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Bornavirus

Stellungnahmen des Arbeitskreises Blut des Bundesministeriums für Gesundheit
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Literatur

  1. 1.
    Schlottau K, Forth L, Angstwurm K et al (2018) Fatal Encephalitic Borna Disease Virus 1 in Solid-Organ Transplant Recipients. N Engl J Med 379:1377–1379Google Scholar
  2. 2.
    Korn K, Coras R, Bobinger T et al (2018) Fatal Encephalitis Associated with Borna Disease Virus 1. N Engl J Med 379:1375–1377Google Scholar
  3. 3.
    Friedrich-Loeffler-Institut (2018) Humane Infektionen mit dem Borna Disease Virus (BoDV-1). Epid Bull 2018:105Google Scholar
  4. 4.
    Hoffmann B, Tappe D, Höper D et al (2015) A Variegated Squirrel Bornavirus associated with fatal human encephalitis. N Engl J Med 373:154–162Google Scholar
  5. 5.
    Dürrwald R, Ludwig H (1997) Borna disease virus (BDV), a (zoonotic?) worldwide pathogen. A review of the history of the disease and the virus infection with comprehensive bibliography. Zentralbl Veterinarmed B 44:147–184Google Scholar
  6. 6.
    Joest E, Degen K (1909) Über eigentümliche Kerneinschlüsse der Ganglienzellen bei der enzootischen Gehirn-Rückenmarksentzündung der Pferde. Z Infkrkh 6:348–356Google Scholar
  7. 7.
    Joest E, Degen K (1911) Untersuchungen über die pathologische Histologie, Pathogenese und postmortale Diagnose der seuchenhaften Gehirn-Rückenmarksentzündung (Borna’sche Krankheit) der Pferde. Z Infkrkh 9:1–98Google Scholar
  8. 8.
    Zwick W, Seifried O, Witte J (1927) Experimentelle Untersuchungen über die seuchenhafte Gehirn- und Rückenmarksentzündung der Pferde (Bornasche Krankheit). Z Infkrkh Haustiere 30:42–136Google Scholar
  9. 9.
    Zwick W, Seifried O (1925) Übertragbarkeit der seuchenhaften Gehirn- und Rückenmarksentzündung des Pferdes (Bornasche Krankheit) auf kleine Versuchstiere (Kaninchen). Berl Tierärztl Wochenschr 41:129–132Google Scholar
  10. 10.
    Zwick W (1939) Bornasche Krankheit und Enzephalomyelitis der Tiere. In: Gildemeister H, Haagen E, Waldmann F (Hrsg) Handbuch der Viruskrankheiten der Tiere. Gustav Fischer, Jena, S 252–354Google Scholar
  11. 11.
    Rott R, Herzog S, Fleischer B et al (1985) Detection of serum antibodies to Borna disease virus in patients with psychiatric disorders. Science 228:755–756Google Scholar
  12. 12.
    Hornig M, Briese T, Lipkin WI (2003) Borna disease virus. J Neurovirol 9:259–273Google Scholar
  13. 13.
    Bode L, Riegel S, Lange W, Ludwig H (1992) Human infections with Borna disease virus: seroprevalence in patients with chronic diseases and healthy individuals. J Med Virol 36:309–315Google Scholar
  14. 14.
    Riegel S (1990) Nachweis von Serumantikörpern gegen Borna-Virus-spezifisches Antigen beim Menschen. Freie Universität, BerlinGoogle Scholar
  15. 15.
    Schwemmle M (2001) Borna disease virus infection in psychiatric patients: are we on the right track? Lancet Infect Dis 1:46–52Google Scholar
  16. 16.
    Lipkin WI, Briese T, Hornig M (2011) Borna disease virus—fact and fantasy. Virus Res 162:162–172Google Scholar
  17. 17.
    Kuhn JH, Dürrwald R, Bào Y et al (2015) Taxonomic reorganization of the family Bornaviridae . Arch Virol 160:621–632 Google Scholar
  18. 18.
    Amarasinghe GK, Aréchiga Ceballos NG, Banyard AC et al (2018) Taxonomy of the order Mononegavirales: update 2018. Arch Virol 163:2283–2294Google Scholar
  19. 19.
    Kistler AL, Gancz A, Clubb S et al (2008) Recovery of divergent avian bornaviruses from cases of proventricular dilatation disease: identification of a candidate etiologic agent. Virol J 5:88Google Scholar
  20. 20.
