Advancements in Life Sciences

Background: Hydropericardium Syndrome (HPS) has emerged as a major viral disease of poultry industry causing huge economic losses in the recent past years. Its etiological agent, Fowl adenovirus-4 (FAdV-4) has been reported in the various countries including Pakistan. Various strategies including inactivated vaccines, are being devised to control the disease since its appearance. Subunit vaccines based on viral structural proteins have demonstrated more promising protection against FAdV-4 infection than commercial inactivated vaccines. Among different viral structural proteins, Fiber protein (mainly Fiber-2) has been as a suitable candidate for developing the recombinant subunit vaccine against HPS.

Methods: Considering the importance of the Fiber-2 gene, the pET28a expression vector was utilized to clone its open reading frame, which was subsequently expressed as an oligo-histidine tagged fusion protein in BL21 cells of Escherichia coli via the IPTG induction method. The expressed recombinant fiber-2 protein was purified using nickel (Ni2+) affinity chromatography and used as a subunit vaccine in broiler birds following challenge with pathogenic FAdV-4 isolate. The immunological response was evaluated using ELISA.

Results: The gene for the Fiber-2 protein was effectively cloned and expressed as a soluble 60 kDa protein, as detected by SDS-PAGE and western blot analysis. The protective efficacy of subunit vaccine was assessed by ELISA which showed the highest protection (80%) against the virus challenge than that of commercial inactivated vaccine (70%).

Conclusion: The recombinant fiber-2 protein was determined to be a good option for a recombinant subunit vaccination to control HPS.

Keywords: Poultry; Fowl-adenovirus-4; Subunit vaccine   

Anjum A, Sabri M, Iqbal Z. Hydropericarditis syndrome in broiler chickens in Pakistan. The Veterinary Record, (1989); 124(10): 247-248.

Jaffery M. A treatise on Angara disease (hydropericardium-pulmonary oedema-hepatonephritis syndrome). Journal of the Pakistan Medical Association, (1988); 34(1): 1-33.

Wajid A, Basharat A, Shahid MA, Muntaha ST, Basit A, et al. Molecular characterization and phylogenetic analysis of fowl adenoviruses isolated from commercial poultry flocks in Pakistan during 2014-15. Pakistan Journal of Zoology, (2018); 50(5): 1863-1873.

Zsák L, Kisary J. Grouping of fowl adenoviruses based upon the restriction patterns of DNA generated by BamHI and HindIII. Intervirology, (1984); 22(2): 110-114.

Hess M. Detection and differentiation of avian adenoviruses: a review. Avian Pathology, (2000); 29(3): 195-206.

Hess M, Raue R, Prusas C. Epidemiological studies on fowl adenoviruses isolated from cases of infectious hydropericardium. Avian Pathology, (1999); 28(5): 433-439.

Anjum A. Experimental transmission of hydropericardium syndrome and protection against it in commercial broiler chickens. Avian Pathology, (1990); 19(4): 655-660.

Mansoor MK, Hussain I, Arshad M, Muhammad G, Hussain MH, et al. Molecular characterization of fowl adenovirus serotype 4 (FAV-4) isolate associated with fowl hydropericardium-hepatitis syndrome in Pakistan. Pakistan Journal of Zoology, (2009); 41(4): 269-276.

Griffin BD, Nagy É. Coding potential and transcript analysis of fowl adenovirus 4: insight into upstream ORFs as common sequence features in adenoviral transcripts. Journal of general virology, (2011); 92(6): 1260-1272.

Davison AJ, Benkő M, Harrach B. Genetic content and evolution of adenoviruses. Journal of general virology, (2003); 84(11): 2895-2908.

Marek A, Nolte V, Schachner A, Berger E, Schlötterer C, et al. Two fiber genes of nearly equal lengths are a common and distinctive feature of Fowl adenovirus C members. Veterinary Microbiology, (2012); 156(3-4): 411-417.

Shah M, Ashraf A, Khan M, Rahman M, Habib M, et al. Fowl adenovirus: history, emergence, biology and development of a vaccine against hydropericardium syndrome. Archives of virology, (2017); 162(7): 1833-1843.

Yin D, He L, Zhu E, Fang T, Yue J, et al. A fowl adenovirus serotype 4 (FAdV-4) Fiber2 subunit vaccine candidate provides complete protection against challenge with virulent FAdV-4 strain in chickens. Veterinary microbiology, (2021); 263109250.

Zubieta C, Schoehn G, Chroboczek J, Cusack S. The structure of the human adenovirus 2 penton. Molecular cell, (2005); 17(1): 121-135.

Pehler-Harrington K, Khanna M, Waters CR, Henrickson KJ. Rapid detection and identification of human adenovirus species by adenoplex, a multiplex PCR-enzyme hybridization assay. Journal of clinical microbiology, (2004); 42(9): 4072-4076.

