Search Results (121)

Background/Objectives: Lumpy skin disease (LSD) is a notifiable disease due to a marked potency for rapid spread and a significant negative economic impact on agriculture worldwide. As such, vaccination is considered the most effective way to control the disease in endemic countries, and the serological response to homologous LSDV-based vaccines is widely investigated. However, less is known about the seroconversion and duration of the immune response that is elicited by live attenuated heterologous vaccines based on the Sheeppox virus (SPPV) used for LSD prevention. This study aimed to investigate the humoral immune response in cattle immunized with a heterologous SPPV-based vaccine in the field. Methods: Commercial ELISA, based on P32 protein, as well as immunoblotting, were used to assess the antibody response in 6-month-old, 17-month-old, and older animals before and after the first immunization and revaccination. Results: Only a secondary immune response was detected when using commercial ELISA in revaccinated animals in each of the groups (83.3% and 30%, respectively). A comparative bioinformatic analysis proved a marked polymorphism of P32, derived from LSDV/SPPV/GTPV, which potentially resulted in negative responses in the ELISA. However, immunoblotting revealed a 100% seroconversion in vaccinated animals after the first vaccination and revaccination. Notably, specific antibodies were found in the sera of 80% of 6-month-old calves before the first vaccination, which had probably been passively transferred from their mothers, who were multiply vaccinated with SPPV-based vaccines. Conclusions: Several immunodominant antigens were able to induce a humoral immune response in cattle to the SPPV-based vaccine after passive and active immunization, serving as promising markers for a humoral immune response to heterologous vaccines. Full article

Livestock is the backbone of the economy in an agricultural country like Pakistan, with cattle serving as a milk and protein source. In 2021/22, Pakistan was hit by the first major outbreak of lumpy skin disease (LSD) in cattle, in all four provinces. LSD is characterized by the development of skin nodules, leading to severe illness, decreased milk production, and mortality, causing huge economic losses. This study aimed to analyze and classify the lumpy skin disease virus (LSDV) strains involved in the outbreak in the Punjab province at the molecular and phylogenetic levels to develop effective control strategies. A combination of different real-time PCRs was used for the identification and differentiation between vaccine, wild-type, and recombinant LSDV strains. This was mented with the sequence determination and phylogenetic analysis of ten genomic loci from two selected isolates from the 2021/22 Pakistan outbreak. The combined data showed that these isolates belonged to LSDV clade 1.2 and were clearly different from the vaccine clade 1.1 (Neethling-like), as well as from the recombinant clade 2 strains. In addition, using a fit-for-purpose gel-based PCR, the isolates from the outbreak were also shown to be different from KSGP0240-based vaccines. Full article

Lumpy Skin Disease (LSD) is a transboundary viral disease of wild and domesticated ruminants, and notifiable to the World Organisation for Animal Health (WOAH). LSD has spread rapidly in the cattle population across the African, European and Asian continents since 1929. Following recent outbreaks in the Southeast Asia region, Singapore observed its first occurrence of LSD in a local dairy cattle farm in March 2022. LSD was confirmed in dairy cattle exhibiting clinical signs with quantitative real-time PCR and sequencing with MinION Nanopore. Analyses of the assembled whole viral genomes also revealed high phylogenetic relatedness to LSD recombinant strains. It remains unclear how the virus was introduced into Singapore, given the absence of known vectors and strict import regulations in place. This highlights the importance of biosurveillance, and laboratory diagnostic readiness to manage outbreaks and prevent the spread of transboundary diseases. Full article

