Your search keyword '"Oviducts virology"' showing total 47 results

1. Heterologous maternal antibodies derived from infectious bronchitis vaccines prevent the development of lesions associated with false layer syndrome.

Author

Hassan MSH, Farooq M, Ali A, Rahimi R, Ranaweera HA, Isham IM, and Abdul-Careem MF

Subjects

Animals, Female, Immunity, Maternally-Acquired, Trachea immunology, Trachea virology, Oviducts immunology, Oviducts pathology, Oviducts virology, Infectious bronchitis virus immunology, Poultry Diseases prevention & control, Poultry Diseases immunology, Poultry Diseases virology, Chickens immunology, Chickens virology, Antibodies, Viral blood, Antibodies, Viral immunology, Viral Vaccines immunology, Viral Vaccines administration & dosage, Coronavirus Infections prevention & control, Coronavirus Infections veterinary, Coronavirus Infections immunology, Coronavirus Infections virology

Abstract

Infectious bronchitis virus (IBV) strains of the Delmarva (DMV)/1639 genotype have been causing false layer syndrome (FLS) in the Eastern Canadian layer operations since the end of 2015. FLS is characterized by the development of cystic oviducts in layer pullets infected at an early age. Currently, there are no homologous vaccines for the control of this IBV genotype. Our previous research showed that a heterologous vaccination regimen incorporating Massachusetts (Mass) and Connecticut (Conn) IBV types protects layers against DMV/1639 genotype IBV. The aim of this study was to investigate the role of maternal antibodies conferred by breeders received the same vaccination regimen in the protection against the development of DMV/1639-induced FLS in pullets. Maternal antibody-positive (MA+) and maternal antibody-negative (MA-) female progeny chicks were challenged at 1 day of age and kept under observation for 16 weeks. Oviductal cystic formations were observed in 3 of 14 birds (21.4 %) in the MA- pullets, while the lesions were notably absent in the MA+ pullets. Milder histopathological lesions were observed in the examined tissues of the MA+ pullets. However, the maternal derived immunity failed to demonstrate protection against the damage to the tracheal ciliary activity, viral shedding, and viral tissue distribution. Overall, this study underscores the limitations of maternal derived immunity in preventing certain aspects of viral pathogenesis, emphasizing the need for comprehensive strategies to address different aspects of IBV infection., Competing Interests: Declaration of Competing Interest The authors declare no conflicts of interest., (Copyright © 2024 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2024

2. Pathogenicity of the Canadian Delmarva (DMV/1639) Infectious Bronchitis Virus (IBV) on Female Reproductive Tract of Chickens.

Author

Hassan MSH, Ali A, Buharideen SM, Goldsmith D, Coffin CS, Cork SC, van der Meer F, Boulianne M, and Abdul-Careem MF

Subjects

Animals, Chickens, Coronavirus Infections pathology, Coronavirus Infections physiopathology, Coronavirus Infections virology, Female, Infectious bronchitis virus genetics, Infectious bronchitis virus isolation & purification, Oviducts pathology, Poultry Diseases pathology, Poultry Diseases physiopathology, Reproduction, Specific Pathogen-Free Organisms, Virulence, Coronavirus Infections veterinary, Infectious bronchitis virus pathogenicity, Infectious bronchitis virus physiology, Oviducts virology, Poultry Diseases virology

Abstract

Infectious bronchitis virus (IBV) infection causes significant economic losses to various sectors of the poultry industry worldwide. Over the past few years, the incidence of false layer syndrome in Eastern Canadian layer flocks has been associated with the increased prevalence of the IBV Delmarva (DMV)/1639 strain. In this study, 1-day-old specific-pathogen-free (SPF) hens were infected with the Canadian DMV/1639 strain and observed until 16 weeks of age in order to determine if the IBV DMV/1639 strain is causing false layer syndrome. Early after infection, the virus showed a wide tissue distribution with characteristic gross and histopathological lesions in the respiratory tract and kidney. Around 60-70% of the infected hens demonstrated continuous cloacal viral shedding until the end of the experiment (at 16 weeks) which was associated with high IBV genome loads detected in the cecal tonsils. The experiment confirmed the field observations that the Canadian DMV/1639 strain is highly pathogenic to the female reproductive tract causing marked cystic lesions in the oviduct. Moreover, significant histopathological damage was observed in the ovary. Our study provides a detailed description of the pathological consequences of the IBV DMV/1639 strain circulating in an important poultry production sector.

Published

2021

3. Diagnostic Accuracy of Ultrasonography to Detect False Layers in a Commercial Laying Flock Infected by an Infectious Bronchitis Virus Delmarva Genotype Causing Cystic Oviducts.

Author

Parent E, Gagnon-Francoeur A, Lanthier B, Hébert G, Buczinski S, and Boulianne M

Subjects

Animals, Coronavirus Infections diagnosis, Coronavirus Infections virology, Cysts virology, Female, Oviducts virology, Poultry Diseases virology, Ultrasonography statistics & numerical data, Chickens, Coronavirus Infections veterinary, Cysts veterinary, Infectious bronchitis virus isolation & purification, Poultry Diseases diagnosis, Ultrasonography veterinary

Abstract

Infection of the oviduct by an infectious bronchitis virus (IBV) in laying hens has been associated with the false layer syndrome. Because the diagnostic procedure for the detection of cystic oviducts by postmortem examinations in IBV-positive replacement pullet flocks could involve the unnecessary sacrifice of numerous healthy pullets without reproductive tract anomalies, the development of a noninvasive and nonlethal diagnostic procedure would be desirable. The first objective of the study was to evaluate the diagnostic accuracy of a transcutaneous ultrasonography method to predict the presence of cystic oviducts compared to postmortem examinations in a commercial pullet flock positive for an IBV genotype Delmarva (DMV) variant. The second objective was to evaluate the performance of the same ultrasonography method to later detect false layers in the same flock in sexually mature hens by identifying the presence of an egg in the oviduct due to the presence of atretic oviducts undetectable by ultrasonography and the absence of cystic oviducts at that age. In replacement pullets, the sensitivity (Se) and specificity (Sp) of the ultrasonography (index test) compared to the postmortem examination (reference standard test) were 73% and 91%, respectively. The positive predictive value (PPV) and negative predictive value (NPV) were 67% and 93%. The ultrasonography technique showed a positive likelihood ratio (LR+) of 7.82 and a negative likelihood ratio (LR-) of 0.30. In sexually mature hens, the Se, Sp, PPV, and NPV of the ultrasonography compared to the laying status were 98%. The LR+ was 49.00 and the LR- was 0.02 when compared to the laying status. In conclusion, the ultrasonography could replace postmortem examinations to detect cystic oviducts in commercial flocks of replacement pullets previously infected with an IBV-DMV 1639 variant. Although the test accuracy of ultrasonography was excellent for the hens at production peak to identify laying and nonlaying hens based on the presence of an egg in the reproductive tract, its practicality was limited due to atretic oviducts being not detectable.

Published

2020

4. Research Note: Molecular and pathologic characterization of avian adenovirus isolated from the oviducts of laying hens in eastern Japan.