    Honkavuori KS, Shivaprasad HL, Williams BL et al (2008) Novel borna virus in psittacine birds with proventricular dilatation disease. Emerg Infect Dis 14:1883–1886Google Scholar
  21. 21.
    Horie M, Honda T, Suzuki Y et al (2010) Endogenous non-retroviral RNA virus elements in mammalian genomes. Nature 463:84–87Google Scholar
  22. 22.
    Hyndman TH, Shilton CM, Stenglein MD, Wellehan JFX Jr (2018) Divergent bornaviruses from Australian carpet pythons with neurological disease date the origin of extant Bornaviridae prior to the end-Cretaceous extinction. Plos Pathog 14:e1006881Google Scholar
  23. 23.
    Zimmermann V, Rinder M, Kaspers B, Staeheli P, Rubbenstroth D (2014) Impact of antigenic diversity on laboratory diagnosis of avian bornavirus infections in birds. J Vet Diagn Invest 26:769–777Google Scholar
  24. 24.
    Shi M, Lin XD, Chen X et al (2018) The evolutionary history of vertebrate RNA viruses. Nature 556:197–202Google Scholar
  25. 25.
    Nowotny N, Kolodziejek J, Jehle CO, Suchy A, Staeheli P, Schwemmle M (2000) Isolation and characterization of a new subtype of Borna disease virus. J Virol 74:5655–5658Google Scholar
  26. 26.
    de la Torre JC (2002) Molecular biology of Borna disease virus and persistence. Front Biosci 7:d569–579Google Scholar
  27. 27.
    Pauli G, Ludwig H (1985) Increase of virus yields and releases of Borna disease virus from persistently infected cells. Virus Res 2:29–33Google Scholar
  28. 28.
    Briese T, Schneemann A, Lewis AJ et al (1994) Genomic organization of Borna disease virus. Proc Natl Acad Sci USA 91:4362–4366Google Scholar
  29. 29.
    Cubitt B, Oldstone C, de la Torre JC (1994) Sequence and genome organization of Borna disease virus. J Virol 68:1382–1396Google Scholar
  30. 30.
    Honda T, Tomonaga K (2013) Nucleocytoplasmic shuttling of viral proteins in Borna disease virus infection. Viruses 5:1978–1990Google Scholar
  31. 31.
    Lennartz F, Bayer K, Czerwonka N et al (2016) Surface glycoprotein of Borna disease virus mediates virus spread from cell to cell. Cell Microbiol 18:340–354Google Scholar
  32. 32.
    Gosztonyi G (2008) Natural and experimental Borna disease virus infections—neuropathology and pathogenetic considerations. APMIS 116(Suppl 124):53–57Google Scholar
  33. 33.
    Briese T, de la Torre JC, Lewis A, Ludwig H, Lipkin WI (1992) Borna disease virus, a negative-strand RNA virus, transcribes in the nucleus of infected cells. Proc Natl Acad Sci USA 89:11486–11489Google Scholar
  34. 34.
    Schneemann A, Schneider PA, Lamb RA, Lipkin WI (1995) The remarkable coding strategy of borna disease virus: a new member of the nonsegmented negative strand RNA viruses. Virology 210:1–8Google Scholar
  35. 35.
    Danner K, Mayr A (1979) In vitro studies on Borna virus. II. Properties of the virus. Arch Virol 61:261–271Google Scholar
  36. 36.
    Grunmach J (1986) Zur Biologie des Borna-Virus. Inaugural-Dissertation, Fachbereich Veterinärmedizin, Freie Universität Berlin.Google Scholar
  37. 37.
    von Sprockhoff H (1953) Der Stand unserer derzeitigen Kenntnisse über die Borna’sche Krankheit. Berl Münch Tierärztl Wochenschr 66:368–371Google Scholar
  38. 38.
    Tizard I, Ball J, Stoica G, Payne S (2016) The pathogenesis of bornaviral diseases in mammals. Anim Health Res Rev 17:92–109Google Scholar
  39. 39.
    Krey HF, Ludwig H, Boschek CB (1979) Multifocal retinopathy in Borna disease virus infected rabbits. Am J Ophthalmol 87:157–164Google Scholar
  40. 40.
