Comparative Efficacy of Different Inactivated Hydro-Pericardium Syndrome Vaccines Prepared from Infected Liver and Vero Cell Line Adapted Adeno Type 4 Virus ()
1. Introduction
Hydro-pericardium syndrome (HPS) associated hepatitis is a viral illness of poultry especially 3 to 6 week old chicks caused by fowl adenovirus serotype-4. It was first reported in 1987 at Angara Goth near Karachi, Pakistan. Poultry industry is considered to be a most effective growing industry in the commercial sector due to increasing demand of its value added products. Although, the industry in Pakistan is highly organized and well established but still it suffers from highly infectious outbreaks of Hydro-pericardium Syndrome, Infectious Avian Bronchitis, Newcastle Disease, Infectious Bursal Disease and Chronic Respiratory Disease. The HPS has made massive economic losses in past to the Pakistan poultry industry [1] [2] [3].
The serotype 4 of fowl adenovirus belongs to family adenoviridae genus aviadenovirus. The virus is non-enveloped, 70 - 90 nm size, icosahedral particles with linear, double standard DNA genome. The antigen of fowl adenovirus was isolated from geese, ducks and turkeys [4]. The disease is characterized by impulsive onset desolation, mortality upto 70%, and accumulation of straw color fluid in the pericardial sac, liver is marked with necrotic foci, and intra-nuclear inclusion bodies in hepatocytes are the cardinal lesion observed during postmortem [5] [6]. The pericardial fat may exhibit yellowish discoloration with petechial hemorrhages and the heart appears misshapen and flabby at its apex floating in the pericardial sac.
Against most of the poultry diseases, standard vaccines are available but ample literature is still scanty regarding the standard protocols for development and evaluation of avian HPS virus vaccines from infected liver homogenate with and without different adjuvants. Single dose formalized liver homogenate vaccine prepared from infected HPS virus is develop to induce immunity in broilers against HPS and double dose of formalized liver homogenate is more efficacious in broilers [7]. So, extensive use of infected liver homogenate vaccine minimized production of cell culture based HPS vaccines [8]. Due to emerging viral resistance against various antiviral drugs, it becomes difficult to control viral problems that may result into heavy economic losses. Currently, there are few commercial vaccines available for immunophylaxis against HPS. All these vaccines are being manufactured in the country from local isolates by using conventional technique based on infected liver homogenate. In such scenario non-specific proteins such as (arginine, ornithine) of liver homogenate vaccine (HPS-ILHV) would have been showed allergic reactions after injection. Therefore, current study has been designed to develop standard protocols for production of cell free HPS vaccine in amalgamation with different adjuvants and to revise different quality control factors that mitigates in-vivo immune response in vaccinates.
2. Material and Method
2.1. Source of HPS Virus
200 gms of HPS virus infected liver was obtained from Ottoman Pharma, Lahore, Pakistan on the written request by director Institute of molecular biology and biotechnology (IMBB), The University of Lahore, Pakistan.
2.2. Source and Rearing of Birds
Total of 160-day old chicks were purchased from environmental controlled house of Big Bird Foods, Lahore, Pakistan. The chicks were shifted to properly clean and fumigated (17 gm KMnO4 + 35 ml formalin/100feet) environmental controlled experimental animal house, The University of Lahore, Punjab. These chicks were allocated in different cages according to the experimental design and offered with feed and water ad libitum.
2.3. Reactivation of HPS Infected Liver
40 percent weight/volume (W/V) infected liver homogenate was prepared by adding 40 gms of infected liver in 100 ml normal saline (0.85% sodium chloride aqueous solution (pH 7.2). The mixture was homogenized @ 1000 rpm for 5 minutes using sharp blade electric homogenizer. The homogenate was centrifuged at 3000 rpm for 10 minutes and sediment was decanted. The clear supernatant was admixed with gentamycin @ 200 µgms/ml, penicillin @ 10,000 u/ml and streptomycin @ 100 µgms/ml [9].