Author

Del Valle FP, Camba SI, Umali DV, Sasai K, Shirota K, Katoh H, and Tajima T

Subjects

Adenoviridae Infections pathology, Adenoviridae Infections virology, Animals, Aviadenovirus classification, Aviadenovirus isolation & purification, Chicken anemia virus isolation & purification, Circoviridae Infections veterinary, Circoviridae Infections virology, Coinfection veterinary, Female, Japan, Oviducts virology, Phylogeny, Poultry Diseases virology, Specific Pathogen-Free Organisms, Adenoviridae Infections veterinary, Aviadenovirus physiology, Chickens, Poultry Diseases pathology

Abstract

Cases of poor egg production were investigated in 2 layer farms from Ibaraki Prefecture in eastern Japan. To identify any microbial agents that may have caused the problem, necropsy, bacterial isolation, histopathology, and virus detection were performed. Members of the avian adenoviruses was detected by PCR in oviduct samples from both farms; chicken anemia virus coinfection was also confirmed in one of the farms. Avian adenovirus was isolated from the oviducts of the affected chickens on each farm. Inoculation into chick embryos showed tropism for the chorio-allantoic membrane. Stunting and hemorrhaging was observed in all infected embryos, as well as death in a few. Inoculation of 1-day-old specific pathogen-free chicks, and 400-day-old commercial hens, did not result in any significant findings. The isolated viruses were analyzed by sequencing of the hexon gene and were confirmed as fowl adenovirus type-c serotype-4 (FAdV-4). The 2 virus strains were found to be 99.29% similar to each other. One of the strains, Japan/Ibaraki/Y-H6/2016, was 99.15% similar to the KR5 strain. The other, Japan/Ibaraki/M-HB2/2016, was 99.57% similar to the KR5 strain. Fiber-2 gene analysis confirmed the identity as FAdV-4 that is closely related to nonpathogenic strains. Although nonpathogenic to chicks and laying hens, this infection can possibly cause economic damage. Perhaps the bigger concern is the effect on infected breeder operations. Because the virus is fatal to 9.09% of infected embryos, this could translate to a considerable loss in chick production owing to embryonic death. This is the first report of detection and isolation of FAdV-4 from the chicken oviduct; however, further studies are needed to elucidate its impact on both layer and breeder flocks. Indeed, FAdV-4 has negative effects on the avian reproductive tract as well., (Copyright © 2020 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2020

5. Genes involved in mitochondrial biogenesis and function may not show synchronised responses to mitochondria in shell gland of laying chickens under infectious bronchitis virus challenge.

Author

Khan S, Roberts J, and Wu SB

Subjects

Animals, Citrate (si)-Synthase genetics, Cytochromes c genetics, Dynamins genetics, Electron Transport Complex II genetics, Female, Gene Expression Regulation, Oviducts virology, Peroxisome Proliferator-Activated Receptor Gamma Coactivator 1-alpha genetics, Poultry Diseases genetics, Poultry Diseases virology, Sodium-Potassium-Exchanging ATPase genetics, Chickens genetics, Coronavirus Infections virology, Egg Shell metabolism, Infectious bronchitis virus physiology, Mitochondria genetics, Organelle Biogenesis, Oviducts physiopathology

Abstract

Background: Egg formation takes place in the oviduct of laying hens over a 24 h period. Infectious bronchitis virus (IBV) causes pathological lesions in the chicken oviduct. In the current study, mitochondrial counts were determined in three different segments of the oviduct during egg formation in laying chickens challenged with IBV T strain. Nuclear DNA encoded genes that are involved in mitochondrial biogenesis, fission and function were studied in the shell gland of the oviduct undergoing virus multiplication., Results: In the shell gland, the mitochondrial count was significantly lower (P < 0.05) in the challenged group, compared with the control group. However, it did not vary in response to IBV challenge in the isthmus and magnum regions of the oviduct. The gene succinate dehydrogenase complex, subunit A, flavoprotein variant (SDHA) was down-regulated in the shell gland by IBV challenge (P < 0.05), while other genes being studied did not show responses to the challenge (P > 0.05). Differential expression of the genes was observed at different time-points of egg-shell formation. The expression levels of citrate synthase (CS), cytochrome C, somatic (CYC, S) and sodium-potassium adenosine triphosphatase (Na + -K + ATPase) genes were significantly higher, while those of SDHA and dynamin related protein 1 (Drp1) genes were significantly lower, at 15 h compared with 5 h following oviposition of the previous egg. The expression level of peroxisome proliferator-activated receptor gamma coactivator 1-alpha (PGC-1α) did not show significant change at different time-points., Conclusions: It was concluded that IBV T strain infection in laying hens reduced mitochondrial counts only in the shell gland region of the oviduct. The genes involved in mitochondrial biogenesis or function may not show synchronised responses to that of mitochondria in the shell gland of chickens under T strain of IBV challenge.

Published

2019

6. A G1-lineage H9N2 virus with oviduct tropism causes chronic pathological changes in the infundibulum and a long-lasting drop in egg production.

Author

Bonfante F, Mazzetto E, Zanardello C, Fortin A, Gobbo F, Maniero S, Bigolaro M, Davidson I, Haddas R, Cattoli G, and Terregino C

Subjects

Animals, Female, Influenza in Birds pathology, Influenza in Birds physiopathology, Ovum, Pituitary Gland virology, Poultry Diseases pathology, Poultry Diseases physiopathology, Tropism, Chickens, Influenza A Virus, H9N2 Subtype physiology, Influenza in Birds virology, Oviducts virology, Pituitary Gland pathology, Poultry Diseases virology, Reproduction

Abstract

Since 1997, G1-lineage H9N2 avian influenza viruses have been circulating in Asia and later on in the Middle East, and they have been associated to mild respiratory disease, drops in egg production and moderate mortality in chickens, in particular in the presence of concurrent infections. In this study, we investigated the importance of the G1-lineage H9N2 A/chicken/Israel/1163/2011 virus as a primary pathogen in layers, analyzing its tropism and binding affinity for the oviduct tissues, and investigating the long-term impact on egg production. Besides causing a mild respiratory infection, the virus replicated in the oviduct of 60% of the hens causing different degrees of salpingitis throughout the organ, in particular at the level of the infundibulum, where the detection of the virus was associated with severe heterophilic infiltrate, and necrosis of the epithelium. Binding affinity assays confirmed that the infundibulum was the most receptive region of the oviduct. The drop in egg production was at its peek at 2 weeks post-infection (pi) (60% decrease) and continued up to 80 days pi (35% decrease). On day 80 pi, non-laying birds showed egg yolk peritonitis, and histopathological analyses described profound alteration of the infundibulum architecture, duct ectasia and thinning of the epithelium, while the rest of the oviduct and ovary appeared normal. Our results show that this H9N2 virus is a primary pathogen in layer hens, and that its replication in the infundibulum is responsible for acute and chronic lesions that limits the effective functionality of the oviduct, compromising the commercial life of birds.

