Your search keyword '"Marek Disease"' showing total 2,031 results

1. Molecular characterization of duck plague virus from selected Haor areas of Bangladesh.

Author

Khan, Kamrul, Islam, Md, Sabuj, Abdullah, Bashar, Md, Hossain, Md, Hossain, Muhammed, Saha, Sukumar, and Saiful Islam, Md

Subjects

Duck embryo, Duck plague virus, Nucleotide sequence, Polymerase chain reaction, Animals, Bangladesh, Base Sequence, DNA-Directed DNA Polymerase, Ducks, Mardivirus, Marek Disease, Phylogeny, Polymerase Chain Reaction, Poultry Diseases, Prevalence, Viral Proteins

Abstract

BACKGROUND: Duck viral enteritis, commonly known as duck plague (DP), is an acute and contagious fatal disease in ducks, geese, and swans caused by the DP virus (DPV). It poses a serious threat to the growth of duck farming in the Haor (wetland) areas of Bangladesh. AIM: This study aimed to detect the circulating DPV by molecular characterization, followed by phylogenetic analysis, targeting the UL30 gene in infected ducks from five Haor districts in Bangladesh and to observe the variation in the genome sequence between the field virus and vaccine strain of DPV. METHODS: A total of 150 samples (liver, 50; intestine, 50; and oropharyngeal tissue, 50) were collected from DP-suspected sick/dead ducks from 50 affected farms in Kishoreganj, Netrokona, B. Baria, Habiganj, and Sunamganj districts in Bangladesh. For the identification of DPV in collected samples, polymerase chain reaction (PCR) was utilized. Nucleotide sequences of the amplified UL30 gene were compared with those of other DPV strains available in GenBank. RESULTS: Of the 150 samples, 90 (60%) were found to be positive for DPV, as confirmed by PCR. Organ-wise prevalence was higher in the liver (72%), followed by the intestine (64%) and oropharyngeal tissue (44%). Regarding areas, the highest and lowest prevalence in the liver and intestine was observed in Habiganj and B. Baria, respectively, whereas the highest and lowest prevalence in the oropharyngeal tissue was observed in B. Baria and Habiganj, respectively. Two isolates, BAU/KA/DPV(B1)/2014 from Kishoreganj and BAU/KA/DPV(B4)/2014 from Sunamganj were sequenced, and phylogenetic analysis revealed that these isolates are evolutionarily closely related to Chinese isolates of DPV. Additionally, the isolates of DPV BAU/KA/DPV(B1)/2014 and BAU/KA/DPV(B4)/2014 showed the highest (98%) similarity to each other. The nucleotide sequence of the isolate BAU/KA/DPV(B1)/2014 exhibited higher nucleotide variability (246 nucleotides) than that of the vaccine strain (accession no. EU082088), which may affect protein function and additional drug sensitivity. CONCLUSION: Based on the findings of the molecular study, it can be assumed that the Bangladeshi isolates and all Chinese isolates of DPV may have a common ancestry.

Published

2021

2. Marek’s disease virus Meq oncoprotein interacts with chicken HDAC 1 and 2 and mediates their degradation via proteasome dependent pathway

Author

Liao, Yifei, Lupiani, Blanca, Izumiya, Yoshihiro, and Reddy, Sanjay M

Subjects

Biochemistry and Cell Biology, Biological Sciences, Cancer, Animals, Chickens, Herpesvirus 2, Gallid, Histone Deacetylase 1, Histone Deacetylase 2, Humans, Kidney Neoplasms, Lymphoma, Marek Disease, Oncogene Proteins, Viral, Poultry Diseases, Proteasome Endopeptidase Complex, Proteolysis

Abstract

Marek's disease virus (MDV) encodes a basic-leucine zipper (BZIP) protein, Meq, which is considered the major MDV oncoprotein. It has been reported that the oncogenicity of Meq is associated with its interaction with C-terminal binding protein 1 (CtBP), which is also an interaction partner of Epstein-Barr virus encoded EBNA3A and EBNA3C oncoproteins. Since both EBNA3C and CtBP interact with histone deacetylase 1 (HDAC1) and HDAC2, we examined whether Meq shares this interaction with chicken HDAC1 (chHDAC1) and chHDAC2. Using confocal microscopy analysis, we show that Meq co-localizes with chHDAC1 and chHDAC2 in the nuclei of MDV lymphoblastoid tumor cells. In addition, immunoprecipitation assays demonstrate that Meq interacts with chHDAC1 and chHDAC2 in transfected cells and MDV lymphoblastoid tumor cells. Using deletion mutants, interaction domains were mapped to the N-terminal dimerization domain of chHDAC1 and chHDAC2, and the BZIP domain of Meq. Our results further demonstrate that this interaction mediates the degradation of chHDAC1 and chHDAC2 via the proteasome dependent pathway. In addition, our results show that Meq also induces the reduction of global ubiquitinated proteins through a proteasome dependent pathway. In conclusion, our results provide evidence that Meq interacts with chHDAC1 and chHDAC2, and induces their proteasome dependent degradation.

Published

2021

3. Role of Marek’s Disease Virus (MDV)-Encoded US3 Serine/Threonine Protein Kinase in Regulating MDV Meq and Cellular CREB Phosphorylation

Author

Liao, Yifei, Lupiani, Blanca, Bajwa, Kanika, Khan, Owais A, Izumiya, Yoshihiro, and Reddy, Sanjay M

Subjects

Veterinary Sciences, Agricultural, Veterinary and Food Sciences, Biological Sciences, Genetics, Infectious Diseases, Biotechnology, 2.1 Biological and endogenous factors, Cancer, Infection, Alphaherpesvirinae, Animals, Cell Line, Cell Transformation, Viral, Chickens, Chromatin Immunoprecipitation, Gene Dosage, Gene Expression Regulation, Viral, HEK293 Cells, Herpesvirus 2, Gallid, Humans, Marek Disease, Phosphorylation, Poultry, Promoter Regions, Genetic, Protein Serine-Threonine Kinases, Signal Transduction, Transfection, Viral Proteins, CREB, Marek's disease virus, Meq, US3 protein kinase, herpesviruses, transcription regulation, Marek’s disease virus, Agricultural and Veterinary Sciences, Medical and Health Sciences, Virology, Agricultural, veterinary and food sciences, Biological sciences, Biomedical and clinical sciences

Abstract

Marek's disease (MD) is a neoplastic disease of chickens caused by Marek's disease virus (MDV), a member of the subfamily Alphaherpesvirinae Like other alphaherpesviruses, MDV encodes a serine/threonine protein kinase, US3. The functions of US3 have been extensively studied in other alphaherpesviruses; however, the biological functions of MDV US3 and its substrates have not been studied in detail. In this study, we investigated potential cellular pathways that are regulated by MDV US3 and identified chicken CREB (chCREB) as a substrate of MDV US3. We show that wild-type MDV US3, but not kinase-dead US3 (US3-K220A), increases CREB phosphorylation, leading to recruitment of phospho-CREB (pCREB) to the promoter of the CREB-responsive gene and activation of CREB target gene expression. Using US3 deletion and US3 kinase-dead recombinant MDV, we identified US3-responsive MDV genes during infection and found that the majority of US3-responsive genes were located in the MDV repeat regions. Chromatin immunoprecipitation sequencing (ChIP-seq) studies determined that some US3-regulated genes colocalized with Meq (an MDV-encoded oncoprotein) recruitment sites. Chromatin immunoprecipitation-PCR (ChIP-PCR) further confirmed Meq binding to the ICP4/LAT region, which is also regulated by US3. Furthermore, biochemical studies demonstrated that MDV US3 interacts with Meq in transfected cells and MDV-infected chicken embryonic fibroblasts in a phosphorylation-dependent manner. Finally, in vitro kinase studies revealed that Meq is a US3 substrate. MDV US3 thus acts as an upstream kinase of the CREB signaling pathway to regulate the transcription function of the CREB/Meq heterodimer, which targets cellular and viral gene expression.IMPORTANCE MDV is a potent oncogenic herpesvirus that induces T-cell lymphoma in infected chickens. Marek's disease continues to have a significant economic impact on the poultry industry worldwide. US3 encoded by alphaherpesviruses is a multifunctional kinase involved in the regulation of various cellular pathways. Using an MDV genome quantitative reverse transcriptase PCR (qRT-PCR) array and chromatin immunoprecipitation, we elucidated the role of MDV US3 in viral and cellular gene regulation. Our results provide insights into how viral kinase regulates host cell signaling pathways to activate both viral and host gene expression. This is an important step toward understanding host-pathogen interaction through activation of signaling cascades.