    Krey HF, Ludwig H, Rott R (1979) Spread of infectious virus along the optic nerve into the retina in Borna disease virus-infected rabbits. Arch Virol 61:283–288Google Scholar
  41. 41.
    Dietzel J, Kuhrt H, Stahl T et al (2007) Morphometric analysis of the retina from horses infected with the Borna disease virus. Vet Pathol 44:57–63Google Scholar
  42. 42.
    Herzog S, Kompter C, Frese K, Rott R (1984) Replication of Borna disease virus in rats: age-dependent differences in tissue distribution. Med Microbiol Immunol 173:171–177Google Scholar
  43. 43.
    Sprankel H, Richarz K, Ludwig H, Rott R (1978) Behavior alterations in tree shrews ( Tupaia glis , Diard 1820) induced by Borna disease virus. Med Microbiol Immunol 165:1–18 Google Scholar
  44. 44.
    Watanabe M, Lee BJ, Kamitani W et al (2001) Neurological diseases and viral dynamics in the brains of neonatally borna disease virus-infected gerbils. Virology 282:65–76Google Scholar
  45. 45.
    Nobach D, Bourg M, Herzog S et al (2015) Shedding of infectious Borna Disease Virus-1 in living bicolored white-toothed shrews. PLoS ONE 10:e137018Google Scholar
  46. 46.
    Schlottau K, Hoffmann B, Homeier-Bachmann T et al (2017) Multiple detection of zoonotic variegated squirrel bornavirus 1 RNA in different squirrel species suggests a possible unknown origin for the virus. Arch Virol 162:2747–2754Google Scholar
  47. 47.
    Schlottau K, Jenckel M, van den Brand J et al (2017) Variegated Squirrel Bornavirus 1 in squirrels, Germany and the Netherlands. Emerg Infect Dis 23:477–481Google Scholar
  48. 48.
    Schmidt J (1912) Untersuchungen über das klinische Verhalten der seuchenhaften Gehirnrückenmarksentzündung (Bornaschen-Krankheit) des Pferdes nebst Angaben über diesbezügliche therapeutische Versuche. Berl Tierarztl Wochenschr 28(581–586):597–603Google Scholar
  49. 49.
    Schmidt J (1952) Die Bornakrankheit des Pferdes. 55 Jahre Forschung und Lehre. Arch Exp Veterinarmed 6:177–187Google Scholar
  50. 50.
    Richt J, Stitz L, Deschl U, Frese K, Rott R (1990) Borna disease virus-induced meningoencephalomyelitis caused by a virus-specific CD4+ T cell-mediated immune reaction. J Gen Virol 71:2565–2573Google Scholar
  51. 51.
    Hausmann J, Hallensleben W, de la Torre JC et al (1999) T cell ignorance in mice to Borna disease virus can be overcome by peripheral expression of the viral nucleoprotein. Proc Natl Acad Sci USA 96:9769–9774Google Scholar
  52. 52.
    Hausmann J, Schamel K, Staeheli P (2001) CD8(+) T lymphocytes mediate Borna disease virus-induced immunopathology independently of perforin. J Virol 75:10460–10466Google Scholar
  53. 53.
    Stitz L, Bilzer T, Richt JA, Rott R (1993) Pathogenesis of Borna disease. Arch Virol Suppl 7:135–151Google Scholar
  54. 54.
    Rott R, Becht H (1995) Natural and experimental Borna disease in animals. Curr Top Microbiol Immunol 190:17–30Google Scholar
  55. 55.
    Bilzer T, Grabner A, Stitz L (1996) Immunopathology of Borna disease in the horse: clinical, virological and neuropathologic findings. Tierarztl Prax 24:567–576Google Scholar
  56. 56.
    Richt JA, Pfeuffer I, Christ M, Frese K, Bechter K, Herzog S (1997) Borna disease virus infection in animals and humans. Emerg Infect Dis 3:343–352Google Scholar
  57. 57.
    Metzler A, Minder HP, Wegmann C, Zindel W (1979) Die Borna’sche Krankheit, ein veterinärmedizinisches Problem von regionaler Bedeutung. Schweiz Arch Tierheilk 121:207–213Google Scholar
  58. 58.
    Waelchli RO, Ehrensperger F, Metzler A, Winder C (1985) Borna disease in a sheep. Vet Rec 117:499–500Google Scholar
  59. 59.