Published

2018

7. Novel duck hepatitis A virus type 1 isolates from adult ducks showing egg drop syndrome.

Author

Zhang R, Chen J, Zhang J, Yang Y, Li P, Lan J, Xie Z, and Jiang S

Subjects

Animals, China epidemiology, Female, Hepatitis A pathology, Hepatitis A virology, Oviducts pathology, Oviducts virology, Oviposition, Phylogeny, Poultry Diseases epidemiology, Poultry Diseases pathology, Disease Outbreaks veterinary, Ducks, Hepatitis A veterinary, Hepatitis A virus classification, Poultry Diseases virology

Abstract

Generally, duck hepatitis A virus type 1 (DHAV-1) only infects young ducklings. Since December 2016, severe outbreaks of duck viral infection with egg drop, feed consumption decline, and ovary-oviduct disease have occurred in some laying duck flocks in Shandong Province of China. DHAV-1 isolated from the affected ducks was confirmed as the causative pathogen of the egg drop. Compared with other DHAV-1 strains, the novel isolate has three special amino acid mutation points in the most variable regions at the C-terminus of VP1. The experimental infection in laying ducks indicated that successful immunization with DHAV-1 vaccine could protect laying duck from infection. To the best of our knowledge, this is the first reported incidence of a severe duck disease outbreak involving egg drop syndrome caused by DHAV-1., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2018

8. Innate antiviral immune response against infectious bronchitis virus and involvement of prostaglandin E2 in the uterine mucosa of laying hens.

Author

Elhamouly M, Terada T, Nii T, Isobe N, and Yoshimura Y

Subjects

Animals, Coronavirus Infections veterinary, Coronavirus Infections virology, Egg Shell metabolism, Female, Immunity, Innate genetics, Mucous Membrane immunology, Mucous Membrane metabolism, Mucous Membrane virology, Oviducts immunology, Oviducts metabolism, Oviducts virology, Oviparity, Poultry Diseases virology, Uterus metabolism, Uterus virology, beta-Defensins genetics, Chickens genetics, Chickens immunology, Chickens virology, Coronavirus Infections immunology, Dinoprostone physiology, Immunity, Innate physiology, Infectious bronchitis virus immunology, Poultry Diseases immunology, Uterus immunology

Abstract

Infectious bronchitis virus (IBV) is an enveloped RNA virus that causes deformities in eggshells. The aim of this study was to investigate the innate immune response to IBV, and to determine whether prostaglandin (PG) E2, which is synthesized during inflammation, is involved in the innate immune response in the uterine mucosa. The effects of intra-oviductal inoculation with attenuated IBV (aIBV) on the expression of viral RNA recognition receptors and innate antiviral factors were examined by real-time PCR and immunohistochemistry, and on PGE2 levels by ELISA. Then, the effects of PGE2 on the expression of innate antiviral factors in cultured uterine mucosal cells were examined. The results showed that the expression of RNA virus pattern recognition receptors (TLR3, 7, and MDA5), antimicrobial peptides (avian β-defensins, including AvBD1, 2, 4-6 and cathelicidins, including CATH1 and 3), and interferons (IFNα, β, γ, λ) were upregulated, and the expression of cyclooxygenase 2 (PG synthase) and the level of PGE2 were increased in the uterine mucosa following aIBV inoculation. The number of AvBD2-positive cells in the mucosa also increased in response to aIBV. In cultured mucosal cells (mainly epithelial), the expression of AvBD4, 10-13 and IFNα, β, and λ was upregulated following incubation with 500 nM PGE2. These results suggest that the expression of viral RNA-recognition receptors, AvBDs, CATHs, and IFNs and PGE2 are induced by the IBV antigen, and that the expression of a different set of AvBDs is also induced by PGE2 in the cultured uterine mucosal cells. These antiviral factors may play a role in the protection of the uterine mucosa from IBV infection., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published

2018

9. Down-regulation of cellular protein heme oxygenase-1 inhibits proliferation of avian influenza virus H9N2 in chicken oviduct epithelial cells.

Author

Qi X, Zhang H, Xue T, Yang B, Deng M, and Wang J

Subjects

Adenoviridae genetics, Adenoviridae metabolism, Animals, Apoptosis drug effects, Avian Proteins agonists, Avian Proteins antagonists & inhibitors, Avian Proteins metabolism, Chickens, Epithelial Cells metabolism, Epithelial Cells virology, Female, Gene Expression Regulation, Genetic Vectors chemistry, Genetic Vectors metabolism, Heme Oxygenase-1 antagonists & inhibitors, Heme Oxygenase-1 metabolism, Host-Pathogen Interactions drug effects, Influenza A Virus, H9N2 Subtype, Mitochondria drug effects, Mitochondria metabolism, Oviducts metabolism, Oviducts virology, Oxidative Stress, Primary Cell Culture, RNA, Small Interfering genetics, RNA, Small Interfering metabolism, Reactive Oxygen Species agonists, Reactive Oxygen Species metabolism, Virus Replication drug effects, Avian Proteins genetics, Enzyme Inhibitors pharmacology, Epithelial Cells drug effects, Heme Oxygenase-1 genetics, Protoporphyrins pharmacology, Reactive Oxygen Species antagonists & inhibitors

Abstract

The pathogenesis of H9N2 subtype avian influenza virus (AIV) infection in hens is often related to oviduct tissue damage. Our previous study suggested that H9N2 AIV induces cellular apoptosis by activating reactive oxygen species (ROS) accumulation and mitochondria-mediated apoptotic signalling in chicken oviduct epithelial cells (COECs). Heme oxygenase-1 (HO-1) is an inducible enzyme that exerts protective effects against oxidative stress and activated HO-1 was recently shown to have antiviral activity. To study the potential involvement of HO-1 in H9N2 AIV proliferation, the role of its expression in H9N2-infected COECs was further investigated. Our results revealed that H9N2 AIV infection significantly up-regulated the expression of HO-1 and that HO-1 down-regulation by ZnPP, a classical inhibitor of HO-1, could inhibit H9N2 AIV replication in COECs. Similarly, the small interfering RNA (siRNA)-mediated knockdown of HO-1 also markedly decreased the virus production in H9N2-infected COECs. In contrast, adenoviral-mediated over-expression of HO-1 concomitantly promoted H9N2 AIV replication. Taken together, our study demonstrated the involvement of HO-1 in AIV H9N2 proliferation, and these findings suggested that HO-1 is a potential target for inhibition of AIV H9N2 replication.

Published

2018

10. The NS1 protein of avian influenza virus H9N2 induces oxidative-stress-mediated chicken oviduct epithelial cells apoptosis.

