Recent Advances in Animal Virology

Not AvailableMarek’s disease (MD) is caused by an oncogenic alphaherpesvirus, a common lymphoproliferative inducing agent usually characterized by mononuclear cellular infiltrates, mostly T-cell lymphomas in various visceral organs and peripheral nerves. The genome is linear and made up of double-stranded DNA molecules of nearly 160–180 kb in size. This was first reported by Dr. József Marek in the year 1907. Various pathotypes exist, and pathotyping is generally done based on the pathology the particular isolate induces in vaccinated and unvaccinated chickens and on their ability to overcome the effects of vaccination. Several avian species including both domesticated and wild birds are susceptible to Marek’s disease, and genetic susceptibility/resistance to MD is well characterized in chickens. The disease is highly contagious, and the transmission occurs mainly by the airborne route. The host responds to MDV infection by mounting both innate and adaptive immune mechanisms. The incidence of Marek’s disease is variable depending upon the pathotype and host susceptibility. Nerve lesions and visceral lymphomas are the prime pathologic changes noticed in MD. In the field, diagnosis is primarily based on the clinical signs and postmortem lesions. Apart from the above methods, virus isolation, identification of various viral markers in tissues, genomic detection assays (PCR, qPCR, nested PCR), and antibody detection (ELISA) aid in diagnosis of MD. Some of the strains used for vaccination are HVT, SB-1, and CVI988. Vaccination against MDV using these strains offers good protection. Despite effective vaccination regime, MD continues to be a threat to the industry due to the evolution of newer pathotypes. Thus, genetic resistance and strict biosecurity measures will be very critical adjuncts to vaccination in controlling the disease.Not Availabl

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Not AvailableInfectious laryngotracheitis (ILT) is one of the highly infectious and contagious diseases of chickens caused by Gallid Herpesvirus 1, a member of the genus Iltovirus. It is an economically important disease in major poultry producing countries, including India. Despite India having large population of poultry birds, very limited information is available on the disease magnitude and molecular epidemiology. We screened 560 tissue samples collected from necropsied cases of tracheitis and conjunctivitis to diagnose ILT by histopathology, immunohistochemistry and polymerase chain reaction. Out of 560 samples, ILT was diagnosed in 90 (16.07%) cases by histopathology; however, polymerase chain reaction detected ILT virus (ILTV) in 128 (22.85%). Immu-nohistochemistry of representative PCR positive tissues (n=30) from trachea, lungs and conjunctiva detected viral antigen in the lining or denuded epithelial cells in 76.66% (23/30) cases. Analysis of age wise occurrence of ILT cases in our study revealed 47.65% in adult birds over 18 weeks of age, 35.15% in grower birds aged between 7 and18 weeks of age, 17.18% in chicks aged less than 6 weeks. Nucleotide sequence of gene encoding viral thymidine kinase revealed involvement of vaccine and virulent strains of ILTV in the investigated cases. Based on our findings and recent publications, we conclude that there is resurgence or re-emergence of ILT in the chicken flocks in different parts of India, indicating a possible biosecurity breach. Further genetic characterization of virus by whole genome sequencing technologies would decipher the genotype circulating in India, and help to design suitable native vaccine candidate(s).Not Availabl

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Not AvailableWe describe the first report on spontaneous Avian Nephritis Virus (ANV) and Infectious Bronchitis Virus (IBV) concurrent infection in broiler chicks. On necropsy, the kidneys were found swollen with its parenchyma and ureters stuffed with urate flakes. Histopathologically, the renal tubular damage and inflammatory response were severe in concurrently infected birds compared to the cases infected only with ANV, which had direct correlation with significantly (p < 0.001) increased expression of IL-1 β, IL-4, IL-12, IL-13, iNOS and IFN-γ transcripts in the kidneys of concurrently infected birds. Relative decrease in IFN-β transcript levels in the concurrently infected birds indicates suppression of antiviral response; the iNOS level was manifold increased which can be attributed to the enhanced macrophage response. Nucleotide sequencing of S1-spike glycoprotein gene of IBV and RNA dependent RNA polymerase gene of ANV confirmed etiologies as Igacovirus of Gammacoronavirus and ANV-2 of Avastrovirus 2, respectively. Both ANV and IBV virus affect kidneys. Our findings suggested that concurrent infections of these two viruses might have enhanced the transcripts of Th1, Th2 and proinflammatory cytokines with reduced IFN-β transcripts resulting in decreased host innate antiviral mechanisms leading to exacerbated renal lesions. Future experimental co-infection studies could throw more lights on pathology and pathogenesis during concurrent infections of ANV and IBV in poultry.Not Availabl

