Tuesday, 12 October 2021

Adoption of the One Health approach to improve zoonosis control in low-income countries: Insights from the case of rabies management in Burkina Faso

Research (Published online: 12-10-2021)
5. Adoption of the One Health approach to improve zoonosis control in low-income countries: Insights from the case of rabies management in Burkina Faso
Madi Savadogo, Hamidou Zangré, Sougrenoma Désiré Nana, Abdoul Kader Ilboudo, Laibané Dieudonné Dahourou, Sidwatta Guy Ilboudo, Virginie Simonis, Kongnimissom Apoline Sondo, Ayayi Justin Akakpo, Zékiba Tarnagda and Rianatou Bada Alambedji
International Journal of One Health, 7(2): 182-189

ABSTRACT

Background and Aim: Rabies is a neglected zoonotic disease transmissible to humans and domestic and wild animals through biting, scratching, or licking. This study aimed to analyze the adoption of the One Health approach by the stakeholders involved in rabies control in Burkina Faso.

Materials and Methods: The stakeholders involved in rabies control were from the Ministry of Livestock, Ministry of Health, Ministry of the Territory Administration, Ministry of Environment and Wildlife, and Ministry of Higher Education and Research. A structured questionnaire was used in face-to-face interviews to collect data from the stakeholders. The collected data included stakeholders' knowledge of rabies and the One Health approach and their levels of involvement in the multisectoral collaboration.

Results: Most participants could not describe rabies correctly (80%), and only 52.9% had heard of the One Health approach. In addition, there was no significant association between knowledge of rabies and participants' characteristics, and the knowledge of the One Health approach was significantly influenced by a participant's affiliation (place of work).

Conclusion: The results call for an increase in One Health education for its effective adoption by all the rabies control stakeholders. Additional efforts should focus on continual training of the One Health workforce, from policy-makers to frontline personnel.

Keywords: Burkina Faso, zoonosis, One Health, rabies control system, stakeholders, multisectoral collaboration, public health.



Monday, 11 October 2021

In ovo inhibition of avian pox virus replication by mangosteen rind and red ginger ethanolic extracts

Research (Published online: 11-10-2021)
9. In ovo inhibition of avian pox virus replication by mangosteen rind and red ginger ethanolic extracts
Annisaa' Lu'lu Nur'aini, Sri Hartati and Tri Untari
Veterinary World, 14(10): 2640-2645

ABSTRACT

Background and Aim: Avian pox is a contagious disease caused by the avian pox virus (APV). Mangostin and γ-mangostin in mangosteen rind (MR) and gingerol in red ginger (RG) exhibit antiviral activity. In this study, we evaluated the effect of MR and RG ethanolic extracts on APV based on pock lesions on the chorioallantoic membrane (CAM) of specific pathogen-free (SPF) embryonated chicken eggs (ECEs).

Materials and Methods: Three APVs from chicken isolates (C1, C2, and C3), one APV from a pigeon isolate (P), 1.5% and 3% MR ethanolic extract, 5% and 10% RG ethanolic extract, and a combination of 1.5% MR and 5% RG at 0.1 mL/ egg were inoculated in ovo (7th day incubation, chorioallantoic route) in SPF ECEs. A control group inoculated in ovo with APV alone was also established. Each treatment consisted of three replicates. Parameters including embryo survival, CAM lesions, and average number of pock lesions were determined.

Results: In ovo inoculation of MR and RG ethanolic extracts was not harmful to the ECEs and did not induce CAM lesions. The average number of pock lesions in the control group (C1, C2, C3, and P) was 35, 14, 10, and 17, respectively, whereas in all treatment groups, the number was 0, except in the 5% RG group of C1, which had a value of 10.

Conclusion: In ovo inoculation of 1.5% and 3% MR, 5% and 10% RG, and the combination of 1.5% MR plus 5% RG ethanolic extract s at 0.1 mL/egg inhibit APV by reducing the number of pock lesions on the CAM of the ECE.

Keywords: avian pox virus, in ovo, mangosteen rind, pock lesions, red ginger.