    Jacobsen B, Algermissen D, Schaudien D et al (2010) Borna disease in an adult alpaca stallion ( Lama pacos ). J Comp Pathol 143:203–208 Google Scholar
  60. 60.
    Altmann D, Kronberger H, Schüppel KF, Lippmann R, Altmann J (1976) Bornasche Krankheit (Meningo-Encephalomyelitis simplex enzootica equorum) bei Neuwelttylopoden und Equiden. Verh Ber Erkr Zootiere 18:127–132Google Scholar
  61. 61.
    Schüppel KF, Kinne J, Reinacher M (1994) Bornavirus-Antigennachweis bei Alpakas (Lama pacos) sowie bei einem Faultier (Choloepus didactylus) und einem Zwergflusspferd (Choeropsis liberiensis). In: Hofmann RR, Ippen R (Hrsg) Verhandlungsbericht XXXVI. Internationales Symposium über Erkrankungen von Zootieren, Bd. 11. Akademie-Verlag, Berlin, S 189–194Google Scholar
  62. 62.
    Lundgren AL, Johannisson A, Zimmermann W et al (1997) Neurological disease and encephalitis in cats experimentally infected with Borna disease virus. Acta Neuropathol 93:391–401Google Scholar
  63. 63.
    Wensman JJ, Jäderlund KH, Holst BS, Berg M (2014) Borna disease virus infection in cats. Vet J 201:142–149Google Scholar
  64. 64.
    Lutz H, Addie DD, Boucraut-Baralon C et al (2015) Borna disease virus infection in cats: ABCD guidelines on prevention and management. J Feline Med Surg 17:614–616Google Scholar
  65. 65.
    Nowotny N (1999) Borna disease in cats. Vet Rec 144:187Google Scholar
  66. 66.
    Dürrwald R, Kolodziejek J, Muluneh A, Herzog S, Nowotny N (2006) Epidemiological pattern of classical Borna disease and regional genetic clustering of Borna disease viruses point towards the existence of to-date unknown endemic reservoir host populations. Microbes Infect 8:917–929Google Scholar
  67. 67.
    Bilzer T, Planz O, Lipkin WI, Stitz L (1995) Presence of CD4+ and CD8+ T cells and expression of MHC class I and MHC class II antigen in horses with Borna disease virus-induced encephalitis. Brain Pathol 5:223–230Google Scholar
  68. 68.
    Cervós-Navarro J, Roggendorf W, Ludwig H, Stitz H (1981) The encephalitic reaction in Borna disease virus infected rhesus monkeys. Verh Dtsch Ges Pathol 65:208–212Google Scholar
  69. 69.
    Nishino Y, Kobasa D, Rubin SA, Pletnikov MV, Carbone KM (2002) Enhanced neurovirulence of Borna disease virus variants associated with nucleotide changes in the glycoprotein and L polymerase genes. J Virol 76:8650–8658Google Scholar
  70. 70.
    Ackermann A, Staeheli P, Schneider U (2007) Adaptation of Borna disease virus to new host species attributed to altered regulation of viral polymerase activity. J Virol 81:7933–7940Google Scholar
  71. 71.
    Narayan O, Herzog S, Frese K, Scheefers H, Rott R (1983) Pathogenesis of Borna disease in rats: immune-mediated viral ophthalmoencephalopathy causing blindness and behavioral abnormalities. J Infect Dis 148:305–315Google Scholar
  72. 72.
    Stitz L, Krey H, Ludwig H (1980) Borna disease in rhesus monkeys as a model for uveo-cerebral symptoms. J Med Virol 6:333–340Google Scholar
  73. 73.
    Kolodziejek J, Dürrwald R, Herzog S, Ehrensperger F, Lussy H, Nowotny N (2005) Genetic clustering of Borna disease virus natural animal isolates, laboratory and vaccine strains strongly reflects their regional geographical origin. J Gen Virol 86:385–398Google Scholar
  74. 74.
    Charrel RN, de Lamballerie X (2010) Zoonotic aspects of arenavirus infections. Vet Microbiol 140:213–220Google Scholar
  75. 75.
    Rupprecht CE, Hanlon CA, Hemachudha T (2002) Rabies re-examined. Lancet Infect Dis 2:327–343Google Scholar
  76. 76.
    Tappe D, Schlottau K, Cadar D et al (2018) Occupation-associated fatal limbic encephalitis caused by Variegated Squirrel Bornavirus 1, Germany, 2013. Emerg Infect Dis 24:978–987Google Scholar
  77. 77.