Lumpy Skin Disease Virus (LSDV), a member of the poxvirus family, represents a significant threat to global cattle industries. This review presents an analysis of LSDV-encoded proteins and their interactions with host systems, elucidating the molecular mechanisms governing viral life cycle progression and immune evasion strategies. We provide detailed characterization of the complex architecture of LSDV virions, including Intracellular Mature Virus (IMV), Extracellular Enveloped Virus (EEV), lateral bodies, and the core components, while summarizing the crucial functions of viral proteins throughout various stages of infection—entry, replication, transcription, translation, assembly, and egress. Particular attention is given to the immunomodulatory strategies employed by LSDV to subvert both innate and adaptive immune responses. These mechanisms encompass molecular mimicry of cytokines and chemokines, interference with antigen presentation pathways, inhibition of key immune signaling cascades, and modulation of apoptosis and autophagy processes. Through comparative analysis with homologs from related poxviruses, especially vaccinia virus, we highlight both evolutionarily conserved functions and potential unique adaptations in LSDV proteins. This review further identifies critical knowledge gaps in current understanding and proposes promising research directions. We emphasize that integrating multi-omics approaches with structural biology will be essential for advancing our understanding of LSDV pathogenesis and for developing novel preventive and therapeutic strategies against this important animal pathogen. Full article

Rational design of capripoxvirus-based vaccine vectors can be achieved by knockout of immunomodulatory genes. In this study, the effect of knockout of the immunomodulatory genes LSDV005, LSDV008 and LSDV066 on the replication of Lumpy skin disease virus in cell cultures and the immune response to an integrated foreign antigen were assessed. The knockout of genes was performed by homologous recombination under conditions of temporary dominant selection. It was found that single knockout of the LSDV005 gene and the LSDV008 gene did not affect the replicative activity of recombinant viruses in vitro (Atyrau-5 and Atyrau-B). Both single knockout of the LSDV066 gene and in combination with knockout of LSDV005 or LSDV008 led to a decrease in the replicative activity of recombinant LSDVs. The recombinant Atyrau-5J(IL18) with LSDV005 gene knockout induced production of antibodies to the integrated antigen in mice. Prime-boost vaccination with all studied recombinants increased the level of interferon-γ. In addition, during immunization with the recombinant Atyrau-5J(IL18) secretion of interleukin-2 was significantly increased. The study of the functions of immunomodulatory genes and their effect on the expression of inserted sequences of foreign antigens is promising for the creation of highly effective polyvalent vector vaccines for animals. Full article

Lumpy skin disease (LSD) is an invasive infectious disease caused by the lumpy skin disease virus (LSDV), which is detrimental to the production of cattle. LSDV encodes about 156 proteins, most of whose functions are still unknown. In this study, we found that the ORF137 protein was identified as one of the strongest inhibitors of IFN-β and ISG expression, determining LSDV ORF137 as a negative regulator of interferon (IFN) β signaling. Further evidence suggests that ORF137 interacts with the signal transduction factor IRF3 and inhibits the activation of IFN-β signaling by reducing Phospho-IRF3 (p-IRF3). Further investigation indicated that overexpression of ORF137 in BMEC could significantly inhibit the transcription of IFN-β and ISGs, thereby promoting the replication of LSDV. More importantly, through homologous recombination, we deleted the ORF137 gene from the LSDV/FJ/CHA/2021 strain and constructed the recombinant strain LSDV-ΔORF137-EGFP. Compared with the parental strain, LSDV-ΔORF137-EGFP showed a weakened effect on inhibiting the transcription of IFN-β and ISGs and a reduced replication level in infected MDBK cells. In summary, ORF137 facilitates LSDV replication by targeting IRF3 to inhibit IFN-β signaling. Our findings reveal a new mechanism by which LSDV suppresses the host antiviral response, which may facilitate the development of attenuated live vaccines for LSDV. Full article