Published

2020

4. Justus-Liebig-University Giessen Reports Findings in Marek Disease [Marek's Disease in a Flock of Japanese Quails (Coturnix japonica) in Germany].

Subjects

MAREK'S disease, JAPANESE quail, ANIMAL diseases, AUTOPSY, REPORTERS & reporting

Abstract

A recent study conducted at Justus-Liebig-University Giessen in Germany investigated Marek's Disease in a flock of Japanese quails. The research found that the quails exhibited symptoms such as diarrhea, emaciation, and ocular lesions, with postmortem examinations revealing malignant lymphoma caused by Marek's disease. The study implemented a control strategy involving vaccination, which successfully returned the losses and laying rates to normal. This peer-reviewed research provides valuable insights into managing Marek's Disease in quails and was published in Avian Diseases. [Extracted from the article]

Published

2024

5. Study Findings on Marek Disease Reported by Researchers at Mississippi State University (Ross 708 broiler small intestine morphology and immunity improvements in response to in ovo Marek's Disease vaccine administration alone or in conjunction...).

Subjects

MAREK'S disease, ANIMAL diseases, CHOLECALCIFEROL, SMALL intestine, REPORTERS & reporting

Abstract

A recent study conducted by researchers at Mississippi State University investigated the effects of the Marek's Disease vaccine (MDV) on the immune system and small intestine morphology of Ross 708 broilers. The study examined the responses of broilers to the MDV administered alone or in conjunction with the in ovo and dietary administration of calcifediol (25OHD3). The results showed that both dietary and in ovo administration of 25OHD3 improved the small intestine morphology and lowered inflammatory reactions in broilers that were in ovo-injected with the MDV. This research provides valuable insights into the potential benefits of supplementing broiler diets with 25OHD3 to enhance immune responses and intestinal health. [Extracted from the article]

Published

2024

6. Chinese Academy of Agricultural Sciences Reports Findings in Influenza A Virus (Recombinant Marek's disease virus type 1 provides full protection against H9N2 influenza A virus in chickens).

Subjects

RNA virus infections, ANIMAL disease control, AVIAN influenza A virus, VIRUS diseases, AVIAN influenza, BIRDS

Abstract

A recent study conducted by the Chinese Academy of Agricultural Sciences in Harbin, China, has found that a recombinant Marek's disease virus (MDV) can provide full protection against the H9N2 subtype of avian influenza virus (AIV) in chickens. The researchers constructed two recombinant MDV strains that carried the hemagglutinin (HA) gene of AIV, which is responsible for the virus's ability to infect cells. The study showed that one of the recombinant MDV strains, rMDV-UL41/HA, provided complete protection against both H9N2 AIV and MDV in chickens. This research suggests that rMDV-UL41/HA could be a promising bivalent vaccine for both avian influenza and Marek's disease in chickens. [Extracted from the article]

Published

2024

7. Development of monoclonal antibodies specific to Marek disease virus- Eco RI-Q (Meq) for the immunohistochemical diagnosis of Marek disease using formalin-fixed, paraffin-embedded samples.

Author

Kurokawa, Aoi and Yamamoto, Yu

Subjects

DIAGNOSIS, VIRAL proteins, VIRUS diseases, MONOCLONAL antibodies, ANTIGENS, SENSITIVITY & specificity (Statistics)

Abstract

Marek disease (MD) is a viral disease characterized by the development of lymphoma in poultry. Although morphologic confirmation of lymphoma is used to diagnose MD, immunohistochemical detection of MD virus- Eco RI-Q (Meq), which is a viral protein that is expressed exclusively in MD tumor cells, would further improve the accuracy of diagnosis. We developed monoclonal antibodies (mAbs) that specifically detect Meq by immunohistochemistry (IHC) using formalin-fixed, paraffin-embedded (FFPE) sections. We evaluated the sensitivity and specificity of 14 mAbs that we produced, using FFPE samples of MDCC-MSB1 cells, MD tumor tissues, and tissues of uninfected chickens. Four different antigen retrieval conditions were investigated. Thirteen mAbs reacted with Meq in FFPE sections, but immunohistochemical reactivity and specificity varied depending on the mAb and antigen retrieval condition; heat-induced antigen retrieval (HIAR) was more effective at detecting Meq than the other tested conditions. HIAR pH 9 tended to increase immunoreactivity and decrease specificity. Of the 5 mAbs that immunoreacted strongly with Meq without nonspecific reactions under the optimal antigen retrieval conditions, 3 mAbs (1C1-121, 3A3-112, 5F7-82) did not produce background staining of tumor or non-tumor tissues; 2 mAbs (2C5-11, 4A5-54) produced background staining. The mAb 6B5-128 reacted moderately with Meq without nonspecific reactions and background staining. The remaining mAbs showed weak immunoreactivity or problematic nonspecific reactions. Our results suggest that some of our developed mAbs can be used in IHC to detect Meq in FFPE sections with high specificity, and that the use of IHC may greatly improve the diagnosis of MD. [ABSTRACT FROM AUTHOR]

Published

2022

8. What Is Your Diagnosis?

Author

Murthy, Vishal, Laniesse, Delphine, Beaufrere, Hugues, James, Fiona, Egan, Rebecca, and Smith, Dale

Subjects

Veterinary Sciences, Agricultural, Veterinary and Food Sciences, Zoology, Biological Sciences, Animals, Chickens, Male, Marek Disease, Neuritis, Poultry Diseases, Ecology, Veterinary sciences

Published

2016

9. What Is Your Diagnosis? Peripheral neuritis secondary to Marek's disease.

Subjects

Animals, Chickens, Marek Disease, Neuritis, Poultry Diseases, Male, Ecology, Veterinary Sciences

Published

2016

10. Virus and host genomic, molecular, and cellular interactions during Marek's disease pathogenesis and oncogenesis

Author

McPherson, MC and Delany, ME

Subjects

Veterinary Sciences, Agricultural, Veterinary and Food Sciences, Biotechnology, Genetics, Human Genome, Rare Diseases, 2.2 Factors relating to the physical environment, Aetiology, 2.1 Biological and endogenous factors, Infection, Animals, Carcinogenesis, Mardivirus, Marek Disease, Models, Biological, Phylogeny, Poultry Diseases, chicken, genome integration, Marek's disease, fluorescence in situ hybridization, telomere, Microbiology, Animal Production, Food Sciences, Dairy & Animal Science, Animal production, Food sciences, Veterinary sciences

Abstract

Marek's Disease Virus (MDV) is a chicken alphaherpesvirus that causes paralysis, chronic wasting, blindness, and fatal lymphoma development in infected, susceptible host birds. This disease and its protective vaccines are highly relevant research targets, given their enormous impact within the poultry industry. Further, Marek's disease (MD) serves as a valuable model for the investigation of oncogenic viruses and herpesvirus patterns of viral latency and persistence--as pertinent to human health as to poultry health. The objectives of this article are to review MDV interactions with its host from a variety of genomic, molecular, and cellular perspectives. In particular, we focus on cytogenetic studies, which precisely assess the physical status of the MDV genome in the context of the chicken host genome. Combined, the cytogenetic and genomic research indicates that MDV-host genome interactions, specifically integration of the virus into the host telomeres, is a key feature of the virus life cycle, contributing to the viral achievement of latency, transformation, and reactivation of lytic replication. We present a model that outlines the variety of virus-host interactions, at the multiple levels, and with regard to the disease states.

Published

2016

11. University of Tehran Reports Findings in Marek Disease (Marek's Disease Virus in Commercial Turkey Flocks, Iran).

Subjects

MAREK'S disease, ANIMAL diseases, CHICKEN diseases, VETERINARY medicine, REPORTERS & reporting, BIRDS

Abstract

New research conducted by the University of Tehran in Iran has found that Marek's disease virus (MDV) has been detected in commercial turkey flocks in Iran for the first time. Marek's disease is a significant illness in chickens and poses a potential threat to the poultry industry worldwide. MDV causes immunosuppression and lymphoproliferative disease in chickens, but tumors caused by MDV in turkeys are unique. Further assays, including experimental inoculation, are needed to demonstrate the pathotype characteristics of MDV in turkey flocks. [Extracted from the article]

Published

2024

12. Patent Application Titled "Recombinant Hvt Vectors Expressing Influenza Hemagglutinin And Immunogenic Compositions, And Production And Uses Thereof" Published Online (USPTO 20240252624).