    Tappe D, Schmidt-Chanasit J, Beer M (2015) Bornavirus Associated with Fatal Human Encephalitis. N Engl J Med 373:1880–1881Google Scholar
  78. 78.
    Nicolau S, Galloway IA (1927) Preliminary note on the experimental study of enzootic encephalo-myelitis (Borna disease). Br J Exp Pathol 8:336–341Google Scholar
  79. 79.
    Seifried O, Spatz H (1930) Die Ausbreitung der enzephalitischen Reaktion bei der Bornaschen Krankheit der Pferde und deren Beziehungen zu der Enzephalitis epidemica, zur Heine-Medinschen Krankheit und der Lyssa des Menschen. Eine vergleichend-pathologische Studie. Z Ges Neurol Psychiat 124:317–383Google Scholar
  80. 80.
    Chalmers RM, Thomas DR, Salmon RL (2005) Borna disease virus and the evidence for human pathogenicity: a systematic review. QJM 98:255–274Google Scholar
  81. 81.
    Dürrwald R, Kolodziejek J, Herzog S, Nowotny N (2007) Meta-analysis of putative human bornavirus sequences fails to provide evidence implicating Borna disease virus in mental illness. Rev Med Virol 17:181–203Google Scholar
  82. 82.
    Hornig M, Briese T, Licinio J et al (2012) Absence of evidence for bornavirus infection in schizophrenia, bipolar disorder and major depressive disorder. Mol Psychiatry 17:486–493Google Scholar
  83. 83.
    Gosztonyi G, Ludwig H (1995) Borna disease—neuropathology and pathogenesis. Curr Top Microbiol Immunol 190:39–73Google Scholar
  84. 84.
    Rinder M, Ackermann A, Kempf H, Kaspers B, Korbel R, Staeheli P (2009) Broad tissue and cell tropism of avian bornavirus in parrots with proventricular dilatation disease. J Virol 83:5401–5407Google Scholar
  85. 85.
    Payne SL, Delnatte P, Guo J, Heatley JJ, Tizard I, Smith DA (2012) Birds and bornaviruses. Anim Health Res Rev 13:145–156Google Scholar
  86. 86.
    Kerski A, de Kloet AH, de Kloet SR (2012) Vertical transmission of avian bornavirus in Psittaciformes: avian bornavirus RNA and anti-avian bornavirus antibodies in eggs, embryos, and hatchlings obtained from infected sun conures ( Aratinga solstitialis ). Avian Dis 56:471–478 Google Scholar
  87. 87.
    Gy P, Hoppes S, Suchodolski P et al (2010) Use of avian bornavirus isolates to induce proventricular dilatation disease in conures. Emerg Infect Dis 16:473–479Google Scholar
  88. 88.
    Ludwig H, Becht H, Groh L (1973) Borna disease (BD), a slow virus infection. Biological properties of the virus. Med Microbiol Immunol 158:275–289Google Scholar
  89. 89.
    Ludwig H, Bode L, Gosztonyi G (1988) Borna disease: a persistent virus infection of the central nervous system. Prog Med Virol 35:107–151Google Scholar
  90. 90.
    Zwick W (1926) Ueber die ansteckende Gehirn- und Rückenmarksentzündung (Bornasche Krankheit) der Pferde. Tierärztliche Rundschau 32:801–802Google Scholar
  91. 91.
    Berg M, Johansson M, Montell H, Berg AL (2001) Wild birds as a possible natural reservoir of Borna disease virus. Epidemiol Infect 127:173–178Google Scholar
  92. 92.
    Rubbenstroth D, Schmidt V, Rinder M et al (2016) Phylogenetic analysis supports horizontal transmission as a driving force of the spread of avian bornaviruses. PLoS ONE 11:e160936Google Scholar
  93. 93.
    Belyi VA, Levine AJ, Skalka AM (2010) Sequences from ancestral single-stranded DNA viruses in vertebrate genomes: the parvoviridae and circoviridae are more than 40 to 50 million years old. J Virol 84:12458–12462Google Scholar
  94. 94.
    Horie M, Kobayashi Y, Suzuki Y, Tomonaga K (2013) Comprehensive analysis of endogenous bornavirus-like elements in eukaryote genomes. Philos Trans R Soc Lond B Biol Sci 368:20120499Google Scholar
  95. 95.
