Pock forming ability of fowl pox virus isolated from layer chicken and its adaptation in chicken embryo fibroblast cell culture

doi:10.14202/vetworld.2015.245-250

. 2015 Mar;8(3):245-50.

doi: 10.14202/vetworld.2015.245-250. Epub 2015 Mar 4.

Pock forming ability of fowl pox virus isolated from layer chicken and its adaptation in chicken embryo fibroblast cell culture

Varsha Rani Gilhare¹, S D Hirpurkar¹, Ashish Kumar¹, Surendra Kumar Naik², Tarini Sahu²

Affiliations

¹ Department of Veterinary Microbiology, College of Veterinary Science and Animal Husbandry, Anjora Durg, Chhattisgarh, India.
² Department of Animal Nutrition, College of Veterinary Science and Animal Husbandry, Anjora Durg, Chhattisgarh, India.

PMID: 27047081
PMCID: PMC4774827
DOI: 10.14202/vetworld.2015.245-250

Pock forming ability of fowl pox virus isolated from layer chicken and its adaptation in chicken embryo fibroblast cell culture

Varsha Rani Gilhare et al. Vet World. 2015 Mar.

. 2015 Mar;8(3):245-50.

doi: 10.14202/vetworld.2015.245-250. Epub 2015 Mar 4.

Authors

Varsha Rani Gilhare¹, S D Hirpurkar¹, Ashish Kumar¹, Surendra Kumar Naik², Tarini Sahu²

Affiliations

¹ Department of Veterinary Microbiology, College of Veterinary Science and Animal Husbandry, Anjora Durg, Chhattisgarh, India.
² Department of Animal Nutrition, College of Veterinary Science and Animal Husbandry, Anjora Durg, Chhattisgarh, India.

PMID: 27047081
PMCID: PMC4774827
DOI: 10.14202/vetworld.2015.245-250

Abstract

Aim: The objective of the present study was to examine pock forming ability of field strain and vaccine strain of fowl pox virus (FPV) in chorioallantoic membrane (CAM) of embryonated chicken eggs and its adaptation in chicken embryo fibroblast (CEF) cell culture.

Materials and methods: Dry scabs were collected from 25 affected birds in glycerin-saline and preserved at 4°C until processed. Virus was isolated in 10-day-old embryonated chicken eggs by dropped CAM method. The identity of the virus is confirmed by clinical findings of affected birds, pock morphology and histopathology of infected CAM. In addition one field isolate and vaccine strain of FPV was adapted to CEF cell culture. CEF cell culture was prepared from 9-day-old embryonated chicken eggs.

Result: Clinical symptoms observed in affected birds include pox lesion on comb, wattle, eyelids and legs, no internal lesions were observed. All field isolates produced similar findings in CAM. Pocks produced by field isolates ranged from 3 mm to 5 mm at the third passage while initial passages edematous thickening and necrosis of CAM was observed. Pocks formed by lyophilized strain were ranges from 0.5 mm to 2.5 mm in diameter scattered all over the membrane at the first passage. Intra-cytoplasmic inclusion bodies are found on histopathology of CAM. At third passage level, the CEF inoculated with FPV showed characteristic cytopathic effect (CPE) included aggregation of cells, syncytia and plaque formation.

Conclusion: FPV field isolates and vaccine strain produced distinct pock lesions on CAMs. Infected CAM showed intracytoplasmic inclusion bodies. The CEF inoculated with FPV field isolate as well as a vaccine strain showed characteristic CPE at third passage level.

Keywords: chicken embryo fibroblast cell culture; chorioallantoic membrane; embryonated egg; fowl pox virus.

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Figures

**Figure-1**
Oedematous thickening of chorioallantoic membrane produced by field at second passage level.

**Figure-2**
Pock produced by field strain of fowl pox virus (FPV) at third strain of FPV at third passage level.

**Figure-3**
More distinct pocks were produced by field strain of fowl pox virus on chorioallantoic membrane at fourth passage level.