Subjects

RNA virus infections, INFECTIOUS bursal disease virus, INFLUENZA A virus, H5N1 subtype, NEWCASTLE disease virus, MAREK'S disease, GENETIC vectors, BIRDS, GENE targeting, PARAMYXOVIRUSES

Abstract

The patent application titled "Recombinant Hvt Vectors Expressing Influenza Hemagglutinin And Immunogenic Compositions, And Production And Uses Thereof" discusses the use of recombinant vaccines to protect avian animals, specifically chickens, from diseases like Newcastle disease, infectious bronchitis, and avian influenza. The inventors propose the use of HVT vectors, derived from the herpesvirus of turkeys, to express antigens from various pathogens and stimulate an immune response. The application also addresses the challenges of developing a broadly protective H5 influenza A vaccine due to the genetic and antigenic diversity of the virus. The patent application provides detailed information on the specific nucleic acid sequences, antigens, and methods used in the invention. [Extracted from the article]

Published

2024

13. China Agricultural University Reports Findings in Marek Disease (circRUNX2.2, highly expressed in Marek's disease tumor tissues, functions in cis to regulate parental gene RUNX2 expression).

Subjects

MAREK'S disease, TRANSCRIPTION factors, GENE expression, ANIMAL diseases, ANIMAL genetics

Abstract

New research from China Agricultural University explores the role of circular RNAs (circRNAs) in Marek's disease (MD), an immunosuppression disease in poultry caused by the Marek's disease virus (MDV). The study identifies a circRNA called circRUNX2.2, which is highly expressed in chicken tumorous spleens induced by MDV. The researchers found that circRUNX2.2 promotes the expression of the parental gene RUNX2 by binding to its promoter region. Functional experiments also suggest that circRUNX2.2 may play a role in tumor development. The findings contribute to a better understanding of MD and its potential treatment options. [Extracted from the article]

Published

2024

14. Researchers from Pennsylvania State University (Penn State) Detail New Studies and Findings in the Area of Marek Disease (Comparative Analysis of Multiple Consensus Genomes of the Same Strain of Marek's Disease Virus Reveals Intrastrain...).

Subjects

MAREK'S disease, ANIMAL diseases, REPORTERS & reporting, LIFE sciences, SINGLE nucleotide polymorphisms

Abstract

New research from Pennsylvania State University (Penn State) explores the genomic variation within the Marek's disease virus (MDV). The study found that relying on a single published consensus genome of the vaccine strain CVI988 may have led to an overestimation of genomic divergence between CVI988 and virulent strains. The researchers recommend using multiple consensus genomes per strain to ensure the accuracy of interstrain genomic comparisons. This research provides valuable insights into the molecular basis of Marek's disease and highlights the need for further investigation in this area. [Extracted from the article]

Published

2024

15. New Interleukin-15 Study Results from U.S. Department of Agriculture (USDA) Described (Efficacy of Recombinant Marek's Disease Virus Vaccine 301b/1 Expressing Membrane-anchored Chicken Interleukin-15).

Published

2024

16. Data on Marek Disease Reported by Jun Luo and Colleagues (Viral miRNA delivered by exosomes from Marek's disease virus-transformed lymphoma cell line exerts regulatory function in internalized primary chicken embryo fibroblast cells).

Subjects

MAREK'S disease, CHICKEN embryos, EXOSOMES, CELL lines, REPORTING of diseases

Abstract

A recent report from Surrey, United Kingdom discusses the role of exosomes in Marek's disease, an avian herpesvirus infection. The research highlights the regulatory function of viral miRNA delivered by exosomes from a Marek's disease virus-transformed lymphoma cell line. The study demonstrates that these exosomes can successfully deliver functional miRNA into primary chicken embryo fibroblasts. These findings provide new insights into the mechanisms of viral replication, pathogenesis, and tumorigenesis in Marek's disease. [Extracted from the article]

Published

2024

17. Researchers from Huanghuai University Describe Research in Marek Disease (Immune escape of avian oncogenic Marek's disease herpesvirus and antagonistic host immune responses).

Subjects

MAREK'S disease, HERPESVIRUS diseases, RESEARCH personnel, PAPILLOMAVIRUSES, IMMUNE response, BIRDS, UNIVERSITY research

Abstract

Researchers from Huanghuai University have conducted a study on Marek's disease, a highly pathogenic and oncogenic alpha herpesvirus that affects poultry. The researchers focused on the strategies used by the virus to evade host immunity and attack the immune system, as well as the decrease in the effectiveness of current vaccines. They also discussed the prospects, strategies, and new techniques for the development of more efficient vaccines and the possibilities of antiviral therapy. The study provides valuable insights into the disease and its implications for poultry health. [Extracted from the article]

Published

2024

18. Reports on Marek Disease from Mississippi State University Provide New Insights (Effects of the Marek's Disease Vaccine On the Performance, Meat Yield, and Incidence of Woody Breast Myopathy In Ross 708 Broilers When Administered Alone or In...).

Subjects

MAREK'S disease, REPORTING of diseases, STATE universities & colleges, MUSCLE diseases, ANIMAL diseases

Abstract

A report from Mississippi State University discusses the effects of the Marek's disease vaccine on the performance, meat yield, and incidence of woody breast myopathy in Ross 708 broilers. The study investigated the effects of the vaccine when administered alone or in conjunction with in ovo and dietary supplemental 25-hydroxycholecalciferol. The research found that in ovo 25-hydroxycholecalciferol supplementation improved body weight, body weight gain, and feed conversion ratio in the broilers. Additionally, breast meat yield increased in response to in ovo and dietary 25-hydroxycholecalciferol supplementation. Further research is needed to determine the reasons behind these improvements. [Extracted from the article]

Published

2024

19. National Pingtung University of Science and Technology Reports Findings in Marek Disease (Circulating hypervirulent Marek's disease viruses in vaccinated chicken flocks in Taiwan by genetic analysis of meq oncogene).

Subjects

MAREK'S disease, SCIENCE journalism, CHICKENS, VIRUS diseases, VACCINATION, BIRDS, CIRCULATING tumor DNA

Abstract

A report from the National Pingtung University of Science and Technology in Taiwan reveals the presence of hypervirulent Marek's disease viruses in vaccinated chicken flocks in the country. Marek's disease is a neoplastic disease caused by serotype 1 Marek's disease virus (MDV-1) and has significant economic implications. The study analyzed the genetic characteristics of 18 MDV-1 strains obtained from vaccinated chicken flocks in Taiwan and found that the strains showed high similarity with strains from countries in the East Asian region. The research emphasizes the importance of routine surveillance and precaution strategies to address the emergence of enhanced virulent MDV-1. [Extracted from the article]

Published

2024

20. Mansoura University Reports Findings in Reticuloendotheliosis Virus (Molecular characterization of Marek's Disease virus reveals reticuloendotheliosis virus-long terminal repeat integration in the genome of the field isolates in Egypt).

Subjects

MAREK'S disease, VIRUS diseases, MOLECULAR virology, FLUORESCENT antibody technique, ONCOGENIC viruses, RNA virus infections, BIRDS

Abstract

A recent study conducted by Mansoura University in Egypt focused on the molecular characterization of Marek's Disease virus (MDV) and its integration with reticuloendotheliosis virus (REV) in the genomes of field isolates in Egypt. The researchers collected 180 samples from chicken farms suspected to be infected with MDV and used various techniques to identify and characterize the virus. The results showed a high prevalence of MDV in the samples, with a genetic similarity to MDVs circulating in Ethiopia, China, and India. The study also identified REV-LTR insertions in the genomes of some MDV field isolates, which may have implications for MDV pathogenesis and vaccination protection. Further research is needed to explore these effects. [Extracted from the article]

Published

2024

21. Complutense University of Madrid Reports Findings in Poultry Farming (Molecular characterization of the meq oncogene of Marek's disease virus in vaccinated Brazilian poultry farms reveals selective pressure on prevalent strains).

Subjects

MAREK'S disease, POULTRY farms, POULTRY farming, VIRUS diseases, ONCOGENES

Abstract

New research from the Complutense University of Madrid examines the molecular characterization of the meq oncogene of Marek's disease virus (MDV) in vaccinated Brazilian poultry farms. Despite vaccination efforts, MDV has become increasingly virulent in the poultry industry, with Brazil experiencing a rise in MD outbreaks. The study found a high incidence rate of MD and multiple circulating MDV strains, with the most prevalent strain showing characteristics of a highly virulent strain and evolving under positive selective pressure. The study emphasizes the need for preventive measures to manage MDV outbreaks in the poultry farming industry. [Extracted from the article]

Published

2024

22. Investigators from Mississippi State University Report New Data on Vaccines (In Ovo Administration of the Marek's Disease Vaccine In Conjunction With 25-hydroxyvitamin D3 and Its Subsequent Effects On the Performance and Immunity-related...).

