Korean Journal of Veterinary Research (대한수의학회지)

The Korean Society of Veterinary Science (대한수의학회)
권호 표지

Development of Diagnostic Techniques for Newcastle Disease in Chickens by In Situ RT-PCR and In Situ Hybridization

In situ RT-PCR 및 In situ hybridization 기법에 의한 닭 뉴캣슬병의 진단법 개발

  • Park, Nam-Yong (Department of Veterinary Pathology, College of Veterinary Medicine, Chonnam National University) ;
  • Choi, Hyo-Im (Department of Veterinary Pathology, College of Veterinary Medicine, Chonnam National University) ;
  • Cho, Ho-Seong (Department of Veterinary Pathology, College of Veterinary Medicine, Chonnam National University) ;
  • Kang, Sung-Kwi (Department of Veterinary Pathology, College of Veterinary Medicine, Chonnam National University) ;
  • Cho, Kyoung-Oh (Department of Veterinary Pathology, College of Veterinary Medicine, Chonnam National University) ;
  • Brown, Corrie (Department of Veterinary Pathology, College of Veterinary Medicine, University of Georgia)
  • Accepted : 2002.08.21
  • Published : 2002.09.30
Download PDF
⟨ Previous Next ⟩

Abstract

Newcastle disease (ND) is a highly contagious infection of poultry, Two pathology-based techniques, in situ RT-PCR and in situ hybridization (ISH) were applied to formalin-fixed, paraffin-embedded tissues from chickens naturally infected with velogenic ND virus (VNDV). Two pairs of primers and a probe for ISH and in situ RT-PCR, respectively, were selected from highly conserved region of matrix gene of NDV. The ISH experiment was carried out using MicroProbe$^{TM}$ capillary action system within 2 hours. In situ RT-PCR was performed using MicroProbe$^{TM}$ capillary action system and GeneAmp In Situ PCR system. With ISH and in situ RT-PCR, viral nucleic acid was detected in the central nervous system of chickens from infected with neurotropic velogenic Newcastle disease virus (NVNDV), whereas viral nucleic acid was detected in various organs or tissues of chickens from infected with viscerotropic velogenic Newcastle disease virus (VVNDV). In the NVND group, positive signals were characteristically defined in the cytoplasm of neuron, vascular endothelial cells, and perivascular mononuclear macrophages in the central nervous system. One of NVND group, chicken from one farm exhibited positive signals in the bronchial epithelium. The VVND group chickens showed positive reaction in the macrophages, vascular endothelium, and bronchiolar epithelium. Markedly, viral nucleic acid was detected in the macrophages of morphologically normal tissues which were peripheral or located in distant areas from lesions. The central nervous system of chickens infected with VVND virus had positive signals in the vascular endothelial cell, perivascular mononuclear macrophages and some neuron. The number and intensity of the positive cells by in situ RT-PCR were more and stronger, respectively, in comparison with those by ISH. Particularly, positive reaction was detected in macrophages infiltrating in cardiac muscle by in situ RT-PCR, but not obtained by ISH. Therefore, these results demonstrated that ISH is a rapid diagnostic method for detection of NDV and in situ RT-PCR can be used as an efficient method for detection of low viral load infection or subclinical viral infection of NDV.

