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Class-specific antibodies to bovine respiratory syncytial virus in experimentally infected lambs

Published online by Cambridge University Press:  15 May 2009

R. Sharma
Affiliation:
University of Liverpool, Department of Veterinary Pathology, Veterinary Field Station, Leahurst, Neston, Wirral L64 7TE, UK
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Summary

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Enzyme-linked immunoabsorbent assay (ELISA) was used to titrate virus-specific IgG, IgM and IgA levels in nasal secretions, lung lavage fluids and serum samples sequentially obtained from lambs experimentally infected with bovine respiratory syncytial virus (RSV). Virus-specific IgG and IgM responses were measured by the indirect double antibody sandwich ELISA using anti-bovine RSV monoclonal antibody, as capture antibody, and peroxidase-conjugated anti-sheep IgG and anti-sheep IgM. Virus-specific IgA antibodies were measured by antibody capture assay using anti-sheep IgA (α–chain specific) and anti-bovine RSV monoclonal antibodies.

Bovine RSV-specific IgM and IgA antibodies were detected in the serum samples within 6 days post-inoculation (p.i.). Virus-specific IgC antibodies appeared in serum samples 4 days later. In nasal secretions, IgA antibodies appeared 7 days p.i. but IgM antibodies were not detected until 12–16 days p.i. In serum samples, IgM titres were predominant for the first 2 weeks p.i. IgC titres becoming predominant thereafter. In nasal secretions and lung lavage fluids, IgA titres were significantly higher than IgM or IgG titres up to 21 days p.i. (0·01).