Saturday, 9 October 2021

Pathology and molecular characterization of Leucocytozoon caulleryi from backyard chickens in Khon Kaen Province, Thailand

Research (Published online: 09-10-2021)
8. Pathology and molecular characterization of Leucocytozoon caulleryi from backyard chickens in Khon Kaen Province, Thailand
Tawatchai Pohuang, Suphattra Jittimanee and Sucheeva Junnu
Veterinary World, 14(10): 2634-2639

ABSTRACT

Aim: The aim of this study was to characterize Leucocytozoon caulleryi from backyard chickens in Khon Kaen Province, Thailand.

Materials and Methods: Tissue samples were collected from backyard chickens suspected to have leucocytozoonosis and subjected to histopathology examination. The BLAST Tool at NCBI GenBank (Basic Local Alignment Research Tools) (http://www.ncbi.nlm.nih.gov/BLAST) was used to identify the nucleotide sequence of the partial cytochrome c oxidase subunit I (cox I) gene. A Phylogenetic tree for analysis of L. caulleryi was constructed by using MEGA 7.0 software (https:// www.megasoftware.net/).

Results: The necropsy results revealed the subcutaneous hemorrhages of pectoral muscles, multifocal hemorrhages of the thymus and pectoral muscles, hemorrhage of the proventriculus and peritoneal cavity, and megaloschizonts of the pancreas and intestine, including subcapsular hemorrhages of the liver. Microscopic examination revealed numerous megaloschizonts of Leucocytozoon spp. in the pectoral muscles, intestine, pancreas, and thymus. Molecular analysis of the partial cox I gene showed that the causal agent was closely related to L. caulleryi reported in Japan.

Conclusion: From these results, L. caulleryi was determined to be the causal agent of leucocytozoonosis and was closely associated with L. caulleryi reported in Japan.

Keywords: chickens, cytochrome c oxidase subunit I gene, leucocytozoonosis, megaloschizonts.



In silico analysis of highly conserved cytotoxic T-cell epitopes in the structural proteins of African swine fever virus

Research (Published online: 09-10-2021)
7. In silico analysis of highly conserved cytotoxic T-cell epitopes in the structural proteins of African swine fever virus
Leana Rich De Mesa Herrera and Elizabeth Paulino Bisa
Veterinary World, 14(10): 2625-2633

ABSTRACT

Background and Aim: African swine fever (ASF) is a viral disease of pigs caused by ASF virus (ASFV). High mortality and the lack of available treatments have severely impacted the swine industry resulting in huge global economic losses. In response to the dire necessity for vaccines, this study aims to identify highly conserved cytotoxic T-cell epitopes in ASFV structural proteins pp220, pp62, p72, p30, and CD2v through immunoinformatics approach.

Materials and Methods: The amino acid sequences of the structural proteins were retrieved from the National Center for Biotechnology Information protein database. The sequences were evaluated in CD-HIT Suite wherein resulting representative sequences were aligned in Clustal Omega. Highly conserved sequences were identified in the Protein Variability Server which were used as reference sequences for the cytotoxic T-cell epitope mapping. Epitopes were predicted using the tools in Immune Epitope Database. Peptides which bind to the swine major histocompatibility complex with IC50 binding scores >500 nM were filtered out. Epitopes which are classified to be potentially toxic and cross-reactive with the swine proteome sequences were all excluded from the study. The epitopes were docked with the swine leukocyte antigen-1*0401 (SLA-1*0401) wherein the binding affinity, the binding energy, and the root-mean-square deviation (RMSD) per residue of epitope-SLA complexes formed were determined and compared with the influenza epitope as positive control.

