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Published in: EcoHealth 4/2011

01-12-2011 | Original Contribution

Rodent-Borne Hantaviruses in Cambodia, Lao PDR, and Thailand

Authors: Kim Blasdell, Jean François Cosson, Yannick Chaval, Vincent Herbreteau, Bounneuang Douangboupha, Sathaporn Jittapalapong, Ake Lundqvist, Jean-Pierre Hugot, Serge Morand, Philippe Buchy

Published in: EcoHealth | Issue 4/2011

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Abstract

In order to evaluate the circulation of hantaviruses present in southeast Asia, a large scale survey of small mammal species was carried out at seven main sites in the region (Cambodia, Lao People’s Democratic Republic, and Thailand). Small scale opportunistic trapping was also performed at an eighth site (Cambodia). Using a standard IFA test, IgG antibodies reacting to Hantaan virus antigens were detected at six sites. Antibody prevalence at each site varied from 0 to 5.6% with antibodies detected in several rodent species (Bandicota indica, B. savilei, Maxomys surifer, Mus caroli, M. cookii, Rattus exulans, R. nitidius, R. norvegicus, and R. tanezumi). When site seroprevalence was compared with site species richness, seropositive animals were found more frequently at sites with lower species richness. In order to confirm which hantavirus species were present, a subset of samples was also subjected to RT-PCR. Hantaviral RNA was detected at a single site from each country. Sequencing confirmed the presence of two hantavirus species, Thailand and Seoul viruses, including one sample (from Lao PDR) representing a highly divergent strain of Seoul virus. This is the first molecular evidence of hantavirus in Lao PDR and the first reported L segment sequence data for Thailand virus.
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Literature
Aplin KP, Brown PR, Jacob J, Krebs CJ, Singleton GR (2003) Field methods for rodent studies in Asia and the Indo-Pacific. Melbourne: ACIAR
Armien AG, Armien B, Koster F, Pascale JM, Avila M, Gonzalez P, et al. (2009) Hantavirus infection and habitat associations among rodent populations in agroecosystems of Panama: implications for human disease risk. American Journal of Tropical Medicine and Hygiene 81: 59-66PubMed
Bi Z, Formenty PBH, Roth CE (2008) Hantavirus infection: a review and global update. Journal of Infection in Developing Countries 2: 3-21PubMed
Calisher CH, Wagoner KD, Amman BR, Root JJ, Douglass RJ, Kuenzi AJ, et al. (2007) Demographic factors associated with prevalence of antibody to Sin Nombre virus in deer mice in the western United States. Journal of Wildlife Disease 43, 1-11
Carey DE, Reuben R, Panicker KN, Shope RE, Myers RM (1971) Thottapalayam virus: a presumptive arbovirus isolated from a shrew in India. Indian Journal of Medical Research 59: 1758-1760PubMed
Chaval Y, Dobigny G, Michaux J, Pages M, Corbisier C, Cosson JF, et al. (2010) A multi-approach survey as the most reliable tool to accurately assess biodiversity: an example of Thai murine rodents. Kasetsart Journal of Natural Science 44: 590-603
Dearing MD, Dizney L (2010) Ecology of hantaviruses in a changing world. Annals of the New York Academy of Sciences 1195: 99-112PubMedCrossRef
Dearing MD, Previtali MA, Jones JD, Ely PW, Wood BA (2009) Seasonal variation in Sin Nombre virus infections in deer mice: preliminary results. Journal of Wildlife Diseases 45: 430-436PubMed
Dizney LJ, Reudas LA (2009) Increased host species diversity and decreased prevalence of Sin Nombre virus. Emerging Infectious Diseases 15: 1012-1018PubMedCrossRef
