Assessment of Immunological Responses of Broilers Vaccinated with Newcastle Strains Using Either Spray or Water Delivery Systems

The control of Newcastle Disease (ND) relies on the use of safe and effective vaccines. Live vaccines which are prepared with lentogenic strains of Newcastle Disease Virus (NDV) are now more frequently used in broilers and layers than vaccines prepared from chemically inactivated strains of NDV mixed with adjuvant. This is because live freeze-dried vaccines can be produced on a large scale at a relative low cost. The vaccines are easy to administer on large scale, and rapidly stimulate cell-mediated and mucosal surface immunity. The present study was designed to compare the efficacy of LaSota, B1 and Mukteswar Strain vaccines for NDV in layer chickens. Findings of our present study indicated that production of HI-antibody titre was higher in birds of group A (512) vaccinated with ND LaSota, compared to those of group B (256) vaccinated with RDV (Mukteswar strain); group C (128) vaccinated with ND B1 (B1 strain) Hitchner at six weeks after vaccination. Thus, the ND LaSota vaccine was found to be superior to some extent than ND B1 Hitchner. However, as regards vaccination of chicks against NDV in earlier days, the use of lentogenic strains are recommended although it should be kept in mind that vaccination with LaSota strains would cause greater problems in young susceptible birds than Hitchner B1 strain and even though LaSota induces stronger immune response Asian J. Med. Biol. Res. 2021, 7 (4), 332-338

Uganda is a Newcastle disease (ND) endemic country where the disease is controlled by vaccination using live LaSota (genotype II) and I2 (genotype I) vaccine strains. Resurgent outbreak episodes call for an urgent need to understand the antigenic diversity of circulating wild Avian Avulavirus serotype-1 (AAvV-1) strains. High mutation rates and the continuous emergence of genetic and antigenic variants that evade immunity make non-segmented RNA viruses difficult to control. Antigenic and functional analysis of the key viral surface proteins is a crucial step in understanding the antigen diversity between vaccine lineages and the endemic wild ND viruses in Uganda and designing ND peptide vaccines. In this study, we used computational analysis, phylogenetic characterization, and structural modeling to detect evolutionary forces affecting the predicted immune-dominant fusion (F) and hemagglutinin-neuraminidase (HN) proteins of AAvV-1 isolates from waterfowl and poultry in Uganda compared with that in LaSota vaccine strain. Our findings indicate that mutational amino acid variations at the F protein in LaSota strain, 25 poultry wild-type and 30 waterfowl wild-type isolates were distributed at regions including the functional domains of B-cell epitopes or N-glycosylation sites, cleavage site, fusion site that account for strain variations. Similarly, conserved regions of HN protein in 25 Ugandan domestic fowl isolates and the representative vaccine strain varied at the flanking regions and potential linear B-cell epitope. The fusion sites, signal peptides, cleavage sites, transmembrane domains, potential B-cell epitopes, and other specific regions of the two protein types in vaccine and wild viruses varied considerably at structure by effective online epitope prediction programs. Cleavage site of the waterfowl isolates had a typical avirulent motif of 111GGRQGR'L117 with the exception of one isolate which showed a virulent motif of 111GGRQKR'F117. All the poultry isolates showed the 111GRRQKR'F117 motif corresponding to virulent strains. Amino acid sequence variations in both HN and F proteins of AAvV-1 isolates from poultry, waterfowl, and vaccine strain were distributed over the length of the proteins with no detectable pattern, but using the experimentally derived 3D structure data revealed key-mapped mutations on the surfaces of the predicted conformational epitopes encompassing the experimental major neutralizing epitopes. The phylogenic tree constructed using the full F gene and partial F gene sequences of the isolates from poultry and waterfowl respectively, showed that Ugandan ND aquatic bird and poultry isolates share some functional amino acids in F sequences yet do remain unique at structure and the B-cell epitopes. Recombination analyses showed that the C-terminus and the rest of the F gene in poultry isolates originated from prevalent velogenic strains. Altogether, these could provide rationale for antigenic diversity in wild ND isolates of Uganda compared with the current ND vaccine strains.