Lumpy Skin Disease Virus (LSDV) is a transboundary pathogen that affects cattle, causing significant economic losses, particularly in Africa and Asia. While the virus was originally endemic to sub-Saharan Africa, it has rapidly spread to Europe, the Middle East, and Asia, necessitating comprehensive genomic surveillance. Despite LSDV’s African origins, genomic data from West and Central Africa remain scarce, limiting insights into regional viral evolution and vaccine compatibility. In this study, molecular detection of LSDV was carried out on cattle samples from Nigeria, Cameroon, and Benin. However, comparative genomic analysis was performed using two near-complete LSDV genomes obtained from Cameroon. Phylogenetic evaluation revealed that LSDV strains from Nigeria and Cameroon cluster within the classical 1.2 lineage. Furthermore, the two sequences from this study cluster with the only publicly available sequence from West and Central Africa, supporting earlier findings of the presence of a West/Central African sub-lineage. Functional genomic analysis identified mutations in genes encoding ankyrin repeat Kelch-like proteins, and envelope proteins involved in immune evasion and viral virulence, raising concerns about vaccine effectiveness. Furthermore, the detection of LSDV in flesh flies (Sarcophaga spp.) underlines their potential role in virus transmission. These findings highlight the importance of genomic monitoring and targeted surveillance. Full article

Lumpy skin disease (LSD) is a contagious animal disease caused by the lumpy skin disease virus (LSDV). LSD can be transmitted through direct, indirect and insect vectors, severely impacting global cattle production. To evaluate difference in immune response and gut microbiota of 30 healthy 16–18 months old Angus cattle, treated with live attenuated or inactivated goatpox vaccine virus strains. The cattle were randomly divided into three groups (10 animals per group): Group A—goatpox live attenuated vaccine; Group B—goatpox inactivated vaccine; Group C—control (saline). Blood samples were collected on days 14, 28, 42, and 56 post-vaccination to assess hematological parameters, serum biochemical indices, and antibody levels; rectal feces were collected on day 28 for 16S rRNA analysis of gut microbiota. Results showed that, on day 28, both Group A and Group B reached their peak antibody levels (the log₁₀ value of Group A was 2.6, and that of Group B was 2.7), with about 90% of the cattle in each vaccinated group testing antibody-positive. On day 42, Group B retained 90% seropositivity, whereas Group A declined to 80%. Significantly altered in vaccinated Groups (A and B) compared to controls on days 14 and 28 (p < 0.05). Hematological parameters (PLT, NEUT, and LYM) and serum biochemical indices (AST, TP, and GGT) were elevated early after vaccination but returned to baseline by days 42 and 56.Which returned to control levels by days 42 and 56. On day 28 post-vaccination, Vaccinated cattle showed significantly higher gut microbiome richness and diversity than unvaccinated controls (p < 0.05). At the phylum level, the dominance was observed in Firmicutes and Bacteroidetes: the relative abundances were 62.90% and 29.65% in Group A, 60.84% and 30.13% in Group B, and 49.99% and 39.73% in Group C, respectively. These findings indicate that the inactivated goatpox vaccine elicits a more durable and stable antibody response, maintaining higher specific antibody titers, and induces more pronounced shifts in the gut microbiota community structure at the phylum level compared with the live attenuated vaccine. Full article

The main purpose of this research paper is to assess the prevalence, diagnosis, and management of common cattle diseases in different countries, including Jordan, Pakistan, Uganda, Korea, Bangladesh, and Europe. Our dataset includes 163 cases and 123 detailed symptoms; this research identifies patterns of symptoms with great accuracy. The accuracy of the dataset is 98%. The main diseases in cattle include digestive disorders, osteodystrophy, tick-borne diseases, and lumpy skin disease. Two types of tools were used: innovative diagnostic tools, like fuzzy logic models, and a diagnostic decision support tool (DDST). This tool performs disease detection and management. The findings demonstrate the importance of accurate diagnosis in vaccination programs and biosecurity measures in order to adequately measure economic losses and improve livestock health. Full article