Author

Qi X, Zhang H, Wang Q, and Wang J

Subjects

Animals, Caspases metabolism, Chickens, Epithelial Cells cytology, Epithelial Cells virology, Female, Influenza A Virus, H9N2 Subtype genetics, Influenza in Birds physiopathology, Influenza in Birds virology, Mitochondria metabolism, Oviducts metabolism, Oviducts virology, Poultry Diseases physiopathology, Poultry Diseases virology, Reactive Oxygen Species metabolism, Viral Nonstructural Proteins genetics, Apoptosis, Epithelial Cells metabolism, Influenza A Virus, H9N2 Subtype metabolism, Influenza in Birds metabolism, Oviducts cytology, Oxidative Stress, Poultry Diseases metabolism, Viral Nonstructural Proteins metabolism

Abstract

The pathogenesis of H9N2 subtype avian influenza virus infection (AIV) in hens is often related to oviduct tissue damage. The viral non-structural NS1 protein is thought to play a key role in regulating the pathogenicity of AIV, but its exact function in this process remains elusive. In this study, the pro-apoptosis effect of H9N2 NS1 protein was examined on chicken oviduct epithelial cells (COECs) and our data indicated that NS1-induced oxidative stress was a contributing factor in apoptosis. Our data indicate that NS1 protein level was correlated with reactive oxygen species (ROS) in COECs transfected with NS1 expression plasmids. Interestingly, decreased activities of antioxidant enzymes, superoxide dismutase and catalase, were observed in NS1-transfected COECs. Treatment of COECs with antioxidants, such as pyrrolidine dithiocarbamate (PDTC) or N-acetylcysteine (NAC), significantly inhibited NS1-induced apoptosis. Moreover, although antioxidant treatment has little effect on the activation of caspase-8 in NS1-transfected cells, the activation of caspase-3/9 and Bax/Bcl-2 were significantly downregulated. Taken together, the results of our study demonstrated that expression of H9N2 NS1 alone is sufficient to trigger oxidative stress in COECs. Additionally, NS1 protein can induce cellular apoptosis via activating ROS accumulation and mitochondria-mediated apoptotic signalling in COECs.

Published

2016

11. Pathogenicity of virulent infectious bronchitis virus isolate YN on hen ovary and oviduct.

Author

Zhong Q, Hu YX, Jin JH, Zhao Y, Zhao J, and Zhang GZ

Subjects

Animals, China, Coronavirus Infections pathology, Coronavirus Infections virology, Female, Infectious bronchitis virus isolation & purification, Ovary pathology, Ovary virology, Oviducts pathology, Oviducts virology, Poultry Diseases virology, Virulence, Chickens virology, Coronavirus Infections veterinary, Infectious bronchitis virus pathogenicity, Poultry Diseases pathology

Abstract

Avian infectious bronchitis is an economically important poultry disease caused by avian infectious bronchitis virus (IBV). IBV isolate YN is a virulent strain, which is genetically similar to most of the prevalent strains in China. In this study, 21-day-old commercial laying hens were infected with IBV strain YN. The damaging effects of the virus on the reproductive organs were evaluated with clinical observations, gross autopsy and histopathological examinations during the 100-day monitoring period post infection. IBV strain YN infection caused a death rate of 40.5%. Microscopic lesions were observed on the ovary post-infection, but were restricted to the acute infection period. The pathological damage to the cystic oviducts were observed throughout the surveillance period. This study provides detailed information on the pathological changes in the hen ovary and oviduct after challenge with IBV strain YN, which could provide a better understanding about the pathogenicity of IBV., (Copyright © 2016 Elsevier B.V. All rights reserved.)

Published

2016

12. Transmission of an H5N8-Subtype Highly Pathogenic Avian Influenza Virus from Infected Hens to Laid Eggs.

Author

Uchida Y, Takemae N, Tanikawa T, Kanehira K, and Saito T

Subjects

Animals, Female, Influenza in Birds virology, Oviducts virology, Ovum virology, Poultry Diseases virology, Chickens, Infectious Disease Transmission, Vertical veterinary, Influenza A Virus, H5N8 Subtype physiology, Influenza in Birds transmission, Poultry Diseases transmission

Abstract

We showed here that an H5N8-subtype highly pathogenic avian influenza virus (HPAIV) was transmitted to both the internal contents and shells of eggs laid by white leghorn hens experimentally infected with the virus. Seven of eight HPAIV-infected hens laid eggs until 4 days postinoculation (dpi). The mean number of eggs laid per head daily decreased significantly from 0.58 before inoculation to 0.18 after viral inoculation. The virus was detected in the eggs laid by three of the seven hens. Viral transmission was detectable beginning on 3 dpi, and virus titers in tracheal and cloacal swabs from the hens that laid the contaminated eggs exceeded 2.9 log10 EID50. The level of viral replication and its timing when virus replicates enough to be detected in oviduct after virus inoculation appear to be key factors in the transmission of H5N8 HPAIV from infected hens to laid eggs.

Published

2016

13. Deterioration of eggshell quality in laying hens experimentally infected with H9N2 avian influenza virus.

Author

Qi X, Tan D, Wu C, Tang C, Li T, Han X, Wang J, Liu C, Li R, and Wang J

Subjects

Animals, Avian Proteins genetics, Avian Proteins metabolism, Calbindin 1 genetics, Calbindin 1 metabolism, Egg Shell ultrastructure, Egg Shell virology, Female, Gene Expression, Influenza in Birds virology, Microscopy, Electron, Scanning veterinary, Oviducts virology, Poultry Diseases virology, Chickens, Egg Shell pathology, Influenza A Virus, H9N2 Subtype physiology, Influenza in Birds pathology, Poultry Diseases pathology

Abstract

This study aimed to determine the mechanism by which H9N2 avian influenza virus (AIV) affects eggshell quality. Thirty-week-old specific pathogen free egg-laying hens were inoculated with the chicken-origin H9N2 AIV strain (A/Chicken/shaanxi/01/2011) or with inoculating media without virus by combined intraocular and intranasal routes. The time course for the appearance of viral antigen and tissue lesions in the oviduct was coincident with the adverse changes in egg production in the infected hens. The viral loads of AIV have a close correlation with the changes in the uterus CaBP-D28k mRNA expression as well as the Ca concentrations in the eggshells in the infected hens from 1 to 7 days post inoculation (dpi). Ultrastructural examination of eggshells showed significantly decreased shell thickness in the infected hens from 1 to 5 dpi (P < 0.05). Furthermore, obvious changes in the structure of the external shell surface and shell membrane were detected in the infected hens from 1 to 5 dpi as compared with the control hens. In conclusion, this study confirmed that H9N2 AIV strain (A/Chicken/shaanxi/01/2011) infection is associated with severe lesions of the uterus and abnormal expression of CaBP-D28k mRNA in the uteri of the infected hens. The change of CaBP-D28k mRNA expression may contribute to the deterioration of the eggshell quality of the laying hens infected with AIV. It is noteworthy that the pathogenicity of H9N2 AIV strains may vary depending on the virus strain and host preference.