Gouy M, Guindon S, Gascuel O, (2010) SeaView version 4 : a multiplatform graphical user interface for sequence alignment and phylogenetic tree building. Molecular Biology and Evolution 27: 221-224PubMedCrossRef
Guindon S, Gascuel O, (2003) A simple, fast, and accurate algorithm to estimate large phylogenies by maximum likelihood. Systems Biology. 52: 696-704CrossRef
Henttonen H, Buchy P, Suputtamongkol Y, Jittapalapong S, Herbreteau V, Laakkonen J, et al. (2008) Recent discoveries of new hantaviruses widen their range and question their origins. Animal Biodiversity and Emerging Diseases 1149: 84-89
Heyman P, Baert K, Plyusnina A, Cochez C, Lundkvist A, Esbroeck MV, et al. (2009) Serological and genetic evidence for the presence of Seoul hantavirus in Rattus norvegicus in Flanders, Belgium. Scandinavian Journal of Infectious Diseases 41: 51-56PubMedCrossRef
Hugot JP, Plyusnina A, Herbreteau V, Nemirov K, Laakkonen J, Lundkvist A, et al. (2006) Genetic analysis of Thailand hantavirus in Bandicota indica trapped in Thailand. Virology Journal 3: 72-81; DOI: 10.​1186/​1743-422X-3-72 PubMedCrossRef
Hujakka H, Koistinen V, Kuronen I, Eerikainen P, Parviainen M, Lundkvist A, et al. (2003) Diagnostic rapid tests for acute hantavirus infections: specific tests for Hantaan, Dobrava and Puumala viruses versus a hantavirus combination test. Journal of Virological Methods 108: 117-122PubMedCrossRef
Ibrahim IN, Sudomo M, Morita C, Uemura S, Muramatsu Y, Ueno H, et al. (1996) Seroepidemiological survey of wild rats for Seoul virus in Indonesia. Japanese Journal of Medical Science and Biology 49: 69-74PubMed
Jiang JF, Zuo SQ, Zhang WY, Wu XM, Tang F, De Vlas SJ, et al. (2008) Prevalence and genetic diversities of hantaviruses in rodents in Beijing, China. American Journal of Tropical Medicine and Hygience 78: 98-105PubMed
Kallio ER, Klingstrom J, Gustafsson E, Manni T, Vaheri A, Henttonen H, et al. (2006) Prolonged survival of Puumala hantavirus outside the host: evidence for indirect transmission via the environment. Journal of General Virology 87: 2127-2134; DOI 10.​1099/​vir.​0.​81643-0 PubMedCrossRef
Kantakamalakul W, Siritantikorn S, Thongcharoen P, Singchai C, Puthavathana P (2003) Prevalence of rabies virus and Hantaan virus infections in commensal rodents and shrews trapped in Bangkok. Journal of the Medical Association of Thailand 86: 1008-1014PubMed
Kariwa H, Yoshimatsu K, Arikawa J (2007) Hantavirus infection in East Asia. Comparative Immunology, Microbiology and Infectious Diseases 30: 341-356PubMedCrossRef
Keesing F, Holt RD, Ostfeld RS (2006) Effects of species diversity on disease risk. Ecology Letters 9: 485-498PubMedCrossRef
Khaiboullina SF, Morzunov SP, St Jeor SC (2005) Hantaviruses: molecular biology, evolution and pathogenesis. Current Molecular Medicine 5: 773-790PubMedCrossRef
Klempa B, Fichet-Calvet E, Lecompte E, Auste B, Aniskin V, Meisel H, et al. (2006) Hantavirus in African wood mouse, Guinea. Emerging Infectious Diseases 12: 838-40PubMedCrossRef
Klempa B, Meisel H, Räth S, Bartel J, Ulrich R, Krüger DH (2003) Occurrence of renal and pulmonary syndrome in a region of northeast Germany where Tula hantavirus circulates. Journal of Clinical Microbiology 41:4894-4897PubMedCrossRef
Kuenzi AJ, Douglass RJ, White D Jr, Bond CW, Mills JN (2001) Antibody to sin nombre virus in rodents associated with peridomestic habitats in west central Montana. American Journal of Tropical Medicine and Hygiene 64: 137-146PubMed
Lee HW, Baek LJ, Johnson KM (1982) Isolation of Hantaan virus, the etiological agent of Korean hemorrhagic fever from wild urban rats. Journal of Infectious Diseases 146: 638-644PubMedCrossRef