A Newcastle disease virus (NDV) isolate designated IBS002 was isolated from a commercial broiler farm in Malaysia. The virus was characterised as a virulent strain based on the multiple basic amino acid motif of the fusion (F) cleavage site 112RRRKGF117 and length of the C-terminus extension of the hemagglutinin-neuraminidase (HN) gene. Furthermore, IBS002 was classified as a velogenic NDV with mean death time (MDT) of 51.2 h and intracerebral pathogenicity index (ICPI) of 1.76. A genetic distance analysis based on the full-length F and HN genes showed that both velogenic viruses used in this study, genotype VII NDV isolate IBS002 and genotype VIII NDV isolate AF2240-I, had high genetic variations with genotype II LaSota vaccine. In this study, the protection efficacy of the recombinant genotype VII NDV inactivated vaccine was also evaluated when added to an existing commercial vaccination program against challenge with velogenic NDV IBS002 and NDV AF2240-I in commercial broilers. The results indicated that both LaSota and recombinant genotype VII vaccines offered full protection against challenge with AF2240-I. However, the LaSota vaccine only conferred partial protection against IBS002. In addition, significantly reduced viral shedding was observed in the recombinant genotype VII-vaccinated chickens compared to LaSota-vaccinated chickens.

Broiler chicks with maternal antibodies to Newcastle disease virus (NDV) but none to avian metapneumovirus (APV) were divided into six groups. One group was kept as an unvaccinated control group. Three of the other groups were vaccinated at 1 day old with live APV vaccine or one of two live NDV vaccines (VG/GA or HB1). The remaining two groups received the APV vaccine in combination with either of the two NDV vaccines at 1 day old. At intervals after vaccination for up to 42 days, distribution of the viruses in the tissues was monitored, together with humoral antibody responses. Few NDV isolations were made from any NDV-vaccinated chicks, probably due to the presence of NDV maternal antibodies. In both dual-vaccinated groups, APV persisted longer (up to 21 days post vaccination (d.p.v.)) than in the single vaccinates (up to 14 d.p.v.). After 14 d.p.v., antibody titres against APV in both dual-vaccinated groups remained higher than the single APV vaccinates. For NDV haemagglutination inhibition antibodies, similar titres were found in the single and dual NDV VG/GA vaccinates. However, for chickens dually vaccinated with NDV HB1 and APV, the haemagglutination inhibition titres were significantly higher at 21 and 28 d.p.v. than the single HB1 vaccinates. These differences reflect the fact that NDV haemagglutination inhibition titres may depend on the NDV vaccine used.

Newcastle disease virus (NDV) is a wide-spectrum anti-tumor agent. The oncolytic selectivity of NDV, a family of Paramyxoviridae, depends on the differential type of inducing different death pathways. This work was conducted to further understand the oncolytic effect of LaSota strain. A mouse breast cancer model (Murine mammary adenocarcinoma cell line AMN3) was used in this study. Methyl Thiazolyl Tetrazolium (MTT) viability assay tested different NDV multiplicity of infection (MOI) values on mouse mammary adenocarcinoma cells incubated for 72 hours post-infection. The IC50 values and anti-tumor activity of LaSota strain against AMN3 cell line were determined. Following Hematoxylin and Eosin Stain, we examined the morphological modifications of IC50 along with 10 MOI values of NDV. The induction of NDV apoptosis in AMN3 cells was investigated using the technique of staining acridine orange and propidium iodide (AO / PI). Immunocytochemistry assay was performed using anti-NDV mAbs and caspases 8 and 9 to study NDV replication and apoptosis induction mechanisms. The lentogenic LaSota NDV strain, a live vaccine, demonstrated the oncolytic effect on mammary cancer cells of the AMN3 mouse and showed that LaSota strain triggered a dose-dependent increase in infected cells’ apoptosis relative to untreated mammary cancer cells. The immunocytochemistry study showed that NDV infected cells were positive for virus infection and that caspase9 in mouse mammary cancer cells after LaSota strain infection was significantly enhanced compared to caspase 8. In conclusions, NDV LaSota strain had oncolytic effects by destroying tumor cells and triggering the intrinsic apoptosis pathways in mouse mammary cancer cells. However, the mechanisms of the in vivo anti-tumor activity need to be better understood.