Published

2016

14. Vaccination of chickens decreased Newcastle disease virus contamination in eggs.

Author

Sá E Silva M, Susta L, Moresco K, and Swayne DE

Subjects

Animals, Chickens virology, Female, Newcastle Disease virology, Newcastle disease virus isolation & purification, Newcastle disease virus pathogenicity, Oviducts virology, Ovum virology, Poultry Diseases virology, Chickens immunology, Marek Disease Vaccines immunology, Newcastle Disease prevention & control, Newcastle disease virus immunology, Poultry Diseases prevention & control, Vaccination veterinary

Abstract

Newcastle disease is an important health issue of poultry causing major economic losses and inhibits trade worldwide. Vaccination is used as a control measure, but it is unknown whether vaccination will prevent virus contamination of eggs. In this study, hens were sham-vaccinated or received one or two doses of inactivated LaSota vaccine, followed three weeks later by virulent Newcastle disease virus (NDV) challenge. Eggs were collected daily and shell, albumen and yolk were subjected to virus isolation, as were oral and cloacal swabs at 2 and 4 days post-challenge (dpc). A second experiment evaluated the distribution of the virus in the reproductive tract of non-vaccinates. All vaccinated chickens survived challenge, and the levels of virus shed from cloacal swabs were decreased significantly when compared to shams. In non-vaccinated hens, virus was detected in the ovary and all segments of the oviduct. Yolk, albumen and eggshell surface from eggs laid at day 4 and 5 post-infection by sham-vaccinated hens were positive for NDV, but eggs from LaSota vaccinated hens lacked virus in internal egg components (i.e. yolk and albumen) and had reduction in the number of positive eggshell surfaces. These results indicate virulent NDV can replicate in the reproductive tract of hens and contaminate internal components of eggs and eggshell surface, but vaccination was able to prevent internal egg contamination, reducing eggshell surface contamination, and reducing shedding from digestive and respiratory tracts in virulent NDV challenged hens.

Published

2016

15. Apoptosis induction and release of inflammatory cytokines in the oviduct of egg-laying hens experimentally infected with H9N2 avian influenza virus.

Author

Wang J, Tang C, Wang Q, Li R, Chen Z, Han X, Wang J, and Xu X

Subjects

Animals, Chemokines genetics, Chemokines metabolism, Cytokines genetics, Female, In Situ Nick-End Labeling, Influenza in Birds immunology, Influenza in Birds virology, Oviducts immunology, Oviducts virology, Poultry Diseases immunology, Poultry Diseases pathology, Poultry Diseases virology, RNA, Messenger metabolism, Reproduction, Specific Pathogen-Free Organisms, Toll-Like Receptors genetics, Viral Load, Apoptosis, Chickens, Cytokines metabolism, Influenza A Virus, H9N2 Subtype, Influenza in Birds pathology, Oviducts pathology

Abstract

The H9N2 subtype avian influenza virus (AIV) can cause serious damage to the reproductive tract of egg-laying hens, leading to severe egg-drop and poor egg shell quality. However, previous studies in relation to the oviductal-dysfunction resulted from this agent have not clearly been elucidated. In this study, apoptosis and pathologic changes in the oviducts of egg-laying hens caused by H9N2 AIV were evaluated. To understand the immune response in the pathogenic processes, 30-week old specific pathogen free (SPF) egg-laying hens inoculated with H9N2 subtype of AIV through combined intra-ocular and intra-nasal routes. H9N2 AIV infection resulted in oviductal lesions, triggered apoptosis and expression of immune related genes accompanied with infiltration of CD3(+)CD4(+) and CD3(+)CD8α(+) cells. Significant tissue damage and apoptosis were observed in the five oviductal parts (infundibulum, magnum, isthmus, uterus and vagina) at 5 days post-inoculation (dpi). Furthermore, immune-related genes, including chicken TLR3 (7, 21), MDA5, IL-2, IFN-β, CXCLi1, CXCLi2, XCL1, XCR1 and CCR5 showed variation in the egg-laying hens infected with H9N2 AIV. Notably, mRNA expression of IFN-α was suppressed during the infection. These results show distinct expression patterns of inflammatory cytokines and chemokines amongst segments of the oviduct. Differential gene expression of inflammatory cytokines and lymphocytes aggregation occurring in oviducts may initiate the infected tissue in response to virus replication which may eventually lead to excessive cellular apoptosis and tissue damage., (Copyright © 2015 Elsevier B.V. All rights reserved.)

Published

2015

16. Who is the puppet master? Replication of a parasitic wasp-associated virus correlates with host behaviour manipulation.

Author

Dheilly NM, Maure F, Ravallec M, Galinier R, Doyon J, Duval D, Leger L, Volkoff AN, Missé D, Nidelet S, Demolombe V, Brodeur J, Gourbal B, Thomas F, and Mitta G

Subjects

Animals, Coleoptera physiology, Female, Host-Parasite Interactions, Larva parasitology, Larva virology, Molecular Sequence Data, Oviducts virology, Wasps physiology, Coleoptera parasitology, Coleoptera virology, RNA Viruses physiology, Wasps virology

Abstract

Many parasites modify their host behaviour to improve their own transmission and survival, but the proximate mechanisms remain poorly understood. An original model consists of the parasitoid Dinocampus coccinellae and its coccinellid host, Coleomegilla maculata; during the behaviour manipulation, the parasitoid is not in contact with its host anymore. We report herein the discovery and characterization of a new RNA virus of the parasitoid (D. coccinellae paralysis virus, DcPV). Using a combination of RT-qPCR and transmission electron microscopy, we demonstrate that DcPV is stored in the oviduct of parasitoid females, replicates in parasitoid larvae and is transmitted to the host during larval development. Next, DcPV replication in the host's nervous tissue induces a severe neuropathy and antiviral immune response that correlate with the paralytic symptoms characterizing the behaviour manipulation. Remarkably, virus clearance correlates with recovery of normal coccinellid behaviour. These results provide evidence that changes in ladybeetle behaviour most likely result from DcPV replication in the cerebral ganglia rather than by manipulation by the parasitoid. This offers stimulating prospects for research on parasitic manipulation by suggesting for the first time that behaviour manipulation could be symbiont-mediated., (© 2015 The Author(s) Published by the Royal Society. All rights reserved.)

Published

2015

17. The effect of estrogen on the early cytotoxic response to IB virus infection in hen oviduct.

Author

Nii T, Isobe N, and Yoshimura Y

Subjects

Animals, Avian Proteins genetics, Avian Proteins immunology, Chickens genetics, Coronavirus Infections genetics, Coronavirus Infections immunology, Coronavirus Infections veterinary, Cytokines genetics, Estradiol pharmacology, Female, Gene Expression drug effects, Host-Pathogen Interactions drug effects, Host-Pathogen Interactions genetics, Host-Pathogen Interactions immunology, Oviducts drug effects, Oviposition genetics, Oviposition immunology, Poultry Diseases genetics, Poultry Diseases immunology, Poultry Diseases virology, T-Lymphocyte Subsets drug effects, T-Lymphocyte Subsets immunology, Toll-Like Receptor 7 genetics, Toll-Like Receptor 7 immunology, Chickens immunology, Chickens virology, Cytotoxicity, Immunologic drug effects, Estradiol analogs & derivatives, Infectious bronchitis virus immunology, Infectious bronchitis virus pathogenicity, Oviducts immunology, Oviducts virology

