Protection of Chickens Against Infectious Bronchitis by a Recombinant Fowlpox Virus Co-expressing IBV-S1 and Chicken IFNgamma

Overview

Journal Vaccine

Specialty Allergy & Immunology

Date 2009 Sep 30

PMID 19786144

Citations 13

Authors

Yun-Feng Wang

Yong-Ke Sun

Zhan-Cheng Tian

Xing-Ming Shi

Guang-Zhi Tong

Sheng-Wang Liu

Hai-Dong Zhi

Xian-Gang Kong

Mei Wang

Affiliations

Soon will be listed here.

Abstract

A fowlpox virus expressing the chicken infectious bronchitis virus (IBV) S1 gene of the LX4 strain (rFPV-IBVS1) and a fowlpox virus co-expressing the S1 gene and the chicken type II interferon gene (rFPV-IBVS1-ChIFNgamma) were constructed. These viruses were assessed for their immunological efficacy on specific-pathogen-free (SPF) chickens challenged with a virulent IBV. Although the antibody levels in the rFPV-IBVS1-ChIFNgamma-vaccinated group were lower than those in the attenuated live IB vaccine H120 group and the rFPV-IBVS1 group, the rFPV-IBVS1-ChIFNgamma provided the strongest protection against an IBV LX4 virus challenge (15 out of 16 chickens immunized with rFPV-IBVS1-ChIFNgamma were protected), followed by the attenuated live IB vaccine (13/16 protected) and the rFPV-IBVS1 (12/16 protected). Compared to those of the rFPV-IBVS1 and the attenuated live IB vaccine groups, chickens in the rFPV-IBVS1-ChIFNgamma group eliminated virus more quickly and decreased the presence of viral antigen more significantly in renal tissue. Examination of affected tissues revealed abnormalities in the liver, spleen, kidney, lung and trachea of chickens vaccinated with the attenuated live IB vaccine and the rFPV-IBVS1 vaccine. In rFPV-IBVS1-ChIFNgamma-vaccinated chickens, pathological changes were also observed in those organs, but were milder and lasted shorter. The lesions in the mock control group were the most severe and lasted for at least 20 days. This study demonstrated that chicken type II interferon increased the immunoprotective efficacy of rFPV-IBVS1-ChIFNgamma and normal weight gain in vaccinated chickens although it inhibited serum antibody production.

Citing Articles

Current Status of Poultry Recombinant Virus Vector Vaccine Development.

Wang H, Tian J, Zhao J, Zhao Y, Yang H, Zhang G Vaccines (Basel). 2024; 12(6).

PMID: 38932359 PMC: 11209050. DOI: 10.3390/vaccines12060630.

Recombinant Fowlpox Virus Expressing gB Gene from Predominantly Epidemic Infectious Larygnotracheitis Virus Strain Demonstrates Better Immune Protection in SPF Chickens.

Chen S, Xu N, Ta L, Li S, Su X, Xue J Vaccines (Basel). 2020; 8(4).

PMID: 33105740 PMC: 7711474. DOI: 10.3390/vaccines8040623.

Construction and immune protection evaluation of recombinant virus expressing Newcastle disease virus F protein by the largest intergenic region of fowlpox virus NX10.

Zhao Y, Han Z, Zhang X, Zhang X, Sun J, Ma D Virus Genes. 2020; 56(6):734-748.

PMID: 33009986 DOI: 10.1007/s11262-020-01799-5.

Adjuvant Effects of Platycodin D on Immune Responses to Infectious Bronchitis Vaccine in Chickens.

Zhou Y, Zhou M, Mao S J Poult Sci. 2020; 57(2):160-167.

PMID: 32461731 PMC: 7248007. DOI: 10.2141/jpsa.0180089.

Development of a recombinant Newcastle disease virus-vectored vaccine for infectious bronchitis virus variant strains circulating in Egypt.

Abozeid H, Paldurai A, Varghese B, Khattar S, Afifi M, Zouelfakkar S Vet Res. 2019; 50(1):12.

PMID: 30744668 PMC: 6371441. DOI: 10.1186/s13567-019-0631-5.