【 摘 要 】

Background

Avian Metapneumovirus (aMPV) infections are a huge economical issue for the poultry industry worldwide. Although maternal antibodies do not protect turkey poults against turkey rhinotracheitis (TRT), almost no studies have been conducted so far regarding the impact of these antibodies on vaccine induced immunity development against aMPV infection. We conducted four experiments on commercial turkeys aimed at comparing local humoral and cell mediated immune response of maternally delivered anti-aMPV antibody positive (MDA+; Experiment I and II) and negative (MDA-; Experiment III and IV) turkeys following vaccination with an attenuated live aMPV subtype A vaccine at the day of hatch (Experiment I and III) or at two weeks of age (Experiment II and IV).

Results

Regardless of the birds’ age, vaccination of MDA- turkeys resulted in strong stimulation of CD8⁺ T lymphocytes in the Harderian gland and tracheal mucosa, whereas vaccination of MDA+ birds stimulated mainly CD4⁺ T cells in those structures. An increase in the level of anti-aMPV IgY antibodies was noted in the serum (but not in tracheal washings) as early as 7 days after vaccination, but only in birds possessing low levels (MDA+ birds vaccinated at 2 weeks of age) or no maternal anti-aMPV antibodies at the time of vaccination. In MDA+ turkeys vaccinated at hatch, the decrease in serum levels of maternal anti-aMPV antibodies proceeded faster (in comparison to control group), which, together with faster viral clearance, indicates that maternal antibodies can inhibit vaccine virus replication and influence the development of vaccine-induced immunity.

Conclusion

This study provides the first documented evidence that the frequency of TRT outbreaks in the field and/or failure of TRT vaccination could be correlated with differences in the immunological status and/or age of vaccinated turkeys.

【 授权许可】

   
2015 Smialek et al.; licensee BioMed Central.

【 预 览 】

附件列表

Files	Size	Format	View
20150302050006723.pdf	730KB	PDF	download
Figure 2.	55KB	Image	download
Figure 1.	41KB	Image	download