Abstract

A recent study conducted by investigators from Mississippi State University examined the effects of in ovo injection of the Marek's disease vaccine (MDV) in combination with different levels of 25-hydroxyvitamin D3 (25OHD3) on the performance and immunity-related characteristics of Ross 708 broiler hatchlings. The study found that hatchling body weight was higher when MDV was combined with either 1.2 or 2.4 mg of 25OHD3 compared to when MDV was provided alone or in combination with 0.6 mg of 25OHD3. Additionally, the expression of certain genes related to immunity and vitamin D3 activity was improved when MDV was combined with the higher doses of 25OHD3. Further research is needed to determine the posthatch effects of this combination. [Extracted from the article]

Published

2024

23. RIOK3-Mediated Akt phosphorylation facilitates synergistic replication of Marek’s disease and reticuloendotheliosis viruses

Author

Xusheng Du, Defang Zhou, Jing Zhou, Jingwen Xue, and Ziqiang Cheng

Subjects

Microbiology (medical), Reticuloendotheliosis virus, Coinfection, Immunology, Genetic Diseases, X-Linked, Protein Serine-Threonine Kinases, Virus Replication, Microbiology, Phosphatidylinositol 3-Kinases, Infectious Diseases, Marek Disease, Animals, Humans, Severe Combined Immunodeficiency, Parasitology, Phosphorylation, Chickens, Herpesvirus 2, Gallid, Proto-Oncogene Proteins c-akt

Abstract

Co-infection of Marek's disease virus (MDV) and reticuloendotheliosis virus (REV) synergistically drives disease progression, yet little is known about the mechanism of the synergism. Here, we found that co-infection of REV and MDV increased their replication via the RIOK3-Akt pathway. Initially, we noticed that the viral titres of MDV and REV significantly increased in REV and MDV co-infected cells compared with single-infected cells. Furthermore, tandem mass tag peptide labelling coupled with LC/MS analysis showed that Akt was upregulated in REV and MDV co-infected cells. Overexpression of Akt promoted synergistic replication of MDV and REV. Conversely, inhibition of Akt suppressed synergistic replication of MDV and REV. However, PI3K inhibition did not affect synergistic replication of MDV and REV, suggesting that the PI3K/Akt pathway is not involved in the synergism of MDV and REV. In addition, we revealed that RIOK3 was recruited to regulate Akt in REV and MDV co-infected cells. Moreover, wild-type RIOK3, but not kinase-dead RIOK3, mediated Akt phosphorylation and promoted synergistic replication of MDV and REV. Our results illustrate that MDV and REV activated a novel RIOK3-Akt signalling pathway to facilitate their synergistic replication.

Published

2022

24. Marek's Disease in an Indian Peafowl (Pavo cristatus) with Clinical Ocular Disease and Paraparesis

Author

Liam A. Wilson, Martyn Lewis, Susan J. Baigent, Valerie Abate, Brooke A. Dolega, Linda R. Morrison, Christopher Poulos, and David Walker

Subjects

Eye Diseases, Paraparesis, General Veterinary, Marek Disease, Animals, Chickens, Herpesvirus 2, Gallid, Poultry Diseases, Pathology and Forensic Medicine

Abstract

Marek's disease (MD) is caused by virulent strains of Gallid alphaherpesvirus type 2 (MD virus serotype 1; MDV 1) and frequently causes a lymphoproliferative disorder in poultry and other galliform birds worldwide. However, within the peafowl (Phasianinae) subfamily, there are only rare confirmed reports of MD. Here we report MD in an Indian peafowl (Pavo cristatus), which clinically presented with hindlimb paraparesis and intraocular swelling of the right eye. Soft, off-white to tan masses within the right eye, sciatic nerves and coelomic cavity were identified at post-mortem examination which effaced the cranial pole of the kidneys and diffusely effaced the testes. Lymphoid neoplasia was identified histologically at all of these sites and there was extensive hepatic lymphoid cell infiltration, which had not been grossly evident. The T-cell origin of the lymphoid cells was confirmed by immunohistochemistry for CD3 antigen. A virulent strain of MDV 1 was detected by real-time polymerase chain reaction in DNA samples extracted from the kidney and testes. As MD is rare in peafowl it should be considered as a differential diagnosis for intraocular and coelomic masses with associated clinical signs.

Published

2022

25. Virulence evaluation of Israeli Marek's disease virus isolates from commercial poultry using their meq gene sequence.

Author

Davidson I, Lupini C, Catelli E, Quaglia G, Maddaloni L, and Mescolini G

Subjects

Animals, Poultry, Israel, Virulence genetics, Phylogeny, Chickens, Proline genetics, Marek Disease, Oncogene Proteins, Viral genetics, Herpesvirus 2, Gallid genetics, Poultry Diseases

Abstract

Fifty-seven Gallid alphaherpesvirus 2 (GaHV-2) isolates, collected during a 30-year period (1990-2019) from commercial poultry flocks affected by Marek's disease (MD), were molecularly characterised. The GaHV-2 meq gene was amplified and sequenced to evaluate the virus virulence, based on the number of PPPPs within the proline-rich repeats (PRRs) of its transactivation domain. The present illustration of virus virulence evaluation on a large scale of field virus isolates by molecular analysis exemplifies the practical benefit and usefulness of the molecular marker in commercial GaVH-2 isolates. The alternative assay of GaVH-2 virulence pathotyping is the classical Gold Standard ADOL method, which is difficult and impossible to employ on a large scale using the Specific Pathogen Free (SPF) chicks of the ADOL strains kept in isolators for two months. The phylogenetic analysis performed in the present study showed that the meq gene amino acid sequences of the 57 Israeli strains divide into 16 phylogenetic branches. The virulence evaluation was performed in comparison with 36 GaHV-2 prototype strains, previously characterised by the in vivo Gold Standard ADOL assay. The results obtained revealed that the GaHV-2 strains circulating in Israel have evolved into a higher virulence potential during the years, as the four-proline stretches number in the meq gene decreased over the investigated period, typically of very virulent virus prototypes. The present study supports the meq gene molecular markers for the assessment of field GaVH-2 strains virulence., (© 2024. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2024

26. Immunoglobulin-like receptors in chickens: identification, functional characterization, and renaming to cluster homolog of immunoglobulin-like receptors.

Author

Sparling BA, Ng TT, Carlo-Allende A, McCarthy FM, Taylor RL Jr, and Drechsler Y

Subjects

Animals, Genome, Phylogeny, Immunoglobulins genetics, Chickens genetics, Marek Disease

Abstract

The cluster homolog of immunoglobulin-like receptors (CHIRs), previously known as the "chicken homolog of immunogloublin-like receptors," represents is a large group of transmembrane glycoproteins that direct the immune response. However, the full repertoire of putatively activating, inhibitory, or dual function CHIRA, CHIRB, and CHIRAB on chickens' immune responses is poorly understood. Herein, the study objective was to determine the genes encoding CHIR proteins and predict their function by searching canonical protein structure. A bioinformatics pipeline based on previous work was employed to search for the CHIRs from the newly updated broiler and layer genomes. The categorization into CHIRA, CHIRB, and CHIRAB types was assigned through motif searches, multiple sequence alignment, and phylogeny. In total, 150 protein-encoding genes on Chromosome 31 were identified as CHIRs. Gene members of each functional group (CHIRA, CHIRB, CHIRAB) were classified in accordance with previously recognized proteins. The genes were renamed to "cluster homolog of immunoglobulin-like receptors" (CHIRs) to allow for the naming of orthologous genes in other avian species. Additionally, expression analysis of the classified CHIRs across various reinforces their importance as immune regulators and activation in inflammatory tissues. Furthermore, over 1,000 diverse and rare CHIRs variants associated with differential Marek's disease response (P < 0.05) emphasize the impact of CHIRs on shaping avian immune responses in diverse contexts. The practical applications of these findings encompass advancing immunology, improving poultry health management, optimizing breeding programs for disease resistance, and enhancing overall animal health through a deeper understanding of the roles and functions of CHIRA, CHIRB, and CHIRAB types in avian immune responses., (Copyright © 2023 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2024

27. Efficacy and tolerability of an mRNA vaccine expressing gB and pp38 antigens of Marek's disease virus in chickens.

Author

Fazel F, Matsuyama-Kato A, Alizadeh M, Boodhoo N, and Sharif S

Subjects

Animals, Chickens, mRNA Vaccines, Marek Disease, Herpesvirus 2, Gallid genetics, Neoplasms