26 days old 10 HPS susceptible chicks were given infection with one ml of the HPS infected liver homogenate inoculum through intramuscular route (IM). At postmortem morbid samples were educed and stored in sterile container having label “HPS infected liver”. These HPS infected livers were stored at −20˚C till further processing.
2.4. Calculation of BLD50
Broilers of 26 days old (unvaccinated against HPS vaccine) were given infective dose for production of the disease. The dead birds were opened and HPS infected liver removed. The liver was homogenized in nine times volume of normal saline. Antibiotics such as gentamycin 200 µgms /ml, penicillin 1000 u/ml, streptomycin 1 mg/ml were added in the liver homogenate. The homogenate was diluted as 10-fold in the antibiotic containing normal saline (such as 1:1000, 1:10,000, 1:100,000, and 1:1,000,000). One ml of each dilution was injected to each of the 5 birds of the respective group.
The birds were marked with black dye and observed critically for mortality and morbidity for next 72 - 90 hrs for any mortality. Those birds died of HPS and showed fluid in the pericardium on post mortem examination were graded as infected. All the remaining birds were slaughtered and examined for signs of HPS. The ALD50 titer was calculated as the reciprocal of that dilution per unit volume of virus that killed 50% of bird’s inoculated (Figure 1) [10].
2.5. Preparation of Vaccine from HPSV Infected Liver Homogenate
The liver homogenate with known units of infectivity titer (LD50) was processed for preparation of vaccines as described by Rabbani (1987). Ten grams of the liver was homogenized in 35 ml sterilized saline solution. 0.2% of 37% formaldehyde (Scharlau-UK), antibiotics (Streptomycin @ 1 mg/ml, penicillin @ 1000 units per ml and gentamycin @ 200 ug per ml) (Univet-Ireland) were added in the HPS infected liver homogenate. The suspension was incubated at 37˚C for 24 hours and placed for overnight. The clear supernatant was decanted from the homogenate. The volume was made up to 45 ml using the saline solution (Figure 2).
2.6. Effect of Immunogen Dose
2.6.1. Effect of Dose (Vaccine Doses per Gram)
Ten grams of HPS virus infected liver homogenate containing 1 × 105.6 units of the LD50 in 35 ml of sterilized normal saline was processed for preparation of HPS vaccines. The volume was made up to 45 ml using the saline solution. The resulting solution was having immunogen amount 3 doses per gram. The 3 doses per gram vaccine was further diluted to make a volume 6 ml, 7.5 ml and 9 ml
in order to get 20 doses per gram, 25 doses per gram, 30 doses per gram of HPS virus infected liver homogenate vaccines containing 1 × 105.6 units of the LD50 respectively.
2.6.2. Effect of Dose (Infectivity Titer)
Ten grams of HPS virus infected liver homogenate containing 1 × 105.6 units of the LD50, in 60 ml of sterilized normal saline was processed for preparation of HPS vaccines. The resulting solution was having immunogen amount; 20 doses per gram with LD50 1 × 105.6 units of infectivity titer of virus. The resulting solution was having immunogen amount 20 doses per gram with LD50 1 × 105.6 units of infectivity titer of virus. The resulting suspension having LD50 infectivity titer 1 × 105.6 was further diluted 10 and 100 times in order to obtain immunogen dose with 1 × 104.6 and 1 × 103.6 units of infectivity titer respectively.
LD50 105.6: Dilution factor
1 : 10 (LD50 104.6)
1 : 100 (LD50 103.6)
2.7. Vero Cell Line Adapted HPS Virus Vaccines
In vitro vero cell line was cultivated in DMEM media (Caisson-USA) with additional 5% fetal calf serum (Gibco-UK) in T-175 disposable tissue culture flask as described previously by (Malik et al., 2018).