【 图 表 】

【 参考文献 】

• [1]Pedersen JC, Reynolds DL, Ali A: The sensitivity and specificity of a reverse transcriptasepolymerase chain reaction assay for the avian pneumovirus (Colorado strain). Avian Dis 2000, 44:681-5.
• [2]Buys SB, Du Preez JH: A preliminary report on the isolation of a virus causing sinusitis in turkeys in South Africa and attempts to attenuate the virus. Turkeys 1980, 28:36.
• [3]Collins MS, Gough RE, Alexander DJ: Antigenic differentiation of avian pneumovirus isolates using polyclonal antibody and mouse monoclonal antibodies. Avian Pathol 1993, 22:469-79.
• [4]Cook JKA, Jones BV, Ellis MM, Li J, Cavanagh D: Antigenic differentiation of strains of Turkey rhinotracheitis virus using monoclonal antibodies. Avian Pathol 1993, 22:257-73.
• [5]Seal BS: Matrix protein gene nucleotide and predicted amino acid sequence demonstrate that the first US avian pneumovirus isolate is distinct from European strains. Virus Res 1998, 58:45-52.
• [6]Smialek M, Tykalowski B, Stenzel T, Koncicki A: The perspective of immunoprophylaxis and selected immunological issues in the course of the turkey rhinotracheitis. Pol J Vet Sci 2012, 15:175-80.
• [7]Liman M, Rautenschlein S: Induction of local and systemic immune reactions following infection of turkeys with avian Metapneumovirus (aMPV) subtypes A and B. Vet Immunol Immunopathol 2007, 115:273-85.
• [8]Catelli E, Lupini C, Cecchinato M, Ricchizzi E, Brown P, Naylor CJ: Field avian metapneumovirus evolution avoiding vaccine induced immunity. Vaccine 2010, 28:916-21.
• [9]Rautenschlein S, Aung YH, Haase C: Local and systemic immune responses following infection of broiler-type chickens with avian Metapneumovirus subtypes A and B. Vet Immunol Immunopathol 2011, 140:10-22.
• [10]Jones RC, Wolliams RA, Baxter-Jones C, Savage CE, Wilding GP: Experimental infection of laying turkeys with rhinotracheitis virus: distribution of virus in the tissues and serological response. Avian Pathol 1988, 17:841-50.
• [11]Cook JKA, Ellis MM, Dolby CA, Holmes HC, Finney PM, Huggins MB: A live attenuated turkey rhinotracheitis virus vaccine. 1.Stability of the attenuated strain. Avian Pathol 1989, 18:511-22.
• [12]Cook JKA, Holmes HC, Finney PM, Dolby CA, Ellis MM, Huggins MB: A live attenuated turkey rhinotracheitis virus vaccine. 2. The use of the attenuated strain as an experimental vaccine. Avian Pathol 1989, 18:523-34.
• [13]Jirjis FF, Noll SL, Halvorson DA, Nagaraja KV, Shaw DP: Pathogenesis of avian pneumovirus infection in turkeys. Vet Pathol 2002, 39:300-10.
• [14]Jones RC, Naylor CJ, al-Afaleq A, Worthington KJ, Jones R: Effect of cyclophosphamide immunosuppression on the immunity of turkeys to viral rhinotracheitis. Res Vet Sci 1992, 53:38-41.
• [15]Cha RM, Khatri M, Sharma JM: B-cell infiltration in the respiratory mucosa of turkeys exposed to subtype C avian metapneumovirus. Avian Dis 2007, 51:764-70.
• [16]Rubbenstroth D, Rautenschlein S: Compromised T-cell immunity in turkeys may lead to an unpredictable avian metapneumovirus vaccine response and variable protection against challenge. Avian Pathol 2010, 39:349-57.
• [17]Cha RM. Immunopathogenesis of avian Metapnumovirus in the turkeys. PhD thesis. University of Minnesota, United States; 2009.
• [18]Cavanagh D, Mawditt K, Britton P, Naylor CJ: Longitudinal field studies of infectious bronchitis virus and avian pneumovirus in broilers using type-specific polymerase chain reactions. Avian Pathol 1999, 28:593-605.
• [19]Gough RE, Jones RC: Avian Metapneumovirus. In Diseases of poultry. 12th edition. Edited by Saif YM. Blackwell Publishing, Ames; 2008:100-10.
• [20]Wiliams RA, Savage CE, Jones RC: Development of a live attenuated vaccine against turkey rhinotracheitis. Avian Pathol 1991, 20:45-55.
• [21]Patnayak DP, Sheikh AM, Gulati BR, Goyal SM: Experimental and field evaluation of a live vaccine against avian pneumovirus. Avian Pathol 2002, 31:377-82.
• [22]Kimpen JL, Rich GA, Mohar CK, Ogra PL: Mucosal T cell distribution during infection with respiratory syncytial virus. J Med Virol 1992, 36:172-9.
• [23]de Bree GJ, van Leeuwen EM, Out TA, Jansen HM, Jonkers E, van Lier RA: Selective accumulation of differentiated CD8+ T cells specific for respiratory viruses in the human lung. J Exp Med 2005, 202:1433-42.
• [24]Scott KG, Buret AG: Role of CD8+ and CD4+ T lymphocytes in jejunal mucosal injury during murine giardiasis. Infect Immun 2004, 72:3536-42.
• [25]Timms LM, Jahans KL, Marshall RN: Evidence of immunosuppression in turkey poults affected by rhinotracheitis. Vet Rec 1986, 119:91-2.
• [26]Chary P, Rautenschlein S, Njenga MK, Sharma JM: Pathogenic and immunosuppressive effects of avian pneumovirus in turkeys. Avian Dis 2002, 46:153-61.
• [27]Chary P, Rautenschlein S, Sharma JM: Reduced efficacy of hemorrhagic enteritis virus vaccine in turkeys exposed to avian pneumovirus. Avian Dis 2002, 46:353-9.
• [28]Marien M, Decostere A, Martel A, Chiers K, Froyman R, Nauwynck H: Synergy between avian pneumovirus and Ornithobacterium rhinotracheale in turkeys. Avian Pathol 2005, 34:204-11.
• [29]Davidson F, Kaspers B, Schat KA: Avian immunology. 1st edition. Academic Press, Great Britain; 2008.
• [30]Parel Y, Chizzolini C: CD4+ CD8+ double positive (DP) T cells in health and disease. Autoimmune Rev 2004, 3:215-20.
• [31]Eterradossi N, Toquin D, Guittet M, Bennejean G: Evaluation of different turkey rhinotracheitis viruses used as antigens for serological testing following live vaccination and challenge. Zentralbl Veterinarmed B 1995, 42:175-86.
• [32]Mekkes DR, de Wit JJ: Comparison of three commercial ELISA kits for the detection of turkey rhinotracheitis virus antibodies. Avian Pathol 1998, 27:301-5.
• [33]Cook JKA: Avian rhinotracheitis. Rev Sci Tech 2000, 19:602-13.