This study aimed to investigate cattle farmer livelihoods that relate to cattle welfare in the region with the newly emerging Lumpy Skin Disease (LSD) in Indonesia. A semi-structured interview survey was conducted with randomly selected cattle farmers (n = 102), in Riau. Cattle were bled for analysis of LSD-post-vaccinal seroconversion. The Sustainable Livelihood Framework (SLF) was used; data on livelihood assets, activities, and outcomes were analysed using Multiple Correspondence Analysis (MCA), two-step clustering, and the radar chart of asset possessions. The survey showed that vaccination and veterinary services covered 82.4% and 90.2% of farms. Seroconversion was detectable in vaccinated (15.0%, n = 173) and in non-vaccinated animals (23.1%, n = 13). Farmers mostly fed only grass to cattle (92.2%), with neither pastoral management nor ad libitum water provision. The MCA and cluster analyses indicated that cattle shelter roofing and flooring and manure disposal were the most important markers of the community’s livelihood. Poverty among cattle farmers was 23.5%. The cluster with lower income per capita had lower quality of shelter roofing and flooring, a lack of regular manure disposal, jobless second children, and the lowest possession of natural and physical assets. Helping to possess natural and physical assets might improve cattle farmers’ well-being and cattle welfare. Full article

Lumpy skin disease (LSD) poses a significant transboundary threat to livestock health and productivity, especially in regions where vector-borne transmission is a major driver of spread. Environmental and climatic factors are recognized as critical determinants of LSD transmission dynamics. This study aimed to model the environmental suitability for LSD across Thailand using a maximum-entropy approach. Outbreak data from 2021 to 2023 were analyzed alongside bioclimatic variables, land cover, normalized difference vegetation index (NDVI), and cattle population density. The model produced an area under the curve (AUC) value of 0.699 (~0.70), indicating moderate predictive performance. Based on variable contribution, land cover (65%), cattle density (25%), and NDVI (3%) were identified as the most influential predictors of environmental suitability for LSD. The resulting risk map identified central and northeastern Thailand as the most suitable regions for disease occurrence. These findings provide valuable insights to support risk-based surveillance, improve veterinary resource allocation, and enhance early warning systems for effective LSD prevention and control in Thailand. Full article

Lumpy skin disease virus (LSDV), a transboundary pathogen threatening cattle health in South and Southeast Asia, presents growing challenges for disease control. This study combined serological, molecular, and genomic approaches to investigate LSDV in Barura Upazila, Bangladesh. Serological screening of 424 cattle using a commercial ELISA revealed a high seroprevalence of 55.5% (95% CI: 50.7–60.3), indicating widespread exposure. Although differences were observed by age and breed, no significant associations were found with seropositivity, suggesting broad regional circulation. Real-time PCR confirmed LSDV DNA in all 20 clinically infected animals, with consistent P32 gene amplification. Two samples with low Cq values underwent whole-genome sequencing. The complete genomes of LSDV-L2/2024 and LSDV-L3/2024 showed >99.6% identity with the reference strain LSDV-29, yet carried unique genomic features, including truncated or variant ORFs and immune-related gene differences. Phylogenetic analysis of the DNA polymerase gene revealed distinct clustering: L2/2024 aligned with South Asian isolates, while L3/2024 grouped with strains from Africa, the Middle East, and Europe. These results highlight co-circulation of genetically diverse strains and possible cross-regional introductions. Overall, our findings underscore the evolutionary plasticity of LSDV and the critical need for ongoing genomic surveillance to guide targeted vaccine development and disease control strategies. Full article