    Horie M (2017) The biological significance of bornavirus-derived genes in mammals. Curr Opin Virol 25:1–6Google Scholar
  96. 96.
    Honda T, Tomonaga K (2016) Endogenous non-retroviral RNA virus elements evidence a novel type of antiviral immunity. Mob Genet Elements 6:e1165785Google Scholar
  97. 97.
    Suzuki Y, Kobayashi Y, Horie M, Tomonaga K (2014) Origin of an endogenous bornavirus-like nucleoprotein element in thirteen-lined ground squirrels. Genes Genet Syst 89:143–148Google Scholar
  98. 98.
    Fujino K, Horie M, Honda T, Merriman DK, Tomonaga K (2014) Inhibition of Borna disease virus replication by an endogenous bornavirus-like element in the ground squirrel genome. Proc Natl Acad Sci USA 111:13175–13180Google Scholar
  99. 99.
    Horie M, Tomonaga K (2018) Paleovirology of bornaviruses: What can be learned from molecular fossils of bornaviruses. Virus Res.  https://doi.org/10.1016/j.virusres.2018.04.006 (2018 Apr 6) Google Scholar
  100. 100.
    He P, Sun L, Zhu D et al (2016) Knock-Down of Endogenous Bornavirus-Like Nucleoprotein 1 Inhibits Cell Growth and Induces Apoptosis in Human Oligodendroglia Cells. Int J Mol Sci 17:435Google Scholar
  101. 101.
    Weissenböck H, Bagó Z, Kolodziejek J et al (2017) Infections of horses and shrews with Bornaviruses in Upper Austria: a novel endemic area of Borna disease. Emerg Microbes Infect 6:e52Google Scholar
  102. 102.
    He M, An TZ, Teng CB (2014) Evolution of mammalian and avian bornaviruses. Mol Phylogenet Evol 79:385–391Google Scholar
  103. 103.
    Schwemmle M, Jehle C, Formella S, Staeheli P (1999) Sequence similarities between human bornavirus isolates and laboratory strains question human origin. Lancet 354:1973–1974Google Scholar
  104. 104.
    Staeheli P, Sauder C, Hausmann J, Ehrensperger F, Schwemmle M (2000) Epidemiology of Borna disease virus. J Gen Virol 81:2123–2135Google Scholar
  105. 105.
    Hilbe M, Herrsche R, Kolodziejek J, Nowotny N, Zlinszky K, Ehrensperger F (2006) Shrews as reservoir hosts of borna disease virus. Emerg Infect Dis 12:675–677Google Scholar
  106. 106.
    Dürrwald R, Kolodziejek J, Weissenböck H, Nowotny N (2014) The bicolored white-toothed shrew Crocidura leucodon (HERMANN 1780) is an indigenous host of mammalian Borna disease virus. PLoS ONE 9:e93659 Google Scholar
  107. 107.
    Bourg M, Herzog S, Encarnação JA et al (2013) Bicolored white-toothed shrews as reservoir for borna disease virus, Bavaria, Germany. Emerg Infect Dis 19:2064–2066Google Scholar
  108. 108.
    Encarnação JA, Herzog S, Eickmann M, Becker NI, Hermes N, Herden C (2013) Landscape features and reservoir occurrence affecting the risk for equine infection with Borna disease virus. J Wildl Dis 49:860–868Google Scholar
  109. 109.
    Dürrwald R, Nowotny N, Beer M, Kuhn JH (2017) Infections caused by bornaviruses. In: Richman DD, Whitley RJ, Hayden FG (Hrsg) Clinical Virology, 4. Aufl. ASM Press, Washington DC, S 1395–1408Google Scholar
  110. 110.
    Morales JA, Herzog S, Kompter C, Frese K, Rott R (1988) Axonal transport of Borna disease virus along olfactory pathways in spontaneously and experimentally infected rats. Med Microbiol Immunol 177:51–68Google Scholar
  111. 111.
    Werner B (2000) Untersuchungen zur vertikalen Übertragung des Virus der Bornaschen Krankheit beim Pferd. Ludwig-Maximilians-Universität, Tierärztliche FakultätGoogle Scholar
  112. 112.
    Kang SS, McGavern DB (2008) Lymphocytic choriomeningitis infection of the central nervous system. Front Biosci 13:4529–4543Google Scholar
  113. 113.