**Figure-4**
Pocks produced by vaccine strain of fowl pox virus at first passage.

**Figure-5**
Pocks produced by vaccine strain of fowl pox virus at third passage.

**Figure-6**
Chorioallantoic membrane showing intra-cytoplasmic inclusion bodies (×100).

**Figure-7**
Cytopathic effect produced by vaccine strain of fowl pox virus after 96 h of PI (×10).

**Figure-8**
Cytopathic effect produced by field strain of fowl pox virus after 96 h of PI (×10)

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References

1. Adebajo M.C, Akinyede O, Shittu I.A. Seroprevalence of fowl pox antibody in indigenous chickens in Jos North and South council areas of Plateau State, Nigeria: Implication for vector vaccine. ISRN Vet. Sci. 2012;2012:154971. - PMC - PubMed
1. Weli S.C, Tryland M. Avipoxviruses infection biology and their use as vaccine vectors. Virol. J. 2011;8:49. - PMC - PubMed
1. Luschow D, Hoffmann T, Hafez H.M. Differentiation of avian poxvirus strains on the basis of nucleotide sequences of 4b gene fragment. Avian Dis. 2004;48:453–462. - PubMed
1. Hye J. H, Maurice A, Laryssa H, Brett G. Evaluation of the pathogenicity of avipoxvirus strains isolated from wild birds in New Zealand and the efficacy of a fowl pox vaccine in passerines. Vet. Microbiol. 2013;165(3-4):268–274. - PubMed
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[1] Adebajo M.C, Akinyede O, Shittu I.A. Seroprevalence of fowl pox antibody in indigenous chickens in Jos North and South council areas of Plateau State, Nigeria: Implication for vector vaccine. ISRN Vet. Sci. 2012;2012:154971. - PMC - PubMed

[2] Adebajo M.C, Akinyede O, Shittu I.A. Seroprevalence of fowl pox antibody in indigenous chickens in Jos North and South council areas of Plateau State, Nigeria: Implication for vector vaccine. ISRN Vet. Sci. 2012;2012:154971. - PMC - PubMed

[3] Weli S.C, Tryland M. Avipoxviruses infection biology and their use as vaccine vectors. Virol. J. 2011;8:49. - PMC - PubMed

[4] Weli S.C, Tryland M. Avipoxviruses infection biology and their use as vaccine vectors. Virol. J. 2011;8:49. - PMC - PubMed

[5] Luschow D, Hoffmann T, Hafez H.M. Differentiation of avian poxvirus strains on the basis of nucleotide sequences of 4b gene fragment. Avian Dis. 2004;48:453–462. - PubMed

[6] Luschow D, Hoffmann T, Hafez H.M. Differentiation of avian poxvirus strains on the basis of nucleotide sequences of 4b gene fragment. Avian Dis. 2004;48:453–462. - PubMed

[7] Hye J. H, Maurice A, Laryssa H, Brett G. Evaluation of the pathogenicity of avipoxvirus strains isolated from wild birds in New Zealand and the efficacy of a fowl pox vaccine in passerines. Vet. Microbiol. 2013;165(3-4):268–274. - PubMed

[8] Hye J. H, Maurice A, Laryssa H, Brett G. Evaluation of the pathogenicity of avipoxvirus strains isolated from wild birds in New Zealand and the efficacy of a fowl pox vaccine in passerines. Vet. Microbiol. 2013;165(3-4):268–274. - PubMed

[9] Tripathy D.N, Reed W.M. Pox. A Laboratory Manual for the Isolation, Identification and Characterization of Avian Pathogens. 5th ed. Ch. 5. Athens, GA: American Association of Avian Pathologists; 2008. pp. 116–119.

[10] Tripathy D.N, Reed W.M. Pox. A Laboratory Manual for the Isolation, Identification and Characterization of Avian Pathogens. 5th ed. Ch. 5. Athens, GA: American Association of Avian Pathologists; 2008. pp. 116–119.

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Pock forming ability of fowl pox virus isolated from layer chicken and its adaptation in chicken embryo fibroblast cell culture

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Pock forming ability of fowl pox virus isolated from layer chicken and its adaptation in chicken embryo fibroblast cell culture

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