Background: Lumpy skin disease (LSD) is major transboundary disease affecting cattle and water buffaloes, indirectly causing huge socio-economic losses. Following its first outbreak in India in 2019, the heterologous Goatpox (Uttarkashi strain) vaccine mitigated LSD. Objective: Due to limited data on the spatiotemporal distribution of the disease, this study investigates its dynamics and presents findings from a field study conducted in Maharashtra, India. This study evaluates the safety, immunogenicity, and duration of immunity provided by a heterologous vaccine. Additionally, it examines post-vaccination responses in relation to factors such as age, gender, and breed. Methods: This study employed spatiotemporal analysis of lumpy skin disease (LSD) outbreaks from 2020 to 2024 using GeoDa (v1.22), incorporating Moran’s I and Getis-Ord Gi* statistics to identify spatial clustering patterns. A randomized field trial was conducted to evaluate vaccine safety and immunogenicity in 657 cattle across seven districts. Humoral immune responses were assessed using the serum neutralization test (SNT) and indirect enzyme-linked immunosorbent assay (ELISA), while cell-mediated immunity was evaluated via Interferon-gamma (IFN-γ) ELISA. For sero-monitoring, a total of 1925 serum samples from 22 districts were analyzed. Additionally, statistical analyses (n = 1925), including the Kappa Index, ANOVA, and logistic regression, were performed using SPSS v27 to investigate the influence of factors such as age, sex, and breed (significance level: p < 0.05). Results: LSD exhibited significant spatial clustering across Maharashtra. The Goatpox vaccine was 100% safe, with no adverse reactions. Protective antibody titers (≥1:8) were observed in 96.9% of vaccinated cattle by 14–21 days post-vaccination (dpv), peaking at 60 dpv before declining at 150 dpv. The cell-mediated immune response peaked at 28 dpv. Clinical monitoring for one year showed that only 2% of vaccinated cattle developed mild LSD symptoms after nine months, with no mortality. At six months post-vaccination, seroconversion was 69.7%, with breed significantly influencing seropositivity. Conclusions: This study confirms the Goatpox vaccine’s safety and strong immunogenicity in cattle, marking its first large-scale evaluation in the Indian subcontinent. Further research is needed to assess long-term immunity and protection against virulent LSD strains. Full article

This study investigates the virulence properties and pathogenetic characteristics of the Kazakhstani strain of LSDV (LSDV KZ-Kostanay-2018) in indigenous cattle under controlled conditions. Twelve non-breed cattle were inoculated intradermally and monitored for clinical, pathological, and immunological responses. Clinical signs, including fever, skin nodules, and lymphadenopathy, emerged as early as day 5 post-infection (pi), with peak severity observed between days 11 and 14. Rapid seroconversion was observed, with 100% of animals showing virus-neutralizing antibodies by day 13. Pathological findings revealed extensive necrosis, thrombosis, and edema, with pronounced damage in the spleen, lungs, and lymph nodes. Histological analyses identified widespread destructive changes in the dermis and systemic tissues, consistent with highly aggressive disease progression. Viral genome and replication were confirmed in blood, skin nodules, and lymph nodes, with peak viral loads between days 11 and 14 pi. These results align with findings in Russian cattle infected with the Saratov/2017 strain but demonstrate more rapid symptom onset and severe pathology, suggesting strain-specific virulence. These findings contribute to a deeper understanding of LSDV pathogenesis and underscore the importance of regional adaptations in disease management. Full article

Antiseptics are essential in infection control within veterinary medicine and are widely used for wound care, dermatological treatments, and disinfection. Growing interest in eco-friendly antiseptics has led to research on natural formulations. The aim of this study is to evaluate the efficacy and safety of natural antiseptic agents in combating pathogenic microorganisms and their use in disinfection. This article presents the results of efficacy testing, particularly focusing on Shozan (anolyte + ozone + shungite), which demonstrated strong bactericidal activity against pathogenic bacteria such as Brucella melitensis, effectively inhibiting their growth across various concentrations and exposure times. In contrast, Shuprozan (anolyte + ozone + shungite + propolis) and Prozan (anolyte + ozone + propolis) did not exhibit significant antibacterial effects. No antiviral activity was detected against the lumpy skin disease virus and foot-and-mouth disease virus, and no fungicidal properties were observed against Trichophyton verrucosum and Histoplasma farciminosum. This study’s results confirm the high efficacy and safety of natural antiseptics. Full article