Results: A total of 112 highly conserved fragments with Shannon variability index ≤0.1 were identified. These include 66, 12, 26, 6, and 2 highly conserved fragments from ASFV proteins pp220, pp62, p72, p30, and CD2v, respectively. From these reference sequences, 35 nonameric peptides were selected for the list of candidate cytotoxic T-cell epitopes. These include 26 epitopes for pp220, 7 for pp62, 6 for p72, and one each for p30 and CD2v. Bioinformatics analysis classified the peptides as non-toxic. Further evaluations of epitopes showed that these are less likely to cross-react with the domestic swine proteome sequences. This study identified candidate epitopes from pp220 (IADAINQEF, FLNKSTQAY, QIYKTLLEY, and SLYPTQFDY), and pp62 (GTDLYQSAM, FINSTDFLY, and STDFLYTAI) which can bind to at least two widely distributed SLAs in pig populations. The immunogenicity of candidate peptides RSNPGSFYW, DFDPLVTFY, AIPSVSIPF, and VVFHAGSLY was validated by the acceptable binding affinities, binding energies, and RMSD of the peptide-SLA complexes formed. Results were also comparable with the crystal structure of an SLA-epitope complex in the database.

Conclusion: This is the first study to identify highly conserved cytotoxic T-cell epitopes in the structural proteins of ASFV. Overall, the results of in silico evaluations showed that the identified highly conserved cytotoxic T-cell epitopes may be used as part of future vaccine formulations against ASFV infection in domesticated pigs. Nonetheless, these findings require in vitro and in vivo validation before application.

Keywords: African swine fever virus, cytotoxic T-cell epitopes, immunoinformatics, in silico.



Thursday, 7 October 2021

Actinomycetes of secondary metabolite producers from mangrove sediments, Central Java, Indonesia

Research (Published online: 07-10-2021)
6. Actinomycetes of secondary metabolite producers from mangrove sediments, Central Java, Indonesia
Wilis Ari Setyati, Delianis Pringgenies, Nirwani Soenardjo and Rini Pramesti
Veterinary World, 14(10): 2620-2624

ABSTRACT

Background and Aim: Actinomycetes are a group of Gram-positive bacteria with a fungus-like morphology. Their natural habitat encompasses terrestrial and water areas, including mangrove ecosystems. This study aimed to assess the PKS and NRPS genes as the producers of secondary metabolites and to determine the target bacterial species using molecular DNA tests.

Materials and Methods: In this study, we isolated bacteria from sediment samples from mangrove forests located on Karimunjawa Islands and in Semarang city, purified bacteria, screened for antibacterial activity, extracted bacterial DNA, amplified the NRPS gene, detected and amplified the PKS-I and PKS-II genes, amplified and sequenced the 16S rRNA, processed molecular data, and simulated a map of secondary metabolite producing genes.

Results: Samples from the Karimunjawa Islands yielded 19 bacterial isolates, whereas samples from Semarang yielded 11 bacterial isolates after culture in different media. Further experiments identified three active isolates, which were termed PN.SB.6.2, S.SK.6.3, and S.SK.7.1, against pathogenic species of Escherichia coliStaphylococcus aureus, and Listeria monocytogenes. Isolate PN.SB.6.2 was determined to possess three biosynthetic gene clusters (BGCs), whereas the remaining two isolates, S.SK.6.3 and S.SK.7.1, only possessed two BGCs, namely, NRPS and PKS II.

Conclusion: Products were estimated to be in the NRPS, thiopeptide, RiPP-like, siderophore, betalactone, terpene, Type III PKS, CDPS, and lassopeptide groups. DNA identification of the isolates found three species of actinomycetes with antibacterial potential, namely, Virgibacillus salariesBacillus licheniformis, and Priestia flexa.

Keywords: actinomycetes, biosynthetic gene cluster, Karimunjawa Island, NRPSPKS.



Wednesday, 6 October 2021

First report on molecular prevalence and identification of Anaplasma platys in dogs in Khon Kaen, Thailand

Research (Published online: 06-10-2021)
5. First report on molecular prevalence and identification of Anaplasma platys in dogs in Khon Kaen, Thailand
Biethee Rani Sarker, Thongphet Mitpasa, Arayaporn Macotpet, Pattara-Anong Bupata, Somboon Sangmaneedet and Weerapol Taweenan
Veterinary World, 14(10): 2613-2619

ABSTRACT

Background and Aim: Anaplasma platys is a blood parasite that infects platelets, causing thrombocytopenia. Rhipicephalus sanguineus ticks are believed to transmit A. platys. To identify A. platys, nested polymerase chain reaction (PCR) has proven to be an effective diagnostic tool. In this study, the molecular prevalence of A. platys infection in dogs was investigated for the 1st time in the Khon Kaen region of Thailand. The association between risk factors and A. platys infection was also evaluated.