Type
Research Article
Copyright
Copyright © Cambridge University Press 1992

References

REFERENCES

1.Stott, EJ, Thomas, LH, Howard, CJ, Gourley, RN. Field trial of quadrivalent vaccine against calf respiratory disease. Vet Rec 1987; 121: 342–7.CrossRefGoogle ScholarPubMed
2.Mohanty, EB, Ingling, AL, Lilie, MG. Experimentally induced respiratory syncytial viral infection in calves. Am J Vet Res 1975; 36: 417–9.Google ScholarPubMed
3.Jacobs, JW, Edington, N. Experimental infection of salves with respiratory syncytial virus. Res Vet Sci 1975; 18: 299306.CrossRefGoogle Scholar
4.Evermann, JF, Liggit, HD, Parish, SM, Ward, ACS, LeaMaster, BR. Properties of respiratory syncytial virus isolated from sheep with rhinitis. Am J Vet Res 1985; 46: 947–52.Google ScholarPubMed
5.Berthiaume, L, Joncas, J, Boulay, G, Pavilanis, V. Serologic evidence of respiratory syncytial virus infection in sheep. Vet Rec 1973; 93: 3378.CrossRefGoogle ScholarPubMed
6.Adair, BM, McFerran, JB, McKillop, ER, McCullough, SJ. Survey for antibodies to respiratory viruses in two groups of sheep in Northern Ireland. Vet Rec 1984; 115: 403–6.CrossRefGoogle ScholarPubMed
7.Goyal, SM, Khan, MA, McPherson, SW, Robinson, RA, Boylan, WJ. Prevalence of antibodies to seven viruses in a flock of ewes in Minnesota. Am J Vet Res 1988; 49: 464–7.Google Scholar
8.Elazhary, Masy, Silim, A, Dea, S. Prevalence of bovine respiratory syncytial virus, bovine viral diarrhoea virus, bovine herpesvirus-1 and bovine parainfluenza-3 virus in sheep and goats in Quebec. Am J Vet Res 1984; 45: 1660–2.Google ScholarPubMed
9.Al-Darraji, AM, Cutlip, RC, Lehmkuhl, HD, Graham, DL, Kluge, JP, Frank, GH. Experimental infection of lambs with bovine respiratory syncytial virus and Pasteurella haemolytica: Clinical and microbiologic studies. Am J Vet Res 1982; 43: 236–40.Google ScholarPubMed
10.Lehmkuhl, HD, Cutlip, RC. Experimentally induced respiratory syncytial virus infection in lambs. Am J Vet Res 1979; 40: 512–4.Google ScholarPubMed
11.Trigo, FJ, Breeze, RG, Evermann, JF, Galina, AM. Pathogenesis of experimental bovine respiratory syncytial virus infection in sheep. Am J Vet Res 1984; 45: 1663–70.Google ScholarPubMed
12.Sharma, R, Woldehiwet, Z. Pathogenesis of bovine respiratory syncytial virus in experimentally infected lambs. Vet Microbiol 1990a; 23: 267–72.CrossRefGoogle ScholarPubMed
13.Sharma, R, Woldehiwet, Z. Increased susceptibility to Pasteurella haemolytica in lambs infected with bovine respiratory syncytial virus. J Comp Path 1990b; 23: 411–20.CrossRefGoogle Scholar
14.Sharma, R, Woldehiwet, Z, Spiller, D, Warenius, HM. Lymphocyte subpopulations in peripheral blood of lambs experimentally infected with bovine respiratory syncytial virus. Vet Immunol Immunopathol 1990, 24: 383–91.CrossRefGoogle ScholarPubMed
15.Sharma, R, Woldehiwet, Z. Depression of lymphocyte responses to phtyohaemagglutinin in lambs experimentally infected with bovine respiratory syncytial virus. Res Vet Sci 1991a; 50: 152–6.CrossRefGoogle Scholar
16.Sharma, R, Woldehiwet, Z. Cytotoxic T cell responses in lambs experimentally infected with bovine respiratory syncytial virus. Vet Immunol Immunopathol 1991b; 28: 237–46.CrossRefGoogle ScholarPubMed
17.Davies, DH, Penwarden, RA. The phagocytic cell response of the ovine lung to P. haemolytica. Vet Microbiol 1981; 6: 183–9.CrossRefGoogle Scholar
18.Lehmkuhl, HD, Gough, PM. Investigation of causative agents of bovine respiratory tract disease in a beef cow-calf herd with an early weaning program. Am J Vet Res 1977; 38: 1717–20.Google Scholar
19.Kimman, TG, Westenbrink, F, Straver, PJ, Van Zaane, D, Schreuder, Bec. Isotype-specific ELISAs for the detection of antibodies to bovine respiratory syncytial virus. Res Vet Sci 1987; 43: 180–7.CrossRefGoogle ScholarPubMed
20.Welliver, RC, Kaul, TN, Putnam, TI, Sun, M, Riddlesberger, K, Ogra, PL. The antibody response to primary and secondary infection with respiratory syncytial virus: kinetics of class–specific responses. J Pediat 1980; 96: 808–13.CrossRefGoogle ScholarPubMed
21.Cevenini, R, Donati, M, Bertini, S, Moroni, A, Sambri, V. Capture-ELISA for serum IgM antibody to respiratory syncytial virus. J Hyg 1986; 97: 511–7.CrossRefGoogle ScholarPubMed