Abstract

Marek's disease is a contagious proliferative disease of chickens caused by an alphaherpesvirus called Marek's disease virus. A bivalent mRNA vaccine encoding MDV's glycoprotein-B and phosphoprotein-38 antigens was synthesized and encapsulated in lipid nanoparticles. Tumor incidence, lesion score, organ weight indices, MDV genome load and cytokine expression were used to evaluate protection and immunostimulatory effects of the tested mRNA vaccine after two challenge trials. Results from the first trial showed decreased tumor incidence and a reduction in average lesion scores in chickens that received the booster dose. The second trial demonstrated that vaccination with the higher dose of the vaccine (10 μg) significantly decreased tumor incidence, average lesion scores, bursal atrophy, and MDV load in feather tips when compared to the controls. Changes in expression of type I and II interferons suggested a possible role for these cytokines in initiation and maintenance of the vaccine-originated immune responses., Competing Interests: Declaration of competing interest Authors declare no financial conflict of interest., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published

2024

28. Splenic proteome profiling in response to Marek's disease virus strain GX0101 infection.

Author

Wang C, Liu Y, Yang Y, Teng M, Wan X, Wu Z, and Zhang Z

Subjects

Animals, Chick Embryo, Proteome, Phosphatidylinositol 3-Kinases, Proteomics, Chickens, Spleen, Marek Disease

Abstract

Marek's disease virus (MDV) strain GX0101 was the first reported field strain of recombinant gallid herpesvirus type 2 (GaHV-2). However, the splenic proteome of MDV-infected chickens remains unclear. In this study, a total of 28 1-day-old SPF chickens were intraperitoneally injected with chicken embryo fibroblast (CEF) containing 2000 PFU GX0101. Additionally, a control group, consisting of four one-day-old SPF chickens, received intraperitoneal equal doses of CEF. Blood and various tissue samples were collected at different intervals (7, 14, 21, 30, 45, 60, and 90 days post-infection; dpi) for histopathological, real-time PCR, and label-free quantitative analyses. The results showed that the serum expressions of MDV-related genes, meq and gB, peaked at 45 dpi. The heart, liver, and spleen were dissected at 30 and 45 dpi, and their hematoxylin-eosin staining indicated that virus infection compromised the normal organizational structure at 45 dpi. Particularly, the spleen structure was severely damaged, and the lymphocytes in the white medulla were significantly reduced. Furthermore, liquid chromatography-mass spectrometry (LC-MS) and label-free techniques were used to analyze the difference in splenic proteome profiles of the experimental and control groups at 30 and 45 dpi. Proteomic analysis identified 1660 and 1244 differentially expressed proteins (DEPs) at 30 and 40 dpi, respectively, compared with the uninfected spleen tissues. According to GO analysis, these DEPs were involved in processes such as organelle organization, cellular component biogenesis, cellular component assembly, anion binding, small molecule binding, metal ion binding, cation binding, cytosol, nuclear part, etc. Additionally, KEGG analysis indicated that the following pathways were linked to MDV-induced inflammation, apoptosis, and tumor: Wnt, Hippo, AMPK, cAMP, Notch, TGF-β, PI3K-Akt, Rap1, Ras, Calcium, NF-κB, PPAR, cGMP-PKG, Apoptosis, VEGF, mTOR, FoxO, TNF, JAK-STAT, MAPK, Prion disease, T cell receptor, and B cell receptor. We finally screened 674 DEPs that were linked to MDV infection in spleen tissue. This study improves our understanding of the MDV response mechanism in the spleen., (© 2023. The Author(s).)

Published

2024

29. The genome evolution of Marek's disease viruses in chickens and turkeys in China.

Author

Li W, Meng H, Liang X, Peng J, Irwin DM, Shen X, and Shen Y

Subjects

Humans, Animals, Chickens, Phylogeny, Turkeys, Evolution, Molecular, Marek Disease, Herpesvirus 2, Gallid genetics, Vaccines, Poultry Diseases

Abstract

The virus that causes Marek's disease (MD) is globally ubiquitous in chickens, continuously evolving, and poses a significant threat to the poultry industry. Although vaccines are extensively used, MD still occurs frequently and the virus has evolved increased virulence in China. Here, we report an outbreak of MD in vaccinated chickens and unvaccinated turkeys in a backyard farm in Guangdong province, China, in 2018. Phylogenetic analysis revealed two lineages of MDVs at this farm, with one lineage, containing isolates from two turkeys and five chickens, clustering with virulent Chinese strains and displays a relatively high genetic divergence from the vaccine strains. These new isolates appear to have broken through vaccine immunity, yielding this outbreak of MD in chickens and turkeys. The second lineage included four chicken isolates that clustered with the CVI988 and 814 vaccine strains. The large diversity of MDVs in this single outbreak reveals a complex circulation of MDVs in China. Poor breeding conditions and the weak application of disease prevention and control measures make backyard farms a hotbed for the evolution of viruses that cause infectious diseases. This is especially important in MDV as the MD vaccines do not provide sterilizing immunity, which allows the replication and shedding of virulent field viruses by vaccinated individuals and supporting the continuous evolution of MDVs. Hence, constant monitoring of the evolution of MDVs is necessary to understand the evolution of these field viruses and potential expansions of their host range., (© 2023. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2023

30. Transgenerational epigenetic inheritance and immunity in chickens that vary in Marek's disease resistance.

Author

He Y, Taylor RL Jr, Bai H, Ashwell CM, Zhao K, Li Y, Sun G, Zhang H, and Song J

Subjects

Animals, Sheep, Chickens, Disease Resistance genetics, Disease Susceptibility veterinary, Epigenesis, Genetic, Marek Disease, Herpesvirus 2, Gallid, Sheep Diseases genetics

Abstract

Marek's disease virus (MDV), a naturally oncogenic, highly contagious alpha herpesvirus, induces a T cell lymphoma in chickens that causes severe economic loss. Marek's disease (MD) outcome in an individual is attributed to genetic and environmental factors. Further investigation of the host-virus interaction mechanisms that impact MD resistance is needed to achieve greater MD control. This study analyzed genome-wide DNA methylation patterns in 2 highly inbred parental lines 6 3 and 7 2 and 5 recombinant congenic strains (RCS) C, L, M, N, and X strains from those parents. Lines 6 3 and 7 2 , are MD resistant and susceptible, respectively, whereas the RCS have different combinations of 87.5% Line 6 3 and 12.5% Line 7 2 . Our DNA methylation cluster showed a strong association with MD incidence. Differentially methylated regions (DMRs) between the parental lines and the 5 RCS were captured. MD-resistant and MD-susceptible markers of DNA methylation were identified as transgenerational epigenetic inheritable. In addition, the growth of v-src DNA tumors and antibody response against sheep red blood cells differed among the 2 parental lines and the RCS. Overall, our results provide very solid evidence that DNA methylation patterns are transgenerational epigenetic inheritance (TEI) in chickens and also play a vital role in MD tumorigenesis and other immune responses; the specific methylated regions may be important modulators of general immunity., (Copyright © 2023 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2023

31. Molecular characterization and phylogenetic analysis of Marek's disease virus in chickens from Ogun State, Nigeria.

Author

Oluwayinka EB, Otesile EB, Oni OO, Ajayi OL, and Dunn JR

Subjects

Animals, Chickens, Phylogeny, Nigeria epidemiology, Poultry, Proline genetics, Oncogene Proteins, Viral, Marek Disease, Herpesvirus 2, Gallid genetics, Poultry Diseases epidemiology

Abstract

Marek's disease (MD) is caused by oncogenic MD virus serotype 1 (MDV1) and is characterized by lymphoproliferative lesions resulting in high morbidity and mortality in chickens. Despite being ubiquitous on poultry farms, there is a dearth of information on its molecular characteristics in Nigeria. This study aimed at characterizing three virulence genes ( Meq, pp38, and vIL-8 ) of MDV1 from chickens in Ogun state, Nigeria. Blood, feather quill, and tumour samples of chickens from different commercial poultry farms in Ogun State were pooled, spotted on 107 FTA cards, and screened for MDV1 by polymerase chain reaction (PCR). Phylogenetic analysis was carried out to compare Nigerian MDV1 Meq , pp38, and vIL-8 genes sequences with the published references. Thirteen samples were MDV1-positive and the Meq , as well as pp38, and vIL-8 genes from the different samples were 100% identical. The Meq genes contained 339 amino acids (aa) with three PPPP motifs in the transactivation domain and two interruptions of the PPPP motifs due to proline-to-arginine substitutions at positions 176 and 217 resulting in a 20.88% proline composition. Phylogenetic analysis revealed that the Meq gene clustered with strains from Egypt and very virulent ATE2539 strain from Hungary. Mutations were observed in the pp38 protein (at positions 107 and 109) and vIL-8 protein (at positions 4 and 31). Based on the molecular analysis of the three genes, the results indicate the presence of MDV1 with virulence signatures; therefore, further studies on in vivo pathotyping of Nigerian MDV1 from all states should be performed. RESEARCH HIGHLIGHTS Meq, pp38 and vIL-8 genes were 100% identical between Nigerian MDV strains.Proline content in Nigerian meq gene was 20.88% with two PPPP motifs interruptions. Meq, pp38 and vIL-8 genes of Nigerian MDV were similar to Egyptian and Indian strains.