Lee HW, Lee PW, Johnson KM (1978) Isolation of the etiological agent of Korean hemorrhagic fever. Journal of Infectious Diseases 137: 298-308PubMedCrossRef
Li L, Yang DJ, Chen JY, Ding JQ, Su X, Tian YQ. Wei JF (2005) Cloning and sequencing of S segment of hantavirus strain TJJ16 isolated in Tianjin. Chinese Journal of Microbiology and Immunology 25: 652–655 (In Chinese)
Marshall JT (1988) Family Muridae. In: Mammals of Thailand, Lekagul B, McNeely JA (editors), Bangkok: Darnsutha Press, pp 397-487
Mills JN (2006) Biodiversity loss and emerging infectious disease: an example from the rodent-borne hemorrhagic fevers. Biodiversity 7: 9-17CrossRef
Nitatpattana N, Henrich T, Palabodeewat S, Tangkanakul W, Poonsuksombat D, Chauvancy G, et al. (2002) Hantaan virus antibody prevalence in rodent populations of several provinces of northeastern Thailand. Tropical Medicine and International Health 7: 840-845PubMedCrossRef
Nitatpattana N, Chauvancy G, Dardaine J, Poblap T, Jumronsawat K, Tangkanakul W, et al. (2000) Serological study of hantavirus in the rodent population of Nakhon Pathom and Nakhon Ratchasima Provinces Thailand. Southeast Asian Journal of Tropical Medicine and Public Health 31: 277-282PubMed
Okumura M, Yoshimatsu K, Kumperasart S, Nakamura I, Ogino M, Taruishi M, et al. (2007) Development of serological assays for Thottapalayam virus, an insectivore-borne Hantavirus. Clinical Vaccine Immunology 14: 173-181; DOI: 10.​1128/​CVI.​00347-06 CrossRef
Ostfeld RS, Keesing F (2000) Biodiversity and disease risk: the case of Lyme disease. Conservation Biology 14: 722-728CrossRef
Pages M, Chaval Y, Herbreteau V, Waengsothorn S, Cosson JF, Hugot JP, et al. (2010) Revisiting the taxonomy of the Rattini tribe: a phylogeny-based delimitation of species boundaries. BioMed Central Evolutionary Biology 10: 184-210; doi:10.​1186/​1471-2148-10-184 PubMed
Papa A, Johnson AM, Stockton PC, Bowen MD, Spiropoulou CF, Alexiou-Daniel S, et al. (1998) Retrospective serological and genetic study of the distribution of hantaviruses in Greece. Journal of Medical Virology 55: 321-327PubMedCrossRef
Pattamadilok S, Lee BH, Kumperasart S, Yoshimatsu K, Okumura M, Nakamura I, et al. (2006) Geographical distribution of hantaviruses in Thailand and potential human health significance of Thailand virus. American Journal of Tropical Medicine and Hygiene 75: 994-1002PubMed
Plyusnina A, Ibrahim IN, Winoto I, Porter KR, Gotama IB, Lundkvist A, et al. (2004) Identification of Seoul hantavirus in Rattus norvegicus in Indonesia. Scandinavian Journal of Infectious Diseases 36: 356-359PubMedCrossRef
Posada D, (2008) jModelTest: Phylogenetic Model Averaging. Molecular Biology and Evolution 25: 1253-1256PubMedCrossRef
Reynes JM, Soares JL, Hue T, Bouloy M, Sun S, Kruy SL, et al. (2003) Evidence of the presence of Seoul virus in Cambodia. Microbes and Infection 5: 769-773PubMedCrossRef
Schilling S, Emmerich P, Klempa B, Auste B, Schnaith E, Schmitz H, et al. (2007) Hantavirus disease outbreak in Germany: limitations of routine serological diagnostics and clustering of virus sequences of human and rodent origin. Journal of Clinical Microbiology 45: 3008-3014; DOI:10.​1128/​JCM.​02573-06 PubMedCrossRef
Schlegel M, Klempa B, Auste B, Bemmann M, Schmidt-Chanasit J, Buchner T, et al. (2009) Dobrava-Belgrade virus spillover infections, Germany. Emerging Infectious Diseases 15: 2017-2020PubMedCrossRef
