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Acta Neuropathologica
Published in: Acta Neuropathologica 5/2004

01-11-2004 | Regular Paper

Experimental Usutu virus infection of suckling mice causes neuronal and glial cell apoptosis and demyelination

Authors: Herbert Weissenböck, Tamás Bakonyi, Sonja Chvala, Norbert Nowotny

Published in: Acta Neuropathologica | Issue 5/2004

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Abstract

Usutu virus (USUV), a mosquito-borne flavivirus of the Japanese encephalitis virus group has been responsible for avian mortality in Austria since 2001. In the present study, the neuropathogenicity and neuroinvasiveness of USUV for 1-week-old suckling mice was investigated. After intraperitoneal inoculation, clinical signs like depression, disorientation, paraplegia, paralysis and coma were observed between 6 and 11 days post infection. Histologically, there was widespread neuronal apoptosis especially in the brain stem. Inflammatory infiltrates were scarce. Apoptosis was also present in white matter of cerebellum, medulla and spinal cord, and was frequently accompanied by primary demyelination. While apoptosis of neurons was clearly associated with presence of viral signals, the cause of apoptosis of white matter cells was more ambiguous. However, focal immunostaining was found in the white matter, especially in the spinal cord. As with all flaviviruses, USUV proved to be neuropathogenic for mice. In contrast to other flaviviruses, neuroinvasion occurred only in animals that were not older than 1 week at the time of inoculation. While neuronal apoptosis is a general aspect of flavivirus pathogenicity, demyelination seems to be a unique feature of USUV infection.
Literature
1.
Adam F, Digoutte J-P Virus d’Afrique (base de donnes). Centre collaborateur OMS de référence et de recherche pour les arbovirus et les virus de fièvres hémorrhagiques (CRORA). URL:http://​www.​pasteur.​fr/​recherche/​banques/​CRORA
2.
Andersen AA, Hanson RP (1974) Influence of sex and age on natural resistance to St. Louis encephalitis virus infection in mice. Infect Immun 9:1123–1125PubMed
3.
Bhatt PN, Jacoby RO (1976) Genetic resistance to lethal flavirus encephalitis. II. Effect of immunosuppression. J Infect Dis 134:166–173PubMed
4.
Chiba N, Iwasaki T, Mizutani T, Kariwa H, Kurata T, Takashima I (1999) Pathogenicity of tick-borne encephalitis virus isolated in Hokkaido, Japan in mouse model. Vaccine 17:779–787
5.
Dubuisson J, Lustig S, Ruggli N, Akov Y, Rice CM (1997) Genetic determinants of Sindbis virus neuroinvasiveness. J Virol 71:2636–2646PubMed
6.
Eldadah AH, Nathanson N, Sarsitis R (1967) Pathogenesis of West Nile virus encephalitis in mice and rats. 1. Influence of age and species on mortality and infection. Am J Epidemiol 86:765–775PubMed
7.
Fazakerley JK (2002) Pathogenesis of Semliki Forest virus encephalitis. J Neurovirol 8 Suppl 2:66–74
8.
Fazakerley JK, Walker R (2003) Virus demyelination. J Neurovirol 9:148–164PubMed
9.
Fazakerley JK, Khalili-Shirazi A, Webb HE (1988) Semliki Forest virus (A7[74]) infection of adult mice induces an immune-mediated demyelinating encephalomyelitis. Ann N Y Acad Sci 540:672–673PubMed
10.
Gold R, Schmied M, Giegerich G, Breitschopf H, Hartung HP, Toyka KV, Lassmann H (1994) Differentiation between cellular apoptosis and necrosis by the combined use of in situ tailing and nick translation techniques. Lab Invest 71:219–225PubMed
11.
Graber HU, Müller CF, Vandevelde M, Zurbriggen A (1995) Restricted infection with canine distemper virus leads to down- regulation of myelin gene transcription in cultured oligodendrocytes. Acta Neuropathol 90:312–318CrossRefPubMed
12.
Griffin DE, Hardwick JM (1998) Apoptosis in alphavirus encephalitis. Semin Virol 8:481–489CrossRef
13.
Griffin DE, Levine B, Tyor WR, Tucker PC, Hardwick JM (1994) Age-dependent susceptibility to fatal encephalitis: alphavirus infection of neurons. Arch Virol Suppl 9:31–39PubMed
14.