2.8. HPS Virus Inoculation
The confluent monolayer of vero cell line was inoculated with one ml of HPS virus inoculum (1 × 10 TCID50) and incubated at 37˚C for 45 minutes. After viral adsorption, the infected vero cell line monolayer was supplemented with 8 ml of DMEM containing 5% of FCS as maintenance media. One flask having confluent monolayer was kept as uninoculated/negative control. The monolayer was routinely observed for 3 - 5 days for appearance of any cytopathic effects (CPE) as compared with the normal cells in the control flask. When 90% of the infected cells were damaged due to CPE, both the infected and control flasks were freeze-thawed thrice by alternately placed them at −20˚C in freezer and then at 25˚C at room temperature.
The virus suspension was centrifuged at 500 g for 10 minutes and the cell free supernatant containing HPS virus was harvested. The harvest was stored at −20˚C in sterile media culture bottles. The HPSV suspension of disaggregated liver cells was processed for calculation of median tissue culture infective dose (TCID50) (Figure 3) [10].
2.9. Effect of Adjuvants
Oil base montanide vaccine was prepared as directed by the manufacturer (SEPPIC-FRANCE). 30 parts of HPS infected liver suspension was homogenized with 70 parts of montanide ISA 70 MVG at 3000 rpm for 10 minutes.
Figure 3. Healthy and HPSV infected vero cell line.
Aluminium hydroxide gel adjuvanted HPS vaccine was prepared by homogenizing 4 parts in 100 parts of HPS infected liver homogenate vaccine. Thiomersal sodium (Ethyl mercurithio salicylic acid, sodium salt 97% - 101% used at 1:30,000 w/v) was added in the vaccine.
2.10. Experimental Design
Experiment 1
160 broilers birds were divided in to 10 groups; G1, G2, G3, G4, G5, G6, G7, G8, G9, G10, G11, G12, G13, G14, G15 and G16 (each group comprising 10 birds). The birds in groups G1, G2, G3, G4, G5, G6, G7, G8, G9, G10, G11, G12, G13, G14 and G15 were vaccinated with HPS infected liver homogenate (HPSILV), HPS liver homogenate fractioned vaccine (Supernatant) HPSLHFV, HPS liver homogenate vaccine (Sediment) (HPSLHSV), HPS tissue culture based vaccine (HPSTCBV), HPS liver homogenate oil based vaccine (HPSILOBV), HPS liver homogenate gel based vaccine (HPSILGBV), Tissue culture adapted HPS oil based vaccine (HPSTCOBV) and Tissue culture adapted gel based vaccine (HPSTCAGBV) respectively. The birds in Group G15 were injected with commercial HPS vaccine (Borringer-Germany) subcutaneously at dose rate of 0.3 ml given per bird (mid dorsum region of neck). While, birds of group G16 were kept as no vaccinated control. After 14 days the birds were injected with booster with same dose and route (Table 1, Figure 4).
2.11. Blood Collection
3 ml of blood from each of the 5 birds of every group was collected on 20 and 40 days of post vaccination in sterile syringes. The syringes containing blood were kept at slant position at room temperature for overnight to separate. The serum thus separated was stored at −60˚C till further use (Figure 5).
2.12. ELISA (Enzyme Linked Immunosorbent Assay) Testing
Indirect ELISA was performed on all serum samples in 96 well plates following the procedures as described by the manufacturer (BioChek ELISA—Germany).
2.12.1. Preparation of Samples
All test samples were diluted five hundred folds (1:500) with sample diluents prior to assayed keeping controls as original by changing tips of the pipette every time. These samples were mixed thoroughly with the diluents and transferred to the coated plate.
2.12.2. Test Procedure
Reagents were allowed to settle at 18˚C - 26˚C, then mixed by inverting and swirling. The sample position on antigen-coated plate was recorded. 100 µl of undiluted negative control and 100 µl undiluted positive control was dispensed into duplicate wells. 100 µl of diluted samples were also dispensed into appropriate marked wells. Fluid containing wells were incubated for 30 min at 18˚C - 26˚C. Each well of the plate was washed with approximately 250 µl of distilled water 3 - 5 times and aspirated completely and 100 µl of the conjugate was dispensed in each well and incubated for 30 min at 18˚C - 26˚C. Each well of the plate was washed with approximately 350 µl of distilled water 3 - 5 times and aspirated completely and 100 µl of TMB substrate solution was dispensed in each well and incubated for 15 min at 18˚C - 26˚C followed by dispensing of 100 µl each of the well to stop the reaction. Absorbance values were recorded at 650 nm, A (650) (Figure 6).