    Mayr A, Danner K (1972a ) Production of Borna virus in tissue culture. Proc Soc Exp Biol Med 140:511–515 Google Scholar
  114. 114.
    Mayr A, Danner K (1972b ) In-vitro-Kultivierung von Borna-Virus über Gehirn-Explantate infizierter Tiere. Zentralbl Veterinärmed B 19:785–800 Google Scholar
  115. 115.
    Danner K, Mayr A (1973) Fluoreszenzserologische Untersuchungen über das Auftreten von Borna-Virusantigen in Zellkulturen aus Gehirnexplantaten infizierter Kaninchen. Zentralbl Veterinarmed B 20:497–508Google Scholar
  116. 116.
    Danner K, Heubeck D, Mayr A (1978) In vitro studies on Borna virus. I. The use of cell cultures for the demonstration, titration and production of Borna virus. Arch Virol 57:63–75Google Scholar
  117. 117.
    Danner K, Lüthgen K, Herlyn M, Mayr A (1978) Vergleichende Untersuchungen über Nachweis und Bildung von Serumantikörpern gegen das Borna-Virus. Zentralbl Veterinarmed B 25:345–355Google Scholar
  118. 118.
    Lipkin WI, Travis GH, Carbone KM, Wilson MC (1990) Isolation and characterization of Borna disease agent cDNA clones. Proc Natl Acad Sci USA 87:4184–4188Google Scholar
  119. 119.
    Briese T, Hatalski CG, Kliche S, Park YS, Lipkin WI (1995) Enzyme-linked immunosorbent assay for detecting antibodies to Borna disease virus-specific proteins. J Clin Microbiol 33:348–351Google Scholar
  120. 120.
    Bode L, Reckwald P, Severus WE et al (2001) Borna disease virus-specific circulating immune complexes, antigenemia, and free antibodies—the key marker triplet determining infection and prevailing in severe mood disorders. Mol Psychiatry 6:481–491Google Scholar
  121. 121.
    Wolff T, Heins G, Pauli G, Burger R, Kurth R (2006) Failure to detect Borna disease virus antigen and RNA in human blood. J Clin Virol 36:309–311Google Scholar
  122. 122.
    Hoppes S, Gray PL, Payne S, Shivaprasad HL, Tizard I (2010) The isolation, pathogenesis, diagnosis, transmission, and control of avian bornavirus and proventricular dilatation disease. Vet Clin North Am Exot Anim Pract 13:495–508Google Scholar
  123. 123.
    Jordan I, Briese T, Averett DR, Lipkin WI (1999) Inhibition of Borna disease virus replication by ribavirin. J Virol 73:7903–7906Google Scholar
  124. 124.
    Dürrwald R (1993) Die natürliche Borna-Virus-Infektion der Einhufer und Schafe: Untersuchungen zur Epidemiology, zu neueren diagnostischen Methoden (PCR, ELISA) und zur Antikörperkinetik bei Pferden nach Vakzination mit Lebendimpfstoff. Fachbereich Veterinärmedizin, Freie Universität, BerlinGoogle Scholar
  125. 125.
    Möhlmann H, Maas A (1960) Wertigkeitsprüfung des Borna-Trockenimpfstoffs „Dessau“ bei Pferden unter den Verhältnissen der Praxis. Arch Exp Veterinärmed 14:1267–1280Google Scholar
  126. 126.
    Henkel M, Planz O, Fischer T, Stitz L, Rziha HJ (2005) Prevention of virus persistence and protection against immunopathology after Borna disease virus infection of the brain by a novel Orf virus recombinant. J Virol 79:314–325Google Scholar
  127. 127.
    Furrer E, Bilzer T, Stitz L, Planz O (2001) Neutralizing antibodies in persistent Borna disease virus infection: prophylactic effect of gp94-specific monoclonal antibodies in preventing encephalitis. J Virol 75:943–951Google Scholar
  128. 128.
    Bundesärztekammer (2017) Richtlinie zur Gewinnung von Blut und Blutbestandteilen und zur Anwendung von Blutprodukten (Richtlinie Hämotherapie), Gesamtnovelle 2017. https://www.bundesaerztekammer.de/aerzte/medizin-ethik/wissenschaftlicher-beirat/veroeffentlichungen/haemotherapie-transfusionsmedizin/richtlinie/ . Zugegriffen: 18. Jan. 2019 Google Scholar

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