22.Kimman, TG, Westenbrink, F, Schreuder, Bec, Straver, PJ. Local and systemic antibody response to bovine respiratory syncytial virus infection and reinfection in calves with and without maternal antibodies. J Clin Microbial 1987; 25: 1097–106.CrossRefGoogle ScholarPubMed
23.Thomas, LH, Stott, EJ. Collins, AP, Jebbett, J. Experimental pneumonia in gnotobiotic calves produced by respiratory syncytial virus in calves. J. Hyg 1984; 93: 251–61.Google Scholar
24.Wellemans, G. Laboratory diagnosis methods for bovine respiratory syncytial virus. Vet Sci Comm 1977; 1: 179–89.CrossRefGoogle Scholar
25.Gillette, KG. Enzyme-linked immunosorbent assay for serum antibody to bovine respiratory syncytial virus: comparison with complement-fixation and neutralization tests. Am J Vet Res 1983; 44: 2251–5.Google ScholarPubMed
26.Van Nieuwstadt, AP, Verhoeff, J. Serology for diagnosis and epizootiological studies of bovine respiratory syncytial virus infections. Res Vet Sci 1983; 35: 153–9.CrossRefGoogle ScholarPubMed
27.Cranage, MP, Gardner, PS. Systemic cell–mediated and antibody responses in infants with respiratory syncytial virus infections. J Med Virol 1980; 5: 161–70.CrossRefGoogle ScholarPubMed
28.Alford, RH, Rossen, DR, Butler, WT, Kasel, JA. Neutralizing and haemagglutinating-inhibiting activity of nasal secretions following experimental human infection with A2 influenza virus. J Immunol 1967; 98: 724–31.CrossRefGoogle Scholar
29.Smith, CB, Purcell, RH, Bellanti, JA, Chanock, RM. Protective effect of antibody to parainfluenza type 1 virus. New Eng J Med 1966; 275: 1145–52.CrossRefGoogle ScholarPubMed
30.Kim, HW. Arrobio, JO, Pyles, G, Brandt, CD, Camargo, E, Chanock, RM, Parrott, RH. Clinical and immunological response of infants and children to administration of low-temperature adapted respiratory syncytial virus. Pediatrics 1971; 48: 745–55.CrossRefGoogle ScholarPubMed
31.Scott, R, Gardner, PS. Respiratory syncytial virus neutralizing activity in nasopharyngeal secretion. J Hyg 1970; 68: 581–8.Google Scholar
32.Mohanty, SB, Lillie, MG, Ingling, AL. Effect of serum and nasal neutralizing antibodies on bovine respiratory syncytial viral infection in calves. J Infect Dis 1976; 134: 409–13.CrossRefGoogle ScholarPubMed
33.Mclntosh, K, McQuillin, J, Gardner, PS. Cell-free and cell bound antibody in nasal secretions from infants with respiratory syncytial virus infection. Infect Immun 1979; 23: 276–81.CrossRefGoogle Scholar
34.Hornsleth, A, Friis, B, Grauballe, PC, Krasilnikof, PA. Detection by ELISA of IgA and IgM antibodies in secretion and IgM antibodies in serum in primary lower respiratory syncytial virus infection. J Med Virol 1984; 13: 149–61.CrossRefGoogle ScholarPubMed
35.Westenbrink, F, Brinkhof, JMA, Straver, PJ, Quak, J, De Leeuw, PW. Comparison of a newly developed enzyme-linked immunosorbent assays with complement fixation and neutralisation tests for serology of bovine respiratory syncytial virus infections. Res Vet Sci 1985; 38: 334–40.CrossRefGoogle ScholarPubMed
36.De Savigny, D, Voller, A. The communication of ELISA data from laboratory to clinician. J Immunoassay 1980; 1: 105–28.CrossRefGoogle ScholarPubMed
37.Butler, JE, Feldbush, TL, McGiver, PL, Stewart, N. The enzyme-linked immunosorbent assay (ELISA): A measure of antibody concentration or concentration or affinity? Immunochemistry 1978; 15: 131–6.CrossRefGoogle ScholarPubMed
38.Kaul, TN, Welliver, RC, Wong, DT, Udwadia, RA, Riddlesberger, K, Ogra, PL. Secretory antibody response to respiratory syncytial virus infection. Am J Dis Child 1981; 135: 1013–16.Google ScholarPubMed
39.Morgan, KL, Hussein, AM, Newby, TJ, Bourne, FJ. Quantification and origin of the immunoglobulins in porcine respiratory tract secretions. Immunology 1980; 41: 729–36.Google ScholarPubMed
40.Alley, MR, Wells, PW, Smith, WD, Gardner, AC. The distribution of immunoglobulin in the respiratory tract of sheep. Vet Pathol 1980; 17: 372–80.CrossRefGoogle ScholarPubMed
41.Daniele, RP. The secretory immune system of the lung. In: Immunology and immunologic diseases of the lung, ed. Daniele, RP 1988: 115–26.Google Scholar