2.13. Statistical Analysis
The data on the challenge protection test were subjected to the statistical analysis for the interpretation of results by using one way analysis of variance.
3. Results
All Inactivated HPS virus oil based vaccines induced detectable anti-HPS ELISA antibody titers in HPS immunized 10 broilers on 20th and 40th day post vaccination. On 20th day post vaccination HPS infected liver homogenate vaccine (HPSILV), HPS infected liver homogenate fractioned vaccine (Supernatant) (HPSLHFV), HPS infected liver homogenate fractioned vaccine (Sediment) (HPSLHSV), HPS tissue culture based vaccine (HPSTCBV), HPS infected liver positive control group (PCG) and negative control group (NCG) immunized
broiler induced 1636.6 ± 790.36, 432.7 ± 188.17, 1134.1 ± 127.33, 1149.2 ± 112.30, 1022.2 ± 105.4 and 32.2 ± 19.73 mean ± standard deviation (M ± SD) of anti-HPS ELISA antibody titer respectively. Whereas, On 40th day post vaccination HPS infected liver homogenate vaccine (HPSILV), HPS infected liver homogenate fractioned vaccine (Supernatant) (HPSLHFV), HPS infected liver homogenate fractioned vaccine (Sediment) (HPSLHSV), HPS tissue culture based vaccine (HPSTCBV), HPS infected liver positive control group (PCG) and negative control group (NCG) immunized broiler induced 2382.3 ± 775.02, 978.8 ± 249.36, 1255.1 ± 89.71, 1015.9 ± 143.94, 1170.4 ± 85.86 and 65.80 ± 28.90 M ± SD of anti-HPS ELISA antibody titer respectively (Table 2, Figure 7)
On 20th day post vaccination HPS infected liver homogenate vaccine containing 20 doses, 25 doses and 30 doses per gram injected in broilers showed 1178.7 ± 145.44, 1059.1 ± 101.66 and 1037.3 ± 101.79 M ± SD of anti-HPS ELISA antibody
Table 2. Effect of source of vaccine on the base of Anti-HPS ELISA titer.
Primary culture of 12-day old chicken embryo hepatocytes.
Figure 7. Effect of source of vaccine to Anti-HPS ELISA antibody titer.
titer as compare to 40th day post vaccination 1042.1 ± 65.77, 1084.7 ± 94.48 and 1038.4 ± 91.24 respectively. Moreover, on 20th day post vaccination vero cell line adapted HPS virus vaccine containing immunogenic level of 1 × 105.6, 1 × 104.6, 1 × 103.6, Positive control group (PCG) and Negative control group (NCG) injected in broilers showed 1127.7 ± 67.68, 977.9 ± 41.51, 816.4 ± 80.62, 1022.2 ± 105.4 and 32.2 ± 19.73 M ± SD of anti-HPS ELISA antibody titer as compare to 40th day post vaccination 1052.5 ± 18.04, 772.6 ± 133.1, 588.00 ± 61.97, 1170.4 ± 85.86 and 65.80 ± 28.90 respectively (Table 3, Figure 8, Figure 9).
Adjuvants play a vital role in the stimulation and augmentation of immune response but chiefly act as depot effect at injection site. On 20th day post vaccination
Table 3. Effect of immunogen count on the efficacy of HPS vaccine.
Figure 8. Effect of dose per gram immunogen count on the efficacy of HPS vaccine.