Published

2023

32. Development of monoclonal antibodies specific to Marek disease virus

Author

Aoi, Kurokawa and Yu, Yamamoto

Subjects

Paraffin Embedding, Formaldehyde, Marek Disease, Animals, Antibodies, Monoclonal, Full Scientific Reports, Chickens, Herpesvirus 2, Gallid

Abstract

Marek disease (MD) is a viral disease characterized by the development of lymphoma in poultry. Although morphologic confirmation of lymphoma is used to diagnose MD, immunohistochemical detection of MD virus-EcoRI-Q (Meq), which is a viral protein that is expressed exclusively in MD tumor cells, would further improve the accuracy of diagnosis. We developed monoclonal antibodies (mAbs) that specifically detect Meq by immunohistochemistry (IHC) using formalin-fixed, paraffin-embedded (FFPE) sections. We evaluated the sensitivity and specificity of 14 mAbs that we produced, using FFPE samples of MDCC-MSB1 cells, MD tumor tissues, and tissues of uninfected chickens. Four different antigen retrieval conditions were investigated. Thirteen mAbs reacted with Meq in FFPE sections, but immunohistochemical reactivity and specificity varied depending on the mAb and antigen retrieval condition; heat-induced antigen retrieval (HIAR) was more effective at detecting Meq than the other tested conditions. HIAR pH 9 tended to increase immunoreactivity and decrease specificity. Of the 5 mAbs that immunoreacted strongly with Meq without nonspecific reactions under the optimal antigen retrieval conditions, 3 mAbs (1C1-121, 3A3-112, 5F7-82) did not produce background staining of tumor or non-tumor tissues; 2 mAbs (2C5-11, 4A5-54) produced background staining. The mAb 6B5-128 reacted moderately with Meq without nonspecific reactions and background staining. The remaining mAbs showed weak immunoreactivity or problematic nonspecific reactions. Our results suggest that some of our developed mAbs can be used in IHC to detect Meq in FFPE sections with high specificity, and that the use of IHC may greatly improve the diagnosis of MD.

Published

2023

33. Phylogenetic analyses on Marek’s disease virus circulating in Iranian backyard and commercial poultry indicate viruses of different origin

Author

Alireza Abtin, Aidin Molouki, Fatemeh Eshtartabadi, Mohsen Mahmoudzadeh Akhijahani, Kiarash Roohani, Arash Ghalyanchilangeroudi, Swee Hua Erin Lim, Mohammad Abdoshah, and Abdelhamid Shoushtari

Subjects

Veterinary Microbiology - Research Paper, Marek Disease, Media Technology, Animals, Humans, Iran, Chickens, Herpesvirus 2, Gallid, Microbiology, Phylogeny, Poultry, Poultry Diseases

Abstract

As neoplastic viruses have been affecting Iranian chicken farms more frequently in recent years, the first step in prevention may therefore be to genetically characterize and systematically identify their source and origin. Recently, we published a phylogenetic analysis based on the meq gene of Gallid alphaherpesvirus 2, commonly known as serotype 1 Marek’s disease virus (MDV-1), that circulated in Iranian backyard and commercial chickens. In the current study, we are reporting for the first time the identification of a 298 aa meq protein containing only two PPPP motifs from an MDV-1-infected unvaccinated backyard turkey. This protein length has never been reported from any turkey species before. According to phylogenetic analysis, a close genetic relationship (0.68%) to several chicken-origin isolates such as the American vv + 648A strain was found. In addition, we identified a standard meq protein from a MDV-1-infected commercial chicken farm. In corroboration with our previous finding from other Iranian provinces, it is likely that the highly identical MDV-1 viruses currently circulating in Iranian chicken farms, which may be indicative of human role in the spread of the virus, have similar Eurasian origin. Our data suggest that regardless of the meq size, MDV-1 circulating in Iran are from different origins. On the other hand, meq sequences from bird species other than chicken have been reported but are very few. Our investigation suggests MDV-1 circulating in turkey do not have species-specific sequences. SUPPLEMENTARY INFORMATION: The online version contains supplementary material available at 10.1007/s42770-022-00738-w.

Published

2022

34. Patent Issued for Recombinant herpesvirus of turkey vectors expressing antigens of avian pathogens and uses thereof (USPTO 11883481).

Subjects

BIRDS, H7N9 Influenza, RNA virus infections, INFECTIOUS bursal disease virus, MAREK'S disease, ANTIGENS, NUCLEOTIDE sequence

Abstract

This article discusses a patent issued to Zoetis Services LLC for the development of recombinant herpesvirus of turkey vectors that express antigens of avian pathogens. The patent aims to create multivalent vaccines that provide immunity against multiple diseases in poultry. The invention involves inserting foreign genes into the genome of the herpesvirus of turkey to elicit an immune response and protect against various pathogens. The recombinant vectors have the advantages of both live and killed vaccines, providing longer-lasting immunity with milder reactions. The patent also mentions the use of the herpesvirus of turkey as a vaccine vector for Marek's disease, a highly contagious avian infection. The patent describes a recombinant Herpesvirus of Turkey (HVT) genome that has been modified to include genetic material from Infectious Bursal Disease Virus and Newcastle Disease Virus. The modified genome contains nucleotide sequences that code for specific antigens from these viruses. The patent also mentions the use of promoters and poly A signals in the modified genome. The recombinant HVT genome can be used to produce a vaccine composition that can help prevent Infectious Bursal Disease, Newcastle Disease, and Marek's Disease in birds. The vaccine can be administered through various routes, such as spray administration, in ovo administration, subcutaneous administration, intramuscular administration, oral administration, or nasal administration. [Extracted from the article]

Published

2024

35. Researchers' Work from University of Guelph Focuses on Marek Disease (Efficacy and Tolerability of an Mrna Vaccine Expressing Gb and Pp38 Antigens of Marek's Disease Virus In Chickens).

Subjects

MAREK'S disease, CHICKEN diseases, VIRUS diseases, RESEARCH personnel, MESSENGER RNA

Abstract

Researchers from the University of Guelph in Canada have developed a bivalent mRNA vaccine for Marek's disease in chickens. The vaccine, which encodes the glycoprotein-B and phosphoprotein-38 antigens of the Marek's disease virus, was found to be effective in reducing tumor incidence, lesion scores, bursal atrophy, and viral load in feather tips. The study also suggested that interferons may play a role in the immune response generated by the vaccine. This research has been peer-reviewed and provides valuable insights into the development of vaccines for animal diseases. [Extracted from the article]

Published

2024

36. University of Ljubljana Reports Findings in Marek Disease (First Report of Marek's Disease Virus in Commercial Turkeys in Slovenia).

Published

2024

37. Kimron Veterinary Institute Reports Findings in Marek Disease (Virulence evaluation of Israeli Marek's disease virus isolates from commercial poultry using their meq gene sequence).

Subjects

MAREK'S disease, VIRUS diseases, BIRDS, POULTRY, GENES, VIRUS virulence

Abstract

A report from the Kimron Veterinary Institute in Bet Dagan, Israel, discusses the findings of a study on Marek Disease, a viral disease that affects poultry. The study focused on the molecular characterization of 57 Gallid alphaherpesvirus 2 (GaHV-2) isolates collected over a 30-year period. The researchers used the meq gene sequence to evaluate the virulence of the virus. The results showed that the GaHV-2 strains circulating in Israel have evolved into a higher virulence potential over the years. The study supports the use of the meq gene as a molecular marker for assessing the virulence of field GaHV-2 strains. [Extracted from the article]

Published

2024

38. Studies from Mississippi State University Yield New Data on Vaccines (Vitamin Compatibility with the Marek's Disease Vaccine).