Keywords

References

  1. Alexander DJ, Calnek BW, Barnes HJ, McDougall LR, Saif YM, Beard CW. Newcastle disease and other paramyxovirus infection. In : Disease of Poultry, Iowa State University Press, 541-569, 1997
  2. Office International des Epizootics. Manual for the animal disease reporting to the OIE. World Organization for the Animal Health, Paris, France, 1996
  3. Rima BK, Alexander DJ, Biller MA, Collins PL, Kingsbury DW, Lipkind MA. Paramyxoviridae. Sixth Report of the International Committee an Taxonomy of Viruses. Virus Taxonomy, Spronger-Verlep, Wien, Vienna. 268-274, 1995
  4. Seal BS, King DJ, Sellers HS. The avian response of Newcastle disease virus. Dev Comp Immunol, 24:257-268, 2000
  5. Gotoh B, Ohnishi Y, Inocencio NM, Esaki E, Nakayama K, Barr PJ, Thomas G, Nagai Y. Mammalian subtilisim-related proteinases in cleavage activation of the paramyxovirus fusion glycoptotein superiority of furin/PAGE to PC2 or PCI/PC3. J Virol, 66:6391-6397, 1992
  6. Le L, Brasseur R, Wemers C, Meulemans G, Burny A. Fusion protein gene of Newcastle disease virus : sequence and hydrophobicity. Comparative analysis between virulent and avirulent strain. Virus Genes, 1:333-350, 1988
  7. Seal BS, King DJ, Bennett JD. Characterization of Newcastle disease virus isolates by reverse transcription PCR coupled to direct nucleotide sequencing and development of sequence database for the pathotype prediction and molecular epidemiologic analysis. J Clin Microbiol, 33:2624-2630, 1995
  8. Alexander DJ, Alle WH. Newcastle disease virus pathotypes. Avian Pathol, 4:269-278, 1974
  9. Wilson RA, Perrotta C, Frey B, Eckroade RJ. An enzyme-linked immunosorbent assay that measures protective antibody levels to Newcastle disease virus in chickens. Avian Dis, 29:1079-1085, 1984
  10. Alexander DJ, Lister SA, Wilson GW. Avian paramyxovirus type 1 infection of racing pigeons. Vet Rec, 118:424-427, 1986
  11. Park CS, Manahan L.J, Brigati DJ. Automated molecular pathology: one hour in situ DNA hybridization. J Histotech, 14:219-229, 1991
  12. Nuovo GJ, Richart RM Buffered formalin is the superior fixative for the detection of HPV DNA by in situ hybridization analysis. Am J Pathol, 134:837-842, 1989
  13. Hung JL, Ming HL. Comparison of two molecular techniques for the detection of avian reoviruses in formalin-fixed, Paraffin-embedded chicken tissues. J Virol Methods, 80:197-201, 1999
  14. Stram Y, Shchori D, Chinitch Y, David D, Molad T, Samina I. Molecular characterization of an unassigned Israeli Newcastle disease virus isolate. Avian Dis, 42:746-751, 1998
  15. King DJ, Seal BS. Biological and molecular characterization of Newcastle disease virus (NDV) field isolates with comparisons to reference NDV strains. Avian Dis, 42:507-516, 1998
  16. 박남용, 조호성, 조경오 등. In situ Hybridization에 의한 토끼 출혈증의 신속 $\cdot$ 간편한 진단. 한국수의병리학회지, 5:57-61, 2001
  17. Park NY, Im HH, Cho KO. Development of PCR in situ hybridization and in situ hybridization for diagnosis of swine aujeszky's disease, in Proceedings. 16th International Pig Veterinary Society Congress, 614, 2000
  18. Haase AT, Retzel EF, Staskus KA. Amplification and detection of lentiviral DNA inside cells. Proc Natl Acad Sci, USA, 87:4971-4975, 1990
  19. Nuovo GJ, MacConnell P, Forde A, Delvenne P. Detection of human papillomavirus DNA in formalin-fixed tissues by in situ hybridization after amplification by polymerase chain reaction. Am J Pathol, 139:847-854, 1991
  20. Komminoth P, Long AA, Ray R, Wolfe HJ. In situ polymerase chain reaction detection of viral DNA, single-copy genes, and gene rearrangements in cell suspensions and cytospins. Diagn Mol Pathol, 1:85-97, 1992
  21. Brown CC, King DJ, Seal BS. Detecdon of a macrophage-specific antigen and the production of interferon gamma in chickens infected with Newcastle disease virus. Avian Dis, 43:696-703, 1999
  22. Lam KM. Growth of Newcastle disease virus in chicken macrophage. J Comp Pathol. 115:253-263, 1996
  23. Brown CC, King DJ, Seal BS. Pathogenesis of Newcastle disease in chickens experimentally infected with viruses of different virulence. Vet Pathol, 36:125-132, 1999
  24. Brown CC, King DJ, Seal BS. Comparison of pathology-based techniques for detection of viscerotropic velogenic Newcastle disease virus in chickens. J Comp Pathol, 120:383-389, 1999
  25. Seal BS, King DJ, Meinersmann RJ. Molecular evolution of the Newcastle disease virus matrix protein gene and phylogenetic relationships among the paramyxoviridae. Virus Res, 66:1-11, 2000
  26. Qjok L, Brown CC. An immunohistochemical study of the pathogenesis of virulent viscerotropic Newcastle disease in chickens. J Comp Pathol, 115:221-227, 1996