Simple SummaryNewcastle disease (ND) is a worldwide distributed highly infectious disease of wild and domestic birds. Regardless of vaccination procedures, little information is available about the pathogenicity and genetic characteristics of the circulating virus in the Egyptian environment. The current study was undertaken to estimate the role of the different inoculation routes in the pathogenicity of NDV. Therefore, induction of the infection was done with NDV-CH-EGYPT-F42-DAKAHLIA-2019 (VNDV) isolated strain in 28 day old white Ross male broiler chicks via intraocular, choanal, intranasal, mixed oculo-nasal routes. Interestingly, a series of findings including mortality rates, severity of clinical and histopathological lesions, and intensity of viral nucleoprotein immunolabeling were reported to be different according to the routes of inoculation. Clearly, the present findings provide novel descriptive and comparative histopathological and immunohistochemical findings about this virus in Egypt, and the obtained data may be useful for different vaccination strategies against NDV. Newcastle disease virus (NDV) remains a constant threat to the poultry industry. There is scarce information concerning the pathogenicity and genetic characteristics of the circulating velogenic Newcastle disease virus (NDV) in Egypt. In the present work, NDV was screened from tracheal swabs collected from several broiler chicken farms (N = 12) in Dakahlia Governorate, Egypt. Real-time reverse transcriptase polymerase chain reaction (RRT-PCR) was used for screening of velogenic and mesogenic NDV strains through targeting F gene fragment amplification, followed by sequencing of the resulting PCR products. The identified strain, namely, NDV-CH-EGYPT-F42-DAKAHLIA-2019, was isolated and titrated in the allantoic cavity of 10 day old specific pathogen-free (SPF) embryonated chicken eggs (ECEs), and then their virulence was determined by mean death time (MDT) and intracerebral pathogenicity index (ICPI). The pathogenicity of the identified velogenic NDV strain was also assessed in 28 day old chickens using different inoculation routes as follows: intraocular, choanal slit, intranasal routes, and a combination of both intranasal and intraocular routes. In addition, sera were collected 5 and 10 days post inoculation (pi) for the detection of NDV antibodies by hemagglutination inhibition test (HI), and tissue samples from different organs were collected for histopathological and immunohistochemical examination. A series of different clinical signs and postmortem lesions were recorded with the various routes. Interestingly, histopathology and immunohistochemistry for NDV nucleoprotein displayed widespread systemic distribution. The intensity of viral nucleoprotein immunolabeling was detected within different cells including the epithelial and endothelium lining, as well as macrophages. The onset, distribution, and severity of the observed lesions were remarkably different between various inoculation routes. Collectively, a time-course comparative pathogenesis study of NDV infection demonstrated the role of different routes in the pathogenicity of NDV. The intranasal challenge was associated with a prominent increase in NDV lesions, whereas the choanal slit route was the route least accompanied by severe NDV pathological findings. Clearly, the present findings might be helpful for implementation of proper vaccination strategies against NDV.

The recurrent outbreaks of fatal Newcastle disease (ND) in commercial poultry flocks throughout the world indicate that routine vaccinations are failing to sufficiently induce the high levels of immunity necessary to control ND. There is a need for vaccination programmes that could be initiated at 1-day-old for mass application and which would induce a long-lasting immunity, with no need for a booster vaccination at a later age. In this context, the duration of immunity delivered by a vaccination programme including a recombinant herpesvirus of turkeys expressing the F gene of ND virus (rHVT-ND) and live ND vaccine at 1-day-old was compared with a classical programme that included a conventional live and an inactivated ND vaccine at the same age in commercial layer chickens. The humoral, cell-mediated and local immunity were followed weekly and birds were challenged with a viscerotropic velogenic ND virus strain at 6 and 10 weeks of age. We determined that immunity induced by the vaccination programme involving the rHVT-ND vaccine was more protective than that provided by the conventional vaccine-based regime. This might be related to a T-helper type 1 (Th1) cellular-driven immunological response, in contrast to the T-helper type 2 (Th2) humoral-oriented immune response provided by the current conventional vaccine-based vaccination programmes.

The present study was designed to determine the protection afforded by different vaccination programs against the Newcastle disease virus. A serological survey on the prevalence of antibodies to Newcastle disease virus (NDV) was carried out in broilers chicken in Dinajpur districts. For this reason, a total of 75 serum samples were collected form broiler chickens and samples were divided into five groups, each group contain 15 chickens. Group E did not receive any vaccine and served as a negative control group. Groups A-D were vaccinated with different vaccination programs against NDV. From this experimental work the principal objectives of the present investigation it may be stated that production of Hl-antibody was higher in birds of group D vaccinated with CevacVitapest-LR compared to those of group A vaccinated with Medivac NDLaSotaR, group B vaccinated with BCRDV(R) and group C vaccinated with Izovac. B, HitchnerR. Thus, the CevacVitapest-LR was found to be superior to some extent than Medivac ND-LaSota, BCRDVR, Izovac B, Hitchnert. However, as regards vaccination of chicks against NDV in earlier days the use of lentogenic strains are recommended although it should be kept in mind that vaccination with LaSota strains would cause considerately greater problems in young susceptable birds than Hitchner B1 strain and even through LaSota induces a stronger immune response.
 Asian Australas. J. Biosci. Biotechnol. 2018, 3 (1), 52-58

Immunological effect of Moringa Oleifera leaf extract on vaccinated and non-vaccinated Hubbard chickens experimentally infected with Newcastle virus

Comparison of the Efficacy and Transmissibility of Conventional NDV Vaccines and Vaccines Prepared After Back-Passage Through Chickens