Henning P, Lundgren E, Carlsson M, Frykholm K, Johannisson J, et al. Adenovirus type 5 fiber knob domain has a critical role in fiber protein synthesis and encapsidation. Journal of general virology, (2006); 87(11): 3151-3160.

Hess M, Cuzange A, Ruigrok RW, Chroboczek J, Jacrot B. The avian adenovirus penton: two fibers and one base. (1995); 252(4): 379-385.

Tan PK, Michou A-I, Bergelson JM, Cotten M. Defining CAR as a cellular receptor for the avian adenovirus CELO using a genetic analysis of the two viral fibre proteins. Journal of general virology, (2001); 82(6): 1465-1472.

Mase M, Nakamura K, Minami F. Fowl adenoviruses isolated from chickens with inclusion body hepatitis in Japan, 2009–2010. Journal of Veterinary Medical Science, (2012); 74(8): 1087-1089.

Li L, Wang J, Chen P, Zhang S, Sun J, et al. Pathogenicity and molecular characterization of a fowl adenovirus 4 isolated from chicken associated with IBH and HPS in China. BMC veterinary research, (2018); 14(1): 1-8.

Chen L, Yin L, Zhou Q, Li Q, Luo Y, et al. Immunogenicity and protective efficacy of recombinant fiber-2 protein in protecting SPF chickens against fowl adenovirus 4. Vaccine, (2018); 36(9): 1203-1208.

Schachner A, Marek A, Jaskulska B, Bilic I, Hess M. Recombinant FAdV-4 fiber-2 protein protects chickens against hepatitis–hydropericardium syndrome (HHS). Vaccine, (2014); 32(9): 1086-1092.

Yu X, Hua J, Zhang J, Ma LJAV. Expression of recombinant proteins in insect cells by their direct infection with Escherichia coli transformed with baculovirus bacmids. (2014); 5861-68.

Ganesh K, Suryanarayana V, Raghavan R, Gowda S. Nucleotide sequence of L1 and part of P1 of hexon gene of fowl adenovirus associated with hydropericardium hepatitis syndrome differs with the corresponding region of other fowl adenoviruses. Veterinary microbiology, (2001); 78(1): 1-11.

Sambrook J FE, Maniatis T. Molecular cloning: a laboratory Manual. Chapter: Book Name. 1989 of publication; Cold Spring Harbor Laboratory Press,Cold Spring Harbor, N.Y.

Tufail S, Shah MA, Zafar M, Asif TA, Shehzad A, et al. Identification of potent epitopes on hexon capsid protein and their evaluation as vaccine candidates against infections caused by members of Adenoviridae family. Vaccine, (2021); 39(27): 3560-3564.

Shah M, Ashraf A, Khan M, Rahman M, Habib M, et al. Molecular cloning, expression and characterization of 100K gene of fowl adenovirus-4 for prevention and control of hydropericardium syndrome. Biologicals, (2016); 44(1): 19-23.

Ruan S, Zhao J, Yin X, He Z, Zhang G. A subunit vaccine based on fiber-2 protein provides full protection against fowl adenovirus serotype 4 and induces quicker and stronger immune responses than an inactivated oil-emulsion vaccine. Infection, Genetics and Evolution, (2018); 61: 145-150.

Wajid A, Dimitrov KM, Wasim M, Rehmani SF, Basharat A, et al. Repeated isolation of virulent Newcastle disease viruses in poultry and captive non-poultry avian species in Pakistan from 2011 to 2016. Preventive veterinary medicine, (2017); 1421-6.

Schachner A, Matos M, Grafl B, Hess M. Fowl adenovirus-induced diseases and strategies for their control–a review on the current global situation. Avian Pathology, (2018); 47(2): 111-126.

Su Q, Hou L, Gao Y, Liu X, Cui Z, et al. Research Note: Molecular relationship of the fowl adenovirus serotype 4 isolated from the contaminated live vaccine and wild strains isolated in China, 2013-2018. Poultry Science, (2020); 99(12): 6643-6646.

Wang X, Tang Q, Chu Z, Wang P, Luo C, et al. Immune protection efficacy of FAdV-4 surface proteins fiber-1, fiber-2, hexon and penton base. Virus research, (2018); 2451-6.

Lai VD, Min K, Lai HTL, Mo J. Epidemiology of fowl adenovirus (FAdV) infections in South Korean chickens during 2013–2019 following introduction of FAdV-4 vaccines. Avian Pathology, (2021); 50(2): 182-189.

Baneyx F. Recombinant protein expression in Escherichia coli. Current opinion in biotechnology, (1999); 10(5): 411-421.

Shah M, Ashraf A, Rahman M, Khan M, Qureshi J. A subunit vaccine against hydropericardium syndrome using adenovirus penton capsid protein. Vaccine, (2012); 30(50): 7153-7156.