HPS liver homogenate oil based vaccine (HPSILOBV), HPS liver homogenate gel based vaccine (HPSILGBV), Tissue culture adapted HPS oil based vaccine (HPSTCOBV), Tissue culture adapted gel based vaccine (HPSTCAGBV), Positive control group (PCG) and Negative control group (NCG) injected in broiler birds induced 1003.4 ± 68.27, 1033 ± 141.73, 1041.7 ± 42.65, 1214.2 ± 275.02, 1022.2 ± 105.4 and 32.2 ± 19.73 M ± SD of anti-HPS ELISA antibody titer respectively. Furthermore, On 40th day post vaccination HPS liver homogenate oil based vaccine (HPSILOBV), HPS liver homogenate gel based vaccine (HPSILGBV), Tissue culture adapted HPS oil based vaccine (HPSTCOBV), Tissue culture adapted gel based vaccine (HPSTCAGBV), Positive control group (PCG) and Negative control group (NCG) injected in broiler birds induced 1216.5 ± 110.82, 1026 ± 109.27, 1255.2 ± 156.7, 1060.2 ± 35.93, 1170.4 ± 85.86 and 65.80 ± 28.90 M ± SD of anti-HPS ELISA antibody titer respectively (Table 4, Figure 10).
Figure 9. Effect of tissue culture based immunogen count on the efficacy of HPS vaccine.
Table 4. Effect of Adjuvant on the efficacy of HPS infected liver homogenate vaccine.
Figure 10. Effect of adjuvant on the efficacy of HPS infected liver homogenate vaccine.
4. Discussion
HPS infected liver obtained from Ottoman Pharma (Immuno Division) was reactivated in 26 days old healthy birds. The HPS infected liver homogenate (AOW/V%) was injected through I/M route for the production of disease. At postmortem showed fragile liver with white striations on capsule along with clear straw color fluid in the pericardial sac of heart as showed in Figure 1. These findings are similar in observation of [11].
Different vaccines were prepared on the basis of immunogen count, infectivity titer of virus, source of antigen and role of adjuvants. All the vaccines are injected to day old healthy chicken broilers. 25 doses/gm vaccines showed significantly higher anti-HPS ELISA antibody titer on 42th days post vaccination as compare to vaccine prepared from higher dilutions. Infectivity titers play an important role in the stimulation of earlier humoral response. The vaccine having infectivity titer of 1 × 105.6/ml BLD50 showed better humoral response in terms of anti-HPS ELISA antibody titer to that of higher dilutions such as 1 × 104.6/ml BLD50 and1 × 103.6/ml BLD50.
According to current study HPS infected liver homogenate is the most appropriate material for the production of efficacious vaccine which have the ability to induce protective antibody titer in shorter period of time. The HPS infected liver homogenate vaccine induced higher anti-HPS ELISA antibody titer to that of primary culture of chicken embryo hepatocytes based HPS vaccine. The reason may be biological titer induced during infection under biological system in natural host where it gets replicative momentum and ultimately results into higher antigen count responsible for the production of higher antibody even injected with minimal volume of dose. This could be the possible reason for its significant humoral response.
Formalin-inactivated liver organ vaccines are the only available source of vaccines against HPS in Pakistan, which have been unable to control/eradicate disease. Liver homogenate vaccine showed significantly higher serum anti-HPS ELISA antibody titer (2009.3) on 40th days post vaccination as compare to HPS liver homogenate fractioned vaccine (Supernatant) 705.75, HPS liver homogenate vaccine (Sediment) 1194.6 and HPS tissue culture based vaccine 1096. The results of current study are well supported by [12] who reported that HPS liver homogenate vaccine is better source of adenovirus cultivation particularly for vaccine production. Since avian adenovirus belongs to genus adenovirus and family aviadenovirdiae. Therefore, birds are the natural host for these viruses where they replication well in natural supportive environment and produce remarkable titer.