Abstract

The aim of this study was to determine whether the egg-laying phase and estrogen affect the induction of cytotoxic cells in response to avian infectious bronchitis (IB) virus at early stage of infection in the oviduct. Attenuated IB virus (aIBV group) or its vehicle (control group) was introduced to the oviductal magnum lumen of White Leghorn hens in the laying and molting phase, as well as molting hens injected with estradiol benzoate (M-EB hens) or corn oil (M-oil hens). Oviductal isthmus and uterus were collected 24h after injection. The frequency of CD8(+) and TCRγδ(+) T cells expression was examined by immunohistochemistry, followed by image analysis. The expression of the genes of toll-like receptor 7 (TLR7), natural killer cell receptor (BNK), cytotoxic substances (granzyme, perforin), and cytokines (CXCL12, CX3CL1, and IFNγ) were examined by real-time polymerase chain reaction analysis. The frequency of CD8(+) and TCRγδ(+) T cells in the isthmus, and CD8(+) cells in the uterus was significantly higher in the aIBV group compared to the control group of laying and M-EB hens. The expression of all the genes examined in this study in the isthmus, and CX3CL1 and IFNγ expression in the uterus was significantly higher in the aIBV group in the laying and M-EB hens. These results suggested that infection with IB virus causes an immune response involving the influx of cytotoxic cells and upregulation of cytokines in the isthmus and uterus at early stage of infection. This response was stronger during the laying phase compared to the molting phase, probably due to the effect of estrogen., (Copyright © 2015 Elsevier B.V. All rights reserved.)

Published

2015

18. Impact of vaccination on infection with Vietnam H5N1 high pathogenicity avian influenza virus in hens and the eggs they lay.

Author

Bertran K, Moresco K, and Swayne DE

Subjects

Animals, Chickens immunology, Egg Shell anatomy & histology, Egg White virology, Egg Yolk virology, Female, Influenza A Virus, H5N1 Subtype isolation & purification, Influenza in Birds virology, Ovary virology, Oviducts virology, Vaccination veterinary, Vaccines, Inactivated, Chickens virology, Eggs virology, Influenza A Virus, H5N1 Subtype immunology, Influenza A Virus, H5N1 Subtype pathogenicity, Influenza Vaccines, Influenza in Birds prevention & control

Abstract

High pathogenicity avian influenza virus (HPAIV) infections in chickens negatively impact egg production and cause egg contamination. Previously, vaccination maintained egg production and reduced egg contamination when challenged with a North American H5N2 HPAIV. However, Asian H5N1 HPAIV infection has some characteristics of increased pathogenicity compared to other H5 HPAIV such as more rapid drop and complete cessation in egg production. Sham (vaccinated at 25 and 28 weeks of age), inactivated H5N1 Once (1X-H5-Vax; vaccinated at 28 weeks of age only) and inactivated H5N1 Twice (2X-H5-Vax; vaccinated at 25 and 28 weeks of age) vaccinated adult White Leghorn hens were challenged intranasally at 31 weeks of age with 6.1 log10 mean embryo infectious doses (EID50) of clade 2.3.2.1a H5N1 HPAIV (A/chicken/Vietnam/NCVD-675/2011) which was homologous to the inactivated vaccine. Sham-vaccinated layers experienced 100% mortality within 3 days post-challenge; laid soft and thin-shelled eggs; had recovery of virus from oral swabs and in 53% of the eggs from eggshell surface (35%), yolk (24%), and albumin (41%); and had very high titers of virus (average 7.91 log10 EID50/g) in all segments of the oviduct and ovary. By comparison, 1X- and 2X-H5-Vax challenged hens survived infection, laid similar number of eggs pre- and post-challenge, all eggs had normal egg shell quality, and had significantly fewer contaminated eggs with reduced virus quantity. The 2X-H5-Vax hens had significantly higher HI titers by the day of challenge (304 GMT) and at termination (512 GMT) than 1X-H5-Vax hens (45 GMT and 128 GMT). The current study demonstrated that AIV infections caused by clade 2.3.2.1a H5N1 variants can be effectively controlled by either double or single homologous vaccination., (Published by Elsevier Ltd.)

Published

2015

19. Differences in the tissue tropism to chicken oviduct epithelial cells between avian coronavirus IBV strains QX and B1648 are not related to the sialic acid binding properties of their spike proteins.

Author

Mork AK, Hesse M, Abd El Rahman S, Rautenschlein S, Herrler G, and Winter C

Subjects

Animals, Base Sequence, Coronavirus Infections virology, Epithelial Cells virology, Female, Infectious bronchitis virus genetics, Molecular Sequence Data, N-Acetylneuraminic Acid metabolism, Oviducts virology, Spike Glycoprotein, Coronavirus metabolism, Chickens, Coronavirus Infections veterinary, Infectious bronchitis virus physiology, Poultry Diseases virology, Spike Glycoprotein, Coronavirus genetics, Viral Tropism

Abstract

The avian coronavirus (AvCoV) infectious bronchitis virus (IBV) is a major poultry pathogen. A characteristic feature of IBV is the occurrence of many different strains belonging to different serotypes, which makes a complete control of the disease by vaccinations a challenging task. Reasons for differences in the tissue tropism and pathogenicity between IBV strains, e.g. a predilection for the kidneys or the oviduct are still an open question. Strains of the QX genotype have been major pathogens in poultry flocks in Asia, Europe and other parts of the world. They are the cause of severe problems with kidney disease and reproductive tract disorders. We analysed infectivity and binding properties of the QX strain and compared them with those of the nephropathogenic strain B1648. As most IBV strains do not infect permanent cell lines and show infection only in primary chicken cells of the target organs, we developed a culture system for chicken oviduct explants. The epithelial cells of the oviduct showed a high susceptibility to infection by the QX strain and were almost resistant to infection by the nephropathogenic B1648 strain. Binding tests with isolated primary oviduct epithelial cells and soluble S1 proteins revealed that S1 proteins of two IBV strains bound with the same efficiency to oviduct epithelial cells. This attachment was sialic acid dependent, indicating that the sugar binding property of IBV spike proteins is not the limiting factor for differences in infection efficiency for the oviduct of the corresponding viruses.