Abstract

A study conducted by researchers at Mississippi State University explored the compatibility of the Marek's disease vaccine (MDV) with two vitamins, L-Ascorbic acid (L-AA) and 25-hydroxyvitamin D (25OHD). The study found that the MDV can be effectively combined with the two designated doses of 25OHD for subsequent administration by in ovo injection. However, the L-AA resulted in a 70% death rate of primary chick embryo fibroblast cells infected by the MD virus within 1 hour. This research provides valuable insights into the potential compatibility of vitamins with the MDV vaccine. [Extracted from the article]

Published

2024

39. Deadly chicken disease: ancient DNA reveals evolution of virulence.

Subjects

CHICKEN diseases, FOSSIL DNA, MAREK'S disease, VIRUS virulence, VIRAL genes

Abstract

A recent study led by paleogeneticist Laurent Frantz from Ludwig-Maximilians-Universitat Munchen has used genetic analysis to trace the evolutionary history of Marek's disease, a fatal disease in chickens caused by the Marek's disease virus (MDV). The virus, which causes tumors in chickens and has a high mortality rate, has become increasingly aggressive over the past century. By analyzing ancient DNA from chicken bones up to 1,000 years old, the researchers found that the virus was already widely distributed long before the disease was first described in 1907. They also identified mutations in viral genes that likely contribute to the increased virulence of the virus. The researchers suggest that the growth in the global chicken population and the use of certain vaccines may have accelerated the evolution of the virus's virulence. This study provides valuable insights into the evolution of pathogen virulence and can inform future strategies for managing viral diseases. [Extracted from the article]

Published

2024

40. University of Oxford Reports Findings in Marek Disease (Ancient chicken remains reveal the origins of virulence in Marek's disease virus).

Subjects

MAREK'S disease, VIRUS diseases, CHICKENS, FOSSIL DNA, ANIMAL diseases, CAMPYLOBACTER jejuni, BIRDS

Abstract

New research from the University of Oxford reveals that Marek's disease virus (MDV), which causes lymphoid tumors in chickens, has become more virulent over the past century. The study used ancient DNA from archaeological chickens to trace the origins of MDV and found that it has been circulating for at least 1000 years. The research demonstrates the power of ancient DNA approaches in understanding the molecular basis of virulence in economically relevant pathogens. MDV infections currently kill over 90% of unvaccinated birds and cost more than $1 billion annually to control. [Extracted from the article]

Published

2023

41. Henan Agricultural University Reports Findings in Marek Disease (LORF9 of Marek's disease virus is involved in the early cytolytic replication of B lymphocytes and can act as a target for gene deletion vaccine development).

Subjects

MAREK'S disease, AGRICULTURE, B cells, DNA vaccines, VIRUS diseases

Abstract

New research from Henan Agricultural University in Zhengzhou, People's Republic of China, has identified a gene called LORF9 that is involved in the early replication of Marek's disease virus (MDV) in B lymphocytes. MDV is a highly infectious and oncogenic virus that causes severe T cell lymphomas in chickens. The study found that a deletion mutant of the LORF9 gene showed a comparable immunological protective effect against MDV when compared to the CVI988/Rispens vaccine strain. This discovery suggests that LORF9 could be a potential target for the development of a gene deletion vaccine for MDV. [Extracted from the article]

Published

2023

42. Research from Department of Veterinary Sciences Has Provided New Study Findings on Marek Disease (Updating of epidemiological and pathological features of Marek's disease in laying hens and broilers).

Subjects

MAREK'S disease, VETERINARY medicine, HENS, ANIMAL diseases

Abstract

A recent study conducted by the Department of Veterinary Sciences has provided new insights into Marek's disease, a significant problem for bird flocks. The study focused on the emergence and re-emergence of the disease in broilers and laying hens. The research found that Marek's disease occurred in 80% of broilers and 100% of layer hens, primarily manifesting in visceral rather than neurological symptoms. The study emphasizes the importance of biosecurity despite MD immunization. For more information, the full research article can be accessed through the provided link. [Extracted from the article]

Published

2023

43. Henan Agricultural University Reports Findings in Marek Disease (LORF9 of Marek's disease virus is involved in the early cytolytic replication of B lymphocyte and can act as a target for gene deletion vaccine development).

Subjects

MAREK'S disease, AGRICULTURE, B cells, DNA vaccines, VACCINE development

Abstract

New research conducted at Henan Agricultural University in Zhengzhou, People's Republic of China, has focused on Marek's disease, a highly infectious and oncogenic virus that affects chickens. The study found that a specific gene, LORF9, is involved in the early replication of the virus in B lymphocytes. The researchers also discovered that a deletion mutant of this gene showed comparable immunological protection against the disease when compared to a vaccine strain. This finding suggests that LORF9 could be a potential target for the development of a gene deletion vaccine for Marek's disease. [Extracted from the article]

Published

2023

44. A highly pathogenic Marek’s disease virus isolate from chickens immunized with a bivalent vaccine in China

Author

Huimin Li, Zengxu Ge, Qiong Luo, Qiang Fu, and Ruiai Chen

Subjects

Virology, Marek Disease, Animals, Vaccines, Combined, General Medicine, Chickens, Herpesvirus 2, Gallid, Poultry Diseases

Abstract

Marek's disease virus (MDV) is an important oncogenic poultry pathogen that can generally be controlled by vaccination. However, MDV infections still occur occasionally on vaccinated farms, possibly due to genetic variation among MDV strains or management-related issues. In this study, a novel MDV strain, designated LZ1309, was isolated from a poultry flock that had been vaccinated with the HVT and CVI988 vaccine strains. Animal experiments showed that LZ1309 infection led to high morbidity (100%) and mortality (90%). Moreover, existing vaccines provided only partial protection against LZ1309, with protection rates of 68.4%, 85%, and 90% for HVT, CVI988, and HVT plus CVI988, respectively. This study demonstrates the presence of a more virulent strain of MDV in vaccinated chickens in China that poses a new potential threat to poultry farms. In future studies, the development of new treatment strategies should be of high priority.

Published

2022

45. First report of Serotype-1 Marek’s disease virus (MDV-1) with oncogenic form in backyard turkeys in Turkey: a molecular analysis study

Author

Hasan Ongor, Necati Timurkaan, Hasan Abayli, Burak Karabulut, Hakan Kalender, Sukru Tonbak, Hatice Eroksuz, and Burhan Çetinkaya

Subjects

Turkeys, animal structures, General Veterinary, Turkey, Research, Veterinary medicine, pp38, 132-bp tandem repeats, General Medicine, Serogroup, MDV-1, MEQ, vIL-8, hemic and lymphatic diseases, SF600-1100, Marek Disease, Animals, Herpesvirus 2, Gallid, Phylogeny, Poultry Diseases

Abstract

Background Marek’s disease (MD) is a lymphoproliferative disease caused by Gallid alphaherpesvirus 2 (GaHV-2, MDV-1), which primarily affects chickens. However, the virus is also able to induce tumors and polyneuritis in turkeys, albeit less frequently than in chickens. Results This is the first study in Turkey reporting the molecular characterization of a MDV-1 strain detected in a flock of backyard turkeys exhibiting visceral lymphoma. Here, MEQ, vIL-8, pp38 and 132-bp tandem repeat regions, which are frequently preferred in the pathotyping of MDV-1, were examined. It was determined that the MEQ gene of MDV-1/TR-21/turkey strain obtained in the present study encoded 339 amino acids (1020 nt) and had four proline-rich repeat regions (PPPP). Based on the nucleotide sequence of the MEQ gene of the MDV-1/TR-21/turkey strain, a phylogenetic tree was created using the MEGA-X software with the Maximum Likelihood Method (in 1000 replicates). Our strain was highly identical (> 99.8) to the Italian/Ck/625/16, Polish (Polen5) and some Turkish (Layer-GaHV-2-02-TR-2017, Tr/MDV-1/19) MDV-1 strains. Also, nt and aa sequences of the MEQ gene of our strain were 99.1 and 99.41% identical to another Turkish strain (MDV/Tur/2019) originated from chickens. Sequence analysis of pp38 and vIL-8 genes also supported the above finding. The identity ratios of nucleotide and amino acid sequences of vIL-8 and pp38 genes of MDV-1/TR-21/turkey strain were 99.64–100% and 99.79–100%, respectively, when compared with those of the Polish strain. According to 132-bp tandem repeat PCR results, the MDV-1/TR-21/turkey strain had five copies. Conclusions These results suggested that the MDV-1/TR-21/turkey strain obtained from backyard turkeys can be either very virulent or very virulent plus pathotype, though experimental inoculation is required for precise pathotyping.