Effect of immunogen count as 20 doses per gram of the HPS infected liver based vaccine showed significantly higher serum anti-HPS ELIS A antibody titer (1110.4) on 40th days post vaccination as compare to 25 doses (1071.9) and 30 doses. Mehmood reported that the vaccine containing 20, 25, 30, 35 and 45 doses as an immunogen without gel induced higher immunity and such birds therefore, showed 100, 90, 90, 50 and 20 percent resistance respectively [13]. While, vaccines with gel containing 20, 25, 30, 35 and 45 doses that induced immunity 100, 100, 100, 70 and 30 protection to challenge infection respectively. This is somewhat in line with Ahmad, Mashkoor and Noor-ul-Hassan who recorded difference in protection percentage of birds vaccinated with 1%, 2.5%, 5%, 7.5% and 10% liver organ vaccines [14] [15] [16]. Therefore, it was concluded that the gel based vaccines provide better protection as compared to vaccine without gel.
Adjuvants play a critical role in the augmentation of immune response. Tissue culture adapted HPS oil based vaccine (1148.45) showed slightly better serum anti-HPS ELISA antibody titer on 40th days post vaccination as compare to tissue culture adapted gel based vaccine (1137.2), HPS liver homogenate oil based vaccine (1109.95) and HPS liver homogenate gel based vaccine (1029.9). The results of current study are well supported by Sahidullah who reported that oil based adjuvanted vaccines confers good, long-lasting protection against HPS field virus challenge [17]. Mehmood reported that the protection titer in vaccinated birds was found to be the highest for montanide based HPS virus vaccine (100%), followed by aluminum hydroxide gel based vaccine (80%), whereas the vaccine without adjuvant provided 40% protection when challenged with virulent virus at 28 days post vaccination [13]. These findings are congruent with the observations of Hussain and Roy [7] [18]. The variation in the protection percentage induced by montanide and lanolin based vaccine could be due to instability of the latter during storage.
The results of the current study revealed infected liver homogenate vaccine induced significantly higher anti-HPS ELISA antibody titer (2009.3) to that of primary culture of liver hepatocytes adapted virus vaccine (1082.5) regardless of its composition due to production of heavy antigenic count per volume is well supported by substrate and the environment. The findings are in line with Jabeen who reported that in his study that efficacy of liver culture based inactivated adjuvanted vaccines was significantly higher at 2 week post vaccination (P < 0.05) than groups tissue homogenate based inactivated vaccines [19].
During earlier days of investigation many attempts were made for the control of HPS in broilers by using formalin inactivated liver homogenate vaccines and there have been a lot of contrary findings regarding the efficacy of such liver homogenate vaccines. The results of the present study suggested that tissue culture based inactivated vaccines performed best in experimental conditions as compared to liver homogenate vaccine. Our results are in close agreement with already reported work.
The objective of the present study was to develop cell culture based efficacious vaccine against HPS in poultry. Cell culture based inactivated montanide adjuvanted vaccine performed better in experimental conditions and showed protective anti-HPS ELISA antibody titers whereas, HPS infected liver homogenate based technology could be considered as better tool for the production of inactivated vaccines. However, it is recommended that further trials may be designed to get fully adapted aviadenovirus with optimum growth in limited time which shall replace commercial tissue homogenate based vaccine.
5. Conclusion
It is observed that the HPS vaccine containing more than 105.6 units of immunogen is effective for broilers to achieve the required level of resistance to field challenge. Less than 20 doses per gram of the HPS infected liver homogenate containing 105.6 units of immunogen can be prepared for effective immuno-prophylaxis. Addition of the oil base montanide in the HPS infected liver homogenate vaccine improves its efficacy and induces immunity for longer period of time.
6. Recommendations
· HPS liver homogenate vaccine shall contain more than 104.6 units of immunogen for broilers as compare to tissue cultured HPS vaccine where minimum immunogen count would be 105.6.
· Always prepare 20 doses per gram from HPS infected liver having 105.6 BLD50.
· Montanide oil can be better alternative adjuvant for breeders and layers which can induces immunity for longer period of time.
· Tissue culture adopted fowl adeno virus vaccine is free of non-specific liver cells and other extraneous agents. Hence, could be used for effective immuno prophylaxis without any ill effect.