Objective: Isolation, serological and molecular identification and differentiation between velogenic and lentogenic of Newcastle disease virus (NDV) strains. Design: Descriptive study. Procedures: In this study, A total of 24 Pooled samples were collected from Dakahlia, Egypt, from 2017 to 2018 .The virus was isolated in 10 days old (ECEs) and serologically identified in third egg passage allantoic fluid by Haemagglutination (HA), Haemagglutination inhibition test (HIT) and agar gel precipitation test (AGPT). Molecular confirmation was done by reverse transcriptase-polymerase chain reaction (RT-PCR). Genetic diversity between velogenic and lentogenic NDV strains was done by RT-PCR amplification of 254bp F gene fragment from velogenic NDVs and sequence analysis of 362bp NDV F gene fragment. Results: Out of 24 tested samples, 20 samples were collected from allontoic fluid of 3rd passage positive by HA test, 18 samples by HIT, 16 samples by AGPT and 18 isolates were positive with RT-PCR amplification of 362bp F gene fragment. LaSota strain gave positive results in HA, HIT, AGPT and RT-PCR amplification of 362bp fragment. Interestingly, 254bp fragment failed to be amplified from LaSota strain. The phylogenic analysis revealed that our isolates were related to Egyptian velogenic genotype VII NDVs. The deduced amino acid sequence of the F protein cleavage site of our isolates was characteristic of velogenic NDVs (112R-R-Q-K-R↓F117) while LaSota strain had characteristic lentogenic NDVs cleavage site (112G-R-Q-G-R↓L117). Conclusion and clinical relevance: RT-PCR and sequence analysis in this study can be used for differentiation between velogenic and lentogenic NDV strains.

In the present study, a trail to evaluate of Newcastle Disease (ND) antibodies levels after different vaccination programs was conducted on layer chickens. A total of 200 one day-old layer chicks (White Lohmann) were divided into five groups A, B, C, D and E. Birds in groups A, B and C were vaccinated with live vaccine by intraocular, intranasal and drinking water methods , respectively. On the other hand, groups D and E were kept as unvaccinated control groups. Vaccination performed at days 5, 18 and 28 by different routes for mentioned groups. Hemagglutination inhibition (HI) and enzyme-linked immunosorbent assay (ELISA) methods were used for assessment of antibodies titer at days 15, 25, 37 and 45. Results of HI and ELISA tests indicated that, the intranasal and the intraocular method have highest antibodies titers compared with the drinking water method. In this study, maternally derived antibodies specific to Newcastle Disease Virus (NDV) (IgY) were extracted by dextran sulfate method from collected eggs of vaccinated laying chickens . Antibodies specific to NDV (IgY) were detected in the egg yolk using HI test . Data revealed that antibodies specific to NDV (IgY) were presented in high titers that confer protection during early weeks of life for hatching chicks. Data concluded that extraction of maternally derived specific antibodies from egg yolk will facilitate accurate monitoring of ND vaccination programmes.

Comparative Immune Response from Vaccinating Chickens with Lentogenic Newcastle Disease Virus Strains

Objective: Isolation, serological and molecular identification and differentiation between velogenic and lentogenic of Newcastle disease virus (NDV) strains. Design: Descriptive study. Procedures: In this study, A total of 24 Pooled samples were collected from Dakahlia, Egypt, from 2017 to 2018 .The virus was isolated in 10 days old (ECEs) and serologically identified in third egg passage allantoic fluid by Haemagglutination (HA), Haemagglutination inhibition test (HIT) and agar gel precipitation test (AGPT). Molecular confirmation was done by reverse transcriptase-polymerase chain reaction (RT-PCR). Genetic diversity between velogenic and lentogenic NDV strains was done by RT-PCR amplification of 254bp F gene fragment from velogenic NDVs and sequence analysis of 362bp NDV F gene fragment. Results: Out of 24 tested samples, 20 samples were collected from allontoic fluid of 3rd passage positive by HA test, 18 samples by HIT, 16 samples by AGPT and 18 isolates were positive with RT-PCR amplification of 362bp F gene fragment. LaSota strain gave positive results in HA, HIT, AGPT and RT-PCR amplification of 362bp fragment. Interestingly, 254bp fragment failed to be amplified from LaSota strain. The phylogenic analysis revealed that our isolates were related to Egyptian velogenic genotype VII NDVs. The deduced amino acid sequence of the F protein cleavage site of our isolates was characteristic of velogenic NDVs (112R-R-Q-K-R↓F117) while LaSota strain had characteristic lentogenic NDVs cleavage site (112G-R-Q-G-R↓L117). Conclusion and clinical relevance: RT-PCR and sequence analysis in this study can be used for differentiation between velogenic and lentogenic NDV strains.

Maternal antibody decay and antibody-mediated immune responses in chicken pullets fed prebiotics and synbiotics