Published

2022

46. Genetic interference exerted by Salmonella-delivered CRISPR/Cas9 significantly reduces the pathological burden caused by Marek’s disease virus in chickens

Author

John Hwa Lee, Chamith Hewawaduge, and Amal Senevirathne

Subjects

Salmonella, qRT–PCR, Veterinary medicine, Virulence, Gene delivery, medicine.disease_cause, Virus, Plasmid, SF600-1100, medicine, Marek Disease, CRISPR, Animals, Herpesvirus 2, Gallid, CRISPR/Cas9, Poultry Diseases, Marek's disease, genomic interference, General Veterinary, biology, Cas9, biology.organism_classification, Virology, Leukocytes, Mononuclear, Female, virus-induced cancer, CRISPR-Cas Systems, Chickens, Research Article, Plasmids

Abstract

Efficient in vivo delivery of a CRISPR/Cas9 plasmid is of paramount importance for effective therapy. Here, we investigated the usability of Salmonella as a plasmid carrier for in vivo therapy against virus-induced cancer using Marek’s disease virus (MDV) as a model for study in chickens. A green fluorescent protein-expressing CRISPR/Cas9 plasmid encoding the virulence gene pp38 was constructed against Marek’s disease virus. Therapeutic plasmids were transformed into Salmonella carrying lon and sifA gene deletions. The animals in 5 groups were intraperitoneally inoculated with phosphate-buffered saline, vector control, or Salmonella before or after MDV infection, or left uninfected as a naïve control. Therapeutic effectiveness was evaluated by observing disease outcomes and the viral copy number in peripheral blood mononuclear cells. The efficacy of plasmid delivery by Salmonella was 13 ± 1.7% in the spleen and 8.0 ± 1.8% in the liver on the 6th day post-infection. The Salmonella-treated groups showed significant resistance to MDV infection. The maximum effect was observed in the group treated with Salmonella before MDV infection. None of the chickens fully recovered; however, the results suggested that timely delivery of Salmonella could be effective for in vivo CRISPR/Cas9-mediated genetic interference against highly pathogenic MDV. The use of Salmonella in CRISPR systems provides a simpler and more efficient platform for in vivo therapy with CRISPR than the use of conventional in vivo gene delivery methods and warrants further development.

Published

2021

47. Phenotypic Characterization of Recombinant Marek's Disease Virus in Live Birds Validates Polymorphisms Associated with Virulence.

Author

Kim T, Hearn CJ, Mays J, Velez-Irizarry D, Reddy SM, Spatz SJ, Cheng HH, and Dunn JR

Subjects

Animals, Virulence genetics, Chickens, Marek Disease, Herpesvirus 2, Gallid genetics, Mardivirus genetics

Abstract

Marek's disease (MD) is a highly infectious lymphoproliferative disease in chickens with a significant economic impact. Mardivirus gallidalpha 2, also known as Marek's disease virus (MDV), is the causative pathogen and has been categorized based on its virulence rank into four pathotypes: mild (m), virulent (v), very virulent (vv), and very virulent plus (vv+). A prior comparative genomics study suggested that several single-nucleotide polymorphisms (SNPs) and genes in the MDV genome are associated with virulence, including nonsynonymous (ns) SNPs in eight open reading frames (ORF): UL22, UL36, UL37, UL41, UL43, R-LORF8, R-LORF7, and ICP4. To validate the contribution of these nsSNPs to virulence, the vv+MDV strain 686 genome was modified by replacing nucleotides with those observed in the vMDV strains. Pathogenicity studies indicated that these substitutions reduced the MD incidence and increased the survival of challenged birds. Furthermore, using the best-fit pathotyping method to rank the virulence, the modified vv+MDV 686 viruses resulted in a pathotype similar to the vvMDV Md5 strain. Thus, these results support our hypothesis that SNPs in one or more of these ORFs are associated with virulence but, as a group, are not sufficient to result in a vMDV pathotype, suggesting that there are additional variants in the MDV genome associated with virulence, which is not surprising given this complex phenotype and our previous finding of additional variants and SNPs associated with virulence.

Published

2023

48. Fully Attenuated

Author

Aijun, Sun, Xuyang, Zhao, Xiaojing, Zhu, Zhengjie, Kong, Yifei, Liao, Man, Teng, Yongxiu, Yao, Jun, Luo, Venugopal, Nair, Guoqing, Zhuang, and Gaiping, Zhang

Subjects

Marek Disease, Animals, Oncogene Proteins, Viral, Marek Disease Vaccines, Atrophy, Chickens, Herpesvirus 2, Gallid, Gene Deletion, Poultry Diseases

Abstract

Marek's disease virus (MDV) induces immunosuppression and neoplastic disease in chickens. The virus is controllable via an attenuated

Published

2022

49. Current Epidemiology and Co-Infections of Avian Immunosuppressive and Neoplastic Diseases in Chicken Flocks in Central China

Author

Lu-Ping Zheng, Man Teng, Gui-Xi Li, Wen-Kai Zhang, Wei-Dong Wang, Jin-Ling Liu, Lin-Yan Li, Yongxiu Yao, Venugopal Nair, and Jun Luo

Subjects

poultry, avian neoplastic disease, MDV, ALV, REV, epidemiology, co-infection, China, Reticuloendotheliosis virus, Avian Leukosis Virus, Coinfection, Infectious Diseases, Avian Leukosis, Virology, Neoplasms, Marek Disease, Animals, Chickens, Herpesvirus 2, Gallid, Poultry Diseases

Abstract

The avian immunosuppressive and neoplastic diseases caused by Marek’s disease virus (MDV), avian leucosis virus (ALV), and reticuloendotheliosis virus (REV) are seriously harmful to the global poultry industry. In recent years, particularly in 2020–2022, outbreaks of such diseases in chicken flocks frequently occurred in China. Herein, we collected live diseased birds from 30 poultry farms, out of 42 farms with tumour-bearing chicken flocks distributed in central China, to investigate the current epidemiology and co-infections of these viruses. The results showed that in individual diseased birds, the positive infection rates of MDV, ALV, and REV were 69.5% (203/292), 14.4% (42/292), and 4.7% (13/277), respectively, while for the flocks, the positive infection rates were 96.7% (29/30), 36.7% (11/30), and 20% (6/30), respectively. For chicken flocks, monoinfection of MDV, ALV, or REV was 53.3% (16/30), 3.3% (1/30), and 0% (0/30), respectively, but a total of 43.3% (13/30) co-infections was observed, which includes 23.3% (7/30) of MDV+ALV, 10.0% (3/30) of MDV+REV, and 10.0% (3/30) of MDV+ALV+REV co-infections. Interestingly, no ALV+REV co-infection or REV monoinfection was observed in the selected poultry farms. Our data indicate that the prevalence of virulent MDV strains, partially accompanied with ALV and/or REV co-infections, is the main reason for current outbreaks of avian neoplastic diseases in central China, providing an important reference for the future control of disease.

Published

2022

50. Marek’s disease virus-specific T cells proliferate, express antiviral cytokines but have impaired degranulation response

Author

Nitish Boodhoo and Shahriar Behboudi

Subjects

Perforin, Immunology, Epitopes, T-Lymphocyte, Antiviral Agents, Granzymes, Interleukin-10, Marek Disease, Animals, Cytokines, Interleukin-2, Immunology and Allergy, Interleukin-4, Chickens, Herpesvirus 2, Gallid

Abstract

The major histocompatibility complex (MHC) haplotype is one of the major determinants of genetic resistance and susceptibility of chickens to Marek’s disease (MD) which is caused by an oncogenic herpesvirus; Marek’s disease virus (MDV). To determine differential functional abilities of T cells associated with resistance and susceptibility to MD, we identified immunodominant CD4+TCRvβ1 T cell epitopes within the pp38 antigen of MDV in B19 and B21 MHC haplotype chickens using an ex vivo ELISPOT assay for chicken IFN-gamma. These novel pp38 peptides were used to characterize differential functional abilities of T cells as associated with resistance and susceptibility to MD. The results demonstrated an upregulation of cytokines (IL-2, IL-4, IL-10) and lymphocyte lysis-related genes (perforin and granzyme B) in an antigen specific manner using RT-PCR. In the MD-resistant chickens (B21 MHC haplotype), antigen-specific and non-specific response was highly skewed towards Th2 response as defined by higher levels of IL-4 expression as well as lymphocyte lysis-related genes compared to that in the MD-susceptible chicken line (B19 MHC haplotype). Using CD107a degranulation assay, the results showed that MDV infection impairs cytotoxic function of T cells regardless of their genetic background. Taken together, the data demonstrate an association between type of T cell response to pp38 and resistance to the disease and will shed light on our understanding of immune response to this oncogenic herpesvirus and failure to induce sterile immunity.

Published

2022