithrix jacchus) after inoculation with dengue virus. J. Med. Primatol. 41, 289–296 (2012).
    Jornal do Brasil. Desinformação sobre febre amarela coloca macacos em perigo. (2018). Available at: http://www.jb.com.br/ciencia-e-tecnologia/noticias/2017/01/27/desinformacao-sobre-febre-amarela-coloca-macacos-em-perigo/. (Accessed: 30th January 2018).
    BrazilGovNews. Macacos não são transmissores de febre amarela — Governo do Brasil. (2017). Available at: http://www.brasil.gov.br/saude/2017/03/macacos-nao-sao-transmissores-de-febre-amarela. (Accessed: 30th January 2018).
    Moreira-Soto, A. et al. Limited Evidence for Infection of Urban and Peri-urban Nonhuman Primates with Zika and Chikungunya Viruses in Brazil. mSphere 3, e00523–17 (2018).
    De Oliveira-Filho, E. F. et al. Seroprevalence of selected flaviviruses in free-living and captive capuchin monkeys in the state of Pernambuco, Brazil. Transbound. Emerg. Dis. 00, 1–4 (2018).
    Mota, M. T., Terzian, A. C., Silva, M. L., Estofolete, C. & Nogueira, M. L. Mosquito-transmitted viruses - the great Brazilian challenge. Braz J Microbiol 47, 38–50 (2016).
    Fernanda Estofolete, C. et al. Clinical and laboratory profile of Zika virus infection in dengue suspected patients: A case series. J Clin Virol 81, 25–30 (2016).
    Forattini, O. P. Culicidologia Médica. 2, (Editora da Universidade de São Paulo, 2002).
    Consoli, R. A. G. B. & Oliveira, R. L. Principais Mosquitos de Importância Sanitária no Brasil. 1a Reimpressão. (Fiocruz, 1998).
    Ausubel, F. M. et al. In Current Protocols in Molecular Biology (John Wiley & Sons, Inc., 2003).
    Domingo, C. et al. Advanced yellow fever virus genome detection in point-of-care facilities and reference laboratories. J. Clin. Microbiol. 50, 4054–60 (2012).
    de Morais Bronzoni, R. V., Baleotti, F. G., Ribeiro Nogueira, R. M., Nunes, M. & Moraes Figueiredo, L. T. Duplex reverse transcription-PCR followed by nested PCR assays for detection and identification of Brazilian alphaviruses and flaviviruses. J Clin Microbiol 43, 696–702 (2005).
    Machado, D. C. et al. First identification of Culex flavivirus (Flaviviridae) in Brazil. Intervirology 55, 475–83 (2012).
    Nei, M. & Kuma, S. Molecular Evolution and Phylogenetics. (2000).
    Cugola, F. R. et al. The Brazilian Zika virus strain causes birth defects in experimental models. Nature 534, 267–271 (2016).
    Vasilakis, N. et al. Short Report: Antigenic Relationships between Sylvatic and Endemic Dengue Viruses. Am. J. Trop. Med. Hyg 79, 128–132 (2008).
    Fischer, C. et al. External Quality Assessment for Zika Virus Molecular Diagnostic Testing, Brazil. Emerg. Infect. Dis. 24, 888–892 (2018).
    Baylis, S. A. et al. Harmonization of nucleic acid testing for Zika virus: development of the 1 st World Health Organization International Standard. Transfusion 57, 748–761 (2017).
    Garcia, C. C. et al. Platelet-activating factor receptor plays a role in lung injury and death caused by Influenza A in mice. PLoS Pathog 6, e1001171 (2010).
    CONCEA. Resolução Normativa CONCEA no 28, de 13.11.2015. “Primatas não humanos mantidos em instalações de instituições de ensino ou pesquisa científica”. Normativas do CONCEA para a produção, manutenção ou utilização de animais em atividades de ensino ou pesquisa científica 209–268 (2015).
    Kumar, S., Stecher, G. & Tamura, K. MEGA7: Molecular Evolutionary Genetics Analysis Version 7.0 for Bigger Datasets. Mol. Biol. Evol. 33, 1870–1874 (2016).