Schultze D, Lundkvist A, Blauenstein U, Heyman P (2002) Tula virus infection associated with fever and exanthema after a wild rodent bite. European Journal of Clinical Microbiology and Infectious Disease 21: 304-306CrossRef
Song JW, Kang HJ, Song KJ, Truong TT, Bennett SN, Arai S, et al. (2007) Newfound hantavirus in Chinese mole shrew, Vietnam. Emerging Infectious Diseases 13: 1784-1787PubMedCrossRef
Song G, Hang CS, Liao HX, Fu JL, Gao GZ, Qiu HL, et al. (1984) Antigenic difference between viral strains causing classical and mild types of epidemic hemorrhagic fever with renal syndrome in China. Journal of Infectious Diseases 150: 889-894PubMedCrossRef
Suputthamongkol Y, Nitatpattana N, Chayakulkeeree M, Palabodeewat S, Yoksan S, Gonzalez JP (2005) Hantavirus infection in Thailand: first clinical case report. Southeast Asian Journal of Tropical Medicine and Public Health 36: 700-703PubMed
Suzan G, Marce E, Giermakowski JT, Mills JN, Ceballos G, Ostfeld RS, et al. (2009) Experimental evidence for reduced rodent diversity causing increased hantavirus prevalence. Public Library of Science One 4, e5461; doi:10.​1371/​journal.​pone.​0005461 PubMed
Tamura K, Dudley J, Nei M, Kumar S (2007) MEGA4: Molecular Evolutionary Genetic Analysis (MEGA) software version 4.0. Molecular Biology and Evolution 24: 1596-1599PubMedCrossRef
Terajima M, Vapalahti O, Van Epps HL, Vaheri A, Ennis FA (2004) Immune responses to Puumala virus infection and the pathogenesis of nephropathia epidemica. Microbes and Infection 6: 238-45PubMedCrossRef
Truong TT, Yoshimatsu K, Araki K, Lee BH, Nakamura I, Endo R, et al. (2009) Molecular epidemiological and serological studies of hantavirus infection in northern Vietnam. Journal of Veterinary Medical Science 71: 1357-1363PubMedCrossRef
Vapalahti O, Lundkvist A, Fedorov V, Conroy CJ, Hirvonen S, Plyusnina A, et al. (1999) Isolation and characterization of a hantavirus from Lemmus sibiricus: evidence for host switch during hantavirus evolution. Journal of Virology 73: 5586-5592PubMed
Wang H, Yoshimatsu K, Ebihara H, Ogino M, Araki K, Kariwa H, et al. (2000) Genetic diversities of hantaviruses isolated in China and characterization of novel hantaviruses isolated from Niviventer fulvescens and Rattus rattus. Virology 278: 332-345PubMedCrossRef
Wong TW, Chan YC, Joo YG, Lee HW, Lee PW, Yanagihara R (1989) Hantavirus infections in humans and commensal rodents in Singapore. Transactions of the Royal Society of Tropical Medicine and Hygiene 83: 248-251PubMedCrossRef
Xiao SY, Leduc JW, Chu YK, Schmaljohn CS (1994) Phylogenetic analyses of virus isolates in the genus Hantavirus, family Bunyaviridae. Virology 198: 205-217PubMedCrossRef
Yao ZH, Dong GM, Yu YX, Zhang JK, Yan DY, Liu XC, Zhang LL (2002) A new subtype of hantavirus SN7 isolated from Niviventer confucianus in Sichuan province, China. Chinese Journal of Infectious Diseases 20: 79–82 (in Chinese)
Zou Y, Hu J, Wang ZX, Wang DM, Yu C, Zhou JZ, et al. (2008) Genetic characterization of hantaviruses isolated from Guizhou, China: evidence for spillover and reassortment in nature. Journal of Medical Virology 80: 1033-1041; DOI: 10.​1002/​jmv.​21149 PubMedCrossRef
Metadata
Title
Rodent-Borne Hantaviruses in Cambodia, Lao PDR, and Thailand
Authors
Kim Blasdell
Jean François Cosson
Yannick Chaval
Vincent Herbreteau
Bounneuang Douangboupha
Sathaporn Jittapalapong
Ake Lundqvist
Jean-Pierre Hugot
Serge Morand
Philippe Buchy
Publication date
01-12-2011
Publisher
Springer-Verlag
Published in
EcoHealth / Issue 4/2011
Print ISSN: 1612-9202
Electronic ISSN: 1612-9210
DOI
https://doi.org/10.1007/s10393-011-0725-7

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