Published

2014

20. Effects of avian infectious bronchitis virus antigen on eggshell formation and immunoreaction in hen oviduct.

Author

Nii T, Isobe N, and Yoshimura Y

Subjects

Animals, Antigens, Viral immunology, CD8-Positive T-Lymphocytes immunology, Collagen genetics, Coronavirus Infections immunology, Coronavirus Infections physiopathology, Cytokines genetics, Female, Gene Expression, Infectious bronchitis virus physiology, Lymphocyte Count, Oviducts immunology, Oviducts virology, Receptors, Antigen, T-Cell, gamma-delta analysis, Receptors, Cytokine genetics, Receptors, Interleukin-1 genetics, Receptors, Interleukin-6 genetics, T-Lymphocytes immunology, Uterus cytology, Uterus immunology, Chickens, Coronavirus Infections veterinary, Egg Shell metabolism, Infectious bronchitis virus immunology, Oviducts physiopathology, Poultry Diseases virology

Abstract

The aim of this study was to determine the mechanism by which the avian infectious bronchitis virus (IBV) affects eggshell formation. Attenuated IBV (aIBV group) or vehicle (control group) was injected into the oviductal magnum lumen of White Leghorn laying hens. The changes in the expression of genes related to eggshell formation (collagen types I and V, and CaBP-D28K), densities of cytotoxic cells (CD8(+) and TCR-γδ(+) T cells), and gene expression of molecules related to cytotoxic immunoreaction (B-NK, perforin, granzyme, and IL-2) and proinflammatory cytokines (IL-1β, IL-6 and IFN-γ) were examined by quantitative reverse transcriptase polymerase chain reaction or immunohistochemistry in the isthmus and uterus. Gene expression of IL-1β and IL-6receptors in the tubular gland cells of the isthmus and uterus was analyzed by reverse transcriptase polymerase chain reaction. Gene expression of collagen type I, but not collagen type V, in the isthmus and CaBP-D28K in the uterus was decreased in the aIBV group compared with that in the control. The frequencies of CD8(+) cells and TCR-γδ(+) T cells in the isthmus and uterus were significantly higher in the aIBV group than in the control group. The expression of cytotoxic molecular and proinflammatory cytokines was also higher in the aIBV group than in the control. The expression of IL-6 receptor, but not IL-1β receptor, was identified in the tubular gland cells in the isthmus and uterus. These results suggest that IBV infection causes disorder of eggshell formation by disturbing gene expression of collagen type I in the isthmus and CaBP-D28K in the uterus, probably via the effects of substances from cytotoxic cells and proinflammatory cytokines., (Copyright © 2014 Elsevier Inc. All rights reserved.)

Published

2014

21. High-pathogenicity avian influenza virus in the reproductive tract of chickens.

Author

Sá e Silva M, Rissi DR, Pantin-Jackwood M, and Swayne DE

Subjects

Animals, Eggs virology, Epithelium virology, Female, Genitalia, Female pathology, Genitalia, Female virology, Influenza A virus pathogenicity, Influenza in Birds virology, Ovary pathology, Ovary virology, Oviducts virology, Poultry Diseases virology, Reproductive Tract Infections pathology, Reproductive Tract Infections virology, Virulence, Virus Replication, Chickens virology, Influenza A virus isolation & purification, Influenza in Birds pathology, Poultry Diseases pathology, Reproductive Tract Infections veterinary

Abstract

Infection with high-pathogenicity avian influenza virus (HPAIV) has been associated with a wide range of clinical manifestations in poultry, including severe depression in egg production and isolation of HPAIV from eggs laid by infected hens. To evaluate the pathobiology in the reproductive tract of chickens, adult hens were inoculated intranasally with 3 HPAIV strains. All 3 strains induced lesions in the reproductive tract 36 to 72 hours after inoculation. Positive immunostaining was observed in all segments of the reproductive tract, occurring predominantly in stromal cells and superficial germinal epithelium of the ovary, in mucosal epithelial cells and less often glandular epithelium throughout the oviduct, and in vascular endothelium. This study generates important data and explains previously reported virus isolation from yolk, due to ovarian virus replication, and virus recovery from albumin, due to virus replication in epithelial cells in several segments of the oviduct.

Published

2013

22. Comparative genomics of Korean infectious bronchitis viruses (IBVs) and an animal model to evaluate pathogenicity of IBVs to the reproductive organs.

Author

Hong SM, Kwon HJ, Kim IH, Mo ML, and Kim JH

Subjects

Animals, Antibodies, Viral blood, Antibodies, Viral immunology, Chickens virology, Computational Biology methods, Coronavirus Infections immunology, Coronavirus Infections prevention & control, Female, Genital Diseases, Female immunology, Genital Diseases, Female prevention & control, Genomics, Humans, Infectious bronchitis virus immunology, Oviducts pathology, Phylogeny, Poultry Diseases immunology, Poultry Diseases prevention & control, Poultry Diseases virology, Sequence Analysis, DNA, Vaccines, Inactivated, Viral Proteins chemistry, Viral Proteins genetics, Viral Proteins immunology, Viral Vaccines administration & dosage, Viral Vaccines immunology, Coronavirus Infections virology, Genital Diseases, Female virology, Genome, Viral, Infectious bronchitis virus genetics, Infectious bronchitis virus pathogenicity, Oviducts virology

Abstract

The K-I and nephropathogenic K-II genotypes of infectious bronchitis virus (IBV) have been isolated since 1995 and 1990, respectively, in Korea and commercial inactivated oil-emulsion vaccines containing KM91 (K-II type) and Massachusetts 41 strains have been used in the field. To date, genomic analyses of Korean IBV strains and animal models to test the pathogenicity of Korean IBVs to the reproductive organs have been rare. In the present study, comparative genomics of SNU8067 (K-I type) and KM91 IBVs was performed, and an animal model to test the pathogenicity of SNU8067 was established and applied to vaccine efficacy test. The genome sizes of SNU8067 (27,708 nt) and KM91 (27,626 nt) were slightly different and the nucleotide and amino acid identities of the S1 (79%, 77%), 3a (65%, 52%), and 3b (81%, 72%) genes were lower than those of other genes (94%-97%, 92%-98%). A recombination analysis revealed that SNU8067 was a recombinant virus with a KM91-like backbone except S1, 3a, and 3b genes which might be from an unknown virus. An SNU8067 infection inhibited formation of hierarchal ovarian follicles (80%) and oviduct maturation (50%) in the control group, whereas 70% of vaccinated chickens were protected from lesions.

Published

2012

23. Determination of the distribution of lentogenic vaccine and virulent Newcastle disease virus antigen in the oviduct of SPF and commercial hen using immunohistochemistry.

Author

Bwala DG, Clift S, Duncan NM, Bisschop SP, and Oludayo FF

Subjects

Animals, Chickens virology, Enzyme-Linked Immunosorbent Assay veterinary, Female, Newcastle Disease immunology, Newcastle Disease pathology, Newcastle Disease virology, Oviducts chemistry, Oviducts pathology, Viral Vaccines administration & dosage, Viral Vaccines immunology, Antigens, Viral analysis, Newcastle Disease prevention & control, Newcastle disease virus immunology, Oviducts virology, Viral Vaccines therapeutic use

Abstract

The control of Newcastle disease (ND) in South Africa has proved difficult since 2002 following the introduction of lineage 5d/VIId Newcastle disease virus (NDV) strain ("goose paramyxovirus" - GPMV) to which commercially available ND vaccines appeared less effective. Most of the ND infections, even in fully vaccinated hens were characterized consistently by a drop in egg production. In this study, commercial and SPF hens-in-lay were vaccinated with La Sota vaccine and challenged with a GPMV isolate. Immunohistochemical labeling was used to determine the distribution of viral antigen in the oviduct of the hens. Following reports that cloacal vaccination offered better protection against egg production losses than the oro-nasal route, the efficacy of cloacal and ocular routes of vaccination against challenge were compared. Results showed that La Sota vaccine offered birds 100% protection against the virulent ND (GPMV) virus challenge from clinical disease and death, but not against infection and replication of the GPMV, as birds showed varying degrees of macropathology. Histopathology of the oviduct of infected birds revealed multifocal lymphocytic inflammation in the interstitium as well as mild glandular ectasia and mild edema. Finely granular NDV-specific immunolabeling was demonstrated in the cytoplasm of epithelial cells and mononuclear (lymphohistiocytic) cells in the interstitium of the oviduct. Both vaccine and virulent GPMV showed greatest tropism for the uterus (versus the magnum and isthmus). There was no clear difference in the protection of the oviduct and in the distribution of oviductal GPMV antigens between the two routes of vaccination., (Crown Copyright © 2011. Published by Elsevier India Pvt Ltd. All rights reserved.)