Griffin DE, Ubol S, Despres P, Kimura T, Byrnes A (2001) Role of antibodies in controlling alphavirus infection of neurons. Curr Top Microbiol Immunol 260:191–200PubMed
15.
Jackson AC, Rossiter JP (1997) Apoptotic cell death is an important cause of neuronal injury in experimental Venezuelan equine encephalitis virus infection of mice. Acta Neuropathol 93:349–353CrossRefPubMed
16.
Jacoby RO, Bhatt PN (1976) Genetic resistance to lethal flavivirus encephalitis. I. Infection of congenic mice with Banzi virus. J Infect Dis 134:158–165PubMed
17.
Kerr DA, Larsen T, Cook SH, Fannjiang YR, Choi E, Griffin DE, Hardwick JM, Irani DN (2002) BCL-2 and BAX protect adult mice from lethal Sindbis virus infection but do not protect spinal cord motor neurons or prevent paralysis. J Virol 76:10393–10400CrossRefPubMed
18.
Lewis J, Wesselingh SL, Griffin DE, Hardwick JM (1996) Alphavirus-induced apoptosis in mouse brains correlates with neurovirulence. J Virol 70:1828–1835PubMed
19.
Leyssen P, Croes R, Rau P, Heiland S, Verbeken E, Sciot R, Paeshuyse J, Charlier N, De Clercq E, Meyding-Lamade U, Neyts J (2003) Acute encephalitis, a poliomyelitis-like syndrome and neurological sequelae in a hamster model for flavivirus infections. Brain Pathol 13:279–290PubMed
20.
Mann MA, Knipe DM, Fischbach GD, Fields BN (2002) Type 3 reovirus neuroinvasion after intramuscular inoculation: direct invasion of nerve terminals and age-dependent pathogenesis. Virology 303:222–231CrossRefPubMed
21.
Matthews V, Robertson T, Kendrick T, Abdo M, Papadimitriou J, McMinn P (2000) Morphological features of Murray Valley encephalitis virus infection in the central nervous system of Swiss mice. Int J Exp Pathol 81:31–40CrossRefPubMed
22.
Medeot SI, Contigiani MS, Sabattini MS, Diaz G (1992) Experimental neuroinvasiveness of wild and laboratory Junin virus strains. Res Virol 143:259–267PubMed
23.
Monath TP, Cropp CB, Harrison AK (1983) Mode of entry of a neurotropic arbovirus into the central nervous system. Reinvestigation of an old controversy. Lab Invest 48:399–410PubMed
24.
Mundle SD, Gao XZ, Khan S, Gregory SA, Preisler HD, Raza A (1995) Two in situ labeling techniques reveal different patterns of DNA fragmentation during spontaneous apoptosis in vivo and induced apoptosis in vitro. Anticancer Res 15:1895–1904PubMed
25.
Odelola HA, Oduye OO (1977) West Nile virus infection of adult mice by oral route. Arch Virol 54:251–253PubMed
26.
Wang Y, Lobigs M, Lee E, Mullbacher A (2003) CD8+ T cells mediate recovery and immunopathology in West Nile virus encephalitis. J Virol 77:13323–13334CrossRefPubMed
27.
Weiner LP, Cole GA, Nathanson N (1970) Experimental encephalitis following peripheral inoculation of West Nile virus in mice of different ages. J Hyg 68:435–446
28.
Weissenböck H, Kolodziejek J, Url A, Lussy H, Rebel-Bauder B, Nowotny N (2002) Emergence of Usutu virus, an African mosquito-borne flavivirus of the Japanese encephalitis virus group, central Europe. Emerg Infect Dis 8:652–656PubMed
29.
Weissenböck H, Kolodziejek J, Fragner K, Kuhn R, Pfeffer M, Nowotny N (2003) Usutu virus activity in Austria, 2001–2002. Microbes Infect 5:1132–1136CrossRefPubMed
30.
Xiao SY, Guzman H, Zhang H, Travassos da Rosa AP, Tesh RB (2001) West Nile virus infection in the golden hamster (Mesocricetus auratus): a model for West Nile encephalitis. Emerg Infect Dis 7:714–721PubMed
31.
Zurbriggen A, Schmid I, Graber HU, Vandevelde M (1998) Oligodendroglial pathology in canine distemper. Acta Neuropathol 95:71–77CrossRefPubMed
Metadata
Title
Experimental Usutu virus infection of suckling mice causes neuronal and glial cell apoptosis and demyelination
Authors
Herbert Weissenböck
Tamás Bakonyi
Sonja Chvala
Norbert Nowotny
Publication date
01-11-2004
Publisher
Springer-Verlag
Published in
Acta Neuropathologica / Issue 5/2004
Print ISSN: 0001-6322
Electronic ISSN: 1432-0533
DOI
https://doi.org/10.1007/s00401-004-0916-1

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