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Not AvailableGallibacterium anatis is a Gram-negative bacterium of the Pasteurellaceae family that resides normally in the respiratory and reproductive tracts in poultry. It is a major cause of oophoritis, salpingitis, and peritonitis, decreases egg production and mortality in hens thereby severely affecting animal welfare and overall productivity by poultry industries across Europe, Asia, America, and Africa. In addition, it has the ability to infect wider host range including domesticated and free-ranging avian hosts as well as mammalian hosts such as cattle, pigs and human. Evaluating the common virulence factors including outer membrane vesicles, fimbriae, capsule, metalloproteases, biofilm formation, hemagglutinin, and determining novel factors such as the RTX–like toxin GtxA, elongation factor-Tu, and clustered regularly interspaced short palindromic repeats (CRISPR) has pathobiological, diagnostic, prophylactic, and therapeutic significance. Treating this bacterial pathogen with traditional antimicrobial drugs is discouraged owing to the emergence of widespread multidrug resistance, whereas the efficacy of preventing this disease by classical vaccines is limited due to its antigenic diversity. It will be necessary to acquire in-depth knowledge on important virulence factors, pathogenesis and, concerns of rising antibiotic resistance, improvised treatment regimes, and novel vaccine candidates to effectively tackle this pathogen. This review substantially describes the etio-epidemiological aspects of G. anatis infection in poultry, and updates the recent development in understanding the pathogenesis, organism evolution and therapeutic and prophylactic approaches to counter G. anatis infection for safeguarding the welfare and health of poultry.Not Availabl

Infectious laryngotracheitis: Etiology, epidemiology, pathobiology, and advances in diagnosis and control - a comprehensive review

Infectious laryngotracheitis (ILT) is a highly contagious upper respiratory tract disease of chicken caused by a Gallid herpesvirus 1 (GaHV-1) belonging to the genus Iltovirus, and subfamily Alphaherpesvirinae within Herpesviridae family. The disease is characterized by conjunctivitis, sinusitis, oculo-nasal discharge, respiratory distress, bloody mucus, swollen orbital sinuses, high morbidity, considerable mortality and decreased egg production. It is well established in highly dense poultry producing areas of the world due to characteristic latency and carrier status of the virus. Co-infections with other respiratory pathogens and environmental factors adversely affect the respiratory system and prolong the course of the disease. Latently infected chickens are the primary source of ILT virus (ILTV) outbreaks irrespective of vaccination. Apart from conventional diagnostic methods including isolation and identification of ILTV, serological detection, advanced biotechnological tools such as PCR, quantitative real-time PCR, next generation sequencing, and others are being used in accurate diagnosis and epidemiological studies of ILTV. Vaccination is followed with the use of conventional vaccines including modified live attenuated ILTV vaccines, and advanced recombinant vector vaccines expressing different ILTV glycoproteins, but still these candidates frequently fail to reduce challenge virus shedding. Some herbal components have proved to be beneficial in reducing the severity of the clinical disease. The present review discusses ILT with respect to its current status, virus characteristics, epidemiology, transmission, pathobiology, and advances in diagnosis, vaccination and control strategies to counter this important disease of poultry

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Not AvailableBacterial septicemia causes huge economic losses in the poultry industry and there is no systematic research available in India on the connection of various pathogens associated with septicemia. The present molecular epidemiological study was conducted to investigate the association of different bacterial and immunosuppressive viral pathogens in septicemia suspected chickens. A total of 443 chicken carcasses with septicemic conditions from 71 different flocks were included in this study. Heart blood swabs were subjected to bacterial culture for Salmonella spp., Pasteurella multocida, Escherichia coli, and Gallibacterium anatis. Of these 51 flocks tested for E. coli, 49 (96.1%) flocks were found positive. Among flocks tested for Salmonella spp., 2 flocks were found positive. All tested flocks were found negative for G. anatis and P. multocida as well as air sac swabs tested negative for Mycoplasma spp. Bacterial cultural examination revealed that majority of septicemic chickens were found to be infected with E. coli and these E. coli isolates showed the highest resistance to vancomycin (60%), followed by erythromycin (50%) and cefotaxime (38%) and maximum sensitivity to cefotaxime and clavulanic acid combinations (81.5%), followed by chloramphenicol (69.6%) and ertapenem (67.2%). Among the 5 avian pathogenic E. coli (APEC) virulence genes were detected in 36 flocks and highest frequency of iss (100%), followed by ompT or iutA (97.2%), hly (61.1%) and iroN (47.2%) genes. On polymerase chain reaction (PCR) screening, 10.5, 4.5, 52.2, 19.4, 9.0, 4.5, 20.1 and 19.4% of the flocks were positive for G. anatis, Ornithobacterium rhinotracheale, APEC, Salmonella spp., Mycoplasma gallisepticum, Mycoplasma synoviae, chicken infectious anemia virus and Marek's disease virus, respectively. To our knowledge, the present study is first on the etiology of septicemia in chicken flocks in India. The present study infers that the majority of septicemic deaths in broiler chickens less than 8 weeks have been connected with APEC and majority of E. coli isolates are multidrug resistance, suggesting the need for surveillance and intervention to curb the inadvertent use of antibiotics. Although, incidence of G. anatis association with septicemia was reported, still requires a rigorous epidemiological study to determine the actual prevalence. However, more detailed studies encompassing vast geographical area with large sample size and long duration of the studies are necessary to provide a clear picture of the interaction of different pathogens causing septicemia in chicken.Not Availabl