Materials and Methods: A total of 130 blood samples were collected from dogs in Khon Kaen, Thailand. DNA from the samples was extracted and nested PCR was applied for molecular analysis. Platelet count and packed cell volume (PCV) levels were measured. Platelet counts were categorized into four grades: Non-thrombocytopenia (platelets >200,000 cells/μL), mild thrombocytopenia (platelets 150,000-200,000 cells/μL), moderate thrombocytopenia (platelets 100,000-150,000 cells/μL), and severe thrombocytopenia (platelets <100,000 cells/μL). Four categories for PCV levels of >37%, 30-37%, 20-29%, and <20% were defined as no anemia, mild anemia, moderate anemia, and severe anemia, respectively. DNA sequencing was analyzed using BTSeq™ (Barcode-Tagged Sequencing; CELEMICS, Seoul, South Korea) for similarity index.

Results: Among the 130 samples, 9 (6.9%) were positive for A. platys infection. There was an association between low platelet count and infection (p<0.05). PCV level was also associated with A. platys infection (p<0.05). DNA sequencing results of the nine positive samples showed similarity to known sequences of A. platys with 99.36-100% nucleotide identity. These results suggested low genetic diversity in A. platys infecting dogs in the Khon Kaen area.

Conclusion: By amplifying 16S rRNAA. platys infection was detected in the blood of Thai dogs. Further work should be performed to identify risk factors potentially associated with A. platys infection in dogs in Khon Kaen. Other related factors should also be considered, such as location and breeding, as well as the environmental characteristics of each locality. In addition, sampling a larger number of animals may reveal predictors for the positivity of A. platys in dogs in this region.

Keywords: Anaplasma platys, molecular prevalence, nested polymerase chain reaction, thrombocytotropic anaplasmosis.



Efficacy of bubaline blood derived fibrin glue in silk ligature-induced acute periodontitis in Wistar rats

Research (Published online: 06-10-2021)
4. Efficacy of bubaline blood derived fibrin glue in silk ligature-induced acute periodontitis in Wistar rats
Poranee Banyatworakul, Nopadon Pirarat, Sujin Sirisawadi, Thanaphum Osathanon and Chanin Kalpravidh
Veterinary World, 14(10): 2602-2612

ABSTRACT

Background and Aim: Fibrin forms in the coagulation process, enhancing local hemostatic properties and promoting wound healing. The study aimed to evaluate the efficacy of bubaline-derived fibrin glue in silk ligature-induced periodontitis rats.

Materials and Methods: Bubaline blood–derived fibrin glue was prepared using cryoprecipitation and cryocentrifugation. Periodontitis was induced in rats by placing 5-0 silk ligatures around the mandibular first molars. The animals were divided into two groups: (1) Non-treatment and (2) bubaline fibrin glue–treated groups. Plaque, gingival inflammation, and mobility index were scored on days 1, 7, and 14 after intervention. Histological examinations were performed. The mRNA expression of inflammatory cytokines and growth factors was evaluated using a real-time polymerase chain reaction. Ligature-induced periodontitis was confirmed by the increase in inflammatory cell infiltration as well as histological bone and attachment loss.

Results: Compared to the non-treatment group, bubaline fibrin glue application reduced mononuclear cell infiltration into periodontal tissues corresponding to the reduction of collagen destruction. On days 7 and 14 after intervention, the inflammatory score and histological attachment loss were significantly lower in the bubaline fibrin glue–treated group than in the non-treatment group. A significant reduction in histological bone loss was observed in the treated group on day 7. Bubaline fibrin glue application led to a significant reduction of Tnfa and Il1b mRNA levels, while an increased expression of PdgfaTgfb1, and Il10 was observed compared with the control.

Conclusion: Bubaline fibrin glue could be beneficial in periodontitis treatment aiming to reduce inflammation and delay the progression of periodontal disease.

Keywords: bubaline, fibrin, inflammation, ligature-induced, periodontitis.