Published

2012

24. Low pathogenicity avian influenza viruses infect chicken layers by different routes of inoculation.

Author

Pantin-Jackwood MJ, Smith DM, Wasilenko JL, and Spackman E

Subjects

Animal Husbandry, Animals, Antibodies, Viral blood, Antigens, Viral analysis, Chick Embryo, Cloaca virology, Female, Hemagglutination Inhibition Tests veterinary, Host-Pathogen Interactions, Influenza A Virus, H9N2 Subtype classification, Influenza A Virus, H9N2 Subtype physiology, Influenza A virus classification, Influenza in Birds blood, Influenza in Birds pathology, Oviducts virology, Ovum physiology, Ovum virology, Chickens, Influenza A virus physiology, Influenza in Birds transmission, Influenza in Birds virology

Abstract

In order to develop better control measures against avian influenza, it is necessary to understand how the virus transmits in poultry. In a previous study in which the infectivity and transmissibility of the pandemic H1N1 influenza virus was examined in different poultry species, we found that no or minimal infection occurred in chicken and turkeys intranasally (IN) inoculated with the virus. However, we demonstrated that the virus can infect laying turkey hens by the intracloacal (IC) and intraoviduct (IO) routes, possibly explaining the drops in egg production observed in turkey breeder farms affected by the virus. Such novel routes of exposure have not been previously examined in chickens and could also explain outbreaks of low pathogenicity avian influenza (LPAI) that cause a decrease in egg production in chicken layers and breeders. In the present study, 46-wk-old specific-pathogen-free chicken layers were infected by the IN, IC, or IO routes with one of two LPAI viruses: a poultry origin virus, A/chicken/CA/1255/02 (H6N2), and a live bird market isolate, A/chicken/NJ/12220/97 (H9N2). Only hens IN inoculated with the H6N2 virus presented mild clinical signs consisting of depression and anorexia. However, a decrease in number of eggs laid was observed in all virus-inoculated groups when compared to control hens. Evidence of infection was found in all chickens inoculated with the H6N2 virus by any of the three routes and the virus transmitted to contact hens. On the other hand, only one or two hens from each of the groups inoculated with the H9N2 virus shed detectable levels of virus, or seroconverted and did not transmit the virus to contacts, regardless of the route of inoculation. In conclusion, LPAI viruses can also infect chickens through other routes besides the IN route, which is considered the natural route of exposure. However, as seen with the H9N2 virus, the infectivity of the virus did not increase when given by these alternate routes.

Published

2012

25. Development of DIVA (differentiation of infected from vaccinated animals) vaccines utilizing heterologous NA and NS1 protein strategies for the control of triple reassortant H3N2 influenza in turkeys.

Author

Wang L, Qin Z, Pantin-Jackwood M, Faulkner O, Suarez DL, Garcia M, Lupiani B, Reddy SM, Saif YM, and Lee CW

Subjects

Animals, Cloaca virology, Diagnosis, Differential, Female, Influenza A Virus, H3N2 Subtype isolation & purification, Influenza Vaccines administration & dosage, Influenza in Birds virology, Oviducts virology, Trachea virology, Turkeys, United States, Virus Shedding, Influenza A Virus, H3N2 Subtype immunology, Influenza Vaccines immunology, Influenza in Birds immunology, Neuraminidase immunology, Viral Nonstructural Proteins immunology, Viral Proteins immunology

Abstract

Since 2003, triple reassortant (TR) swine H3N2 influenza viruses containing gene segments from human, avian, and swine origins have been detected in the U.S. turkey populations. The initial outbreak that occurred involved birds that were vaccinated with the currently available H3 swine- and avian-origin influenza vaccines. Antigenically, all turkey swine-lineage TR H3N2 isolates are closely related to each other but show little or no antigenic cross-reactivity with the avian origin or swine origin influenza vaccine strains that are currently being used in turkey operations. These results call for re-evaluation of currently available influenza vaccines being used in turkey flocks and development of more effective DIVA (differentiation of infected from vaccinated animals) vaccines. In this study, we selected one TR H3N2 strain, A/turkey/OH/313053/04 (H3N2) that showed broad cross reactivity with other recent TR turkey H3N2 isolates, and created NA- and NS-based DIVA vaccines using traditional reassortment as well as reverse genetics methods. Protective efficacy of those vaccines was determined in 2-week-old and 80-week-old breeder turkeys. The reassortant DIVA vaccines significantly reduced the presence of challenge virus in the oviduct of breeder turkeys as well as trachea and cloaca shedding of both young and old breeder turkeys, suggesting that proper vaccination could effectively prevent egg production drop and potential viral contamination of eggs in infected turkeys. Our results demonstrate that the heterologous NA and NS1 DIVA vaccines together with their corresponding serological tests could be useful for the control of TR H3N2 influenza in turkeys., (Copyright © 2011 Elsevier Ltd. All rights reserved.)

Published

2011

26. Induction of cystic oviducts and protection against early challenge with infectious bronchitis virus serotype D388 (genotype QX) by maternally derived antibodies and by early vaccination.

Author

de Wit JJ, Nieuwenhuisen-van Wilgen J, Hoogkamer A, van de Sande H, Zuidam GJ, and Fabri TH

Subjects

Animals, Base Sequence, Coronavirus Infections pathology, Coronavirus Infections prevention & control, Female, Immunohistochemistry veterinary, Infectious bronchitis virus pathogenicity, Kidney pathology, Kidney virology, Molecular Sequence Data, Netherlands, Neutralization Tests veterinary, Oviducts pathology, Oviducts virology, Poultry Diseases pathology, Reverse Transcriptase Polymerase Chain Reaction veterinary, Sequence Analysis, DNA veterinary, Species Specificity, Specific Pathogen-Free Organisms, Vaccination methods, Antibodies, Neutralizing therapeutic use, Chickens, Coronavirus Infections veterinary, Infectious bronchitis virus genetics, Poultry Diseases prevention & control, Poultry Diseases virology, Vaccination veterinary

Abstract

Since the end of 2003, strains of the D388 serotype (QX genotype) of infectious bronchitis virus (IBV) have caused considerable damage to the Dutch poultry industry. In order to better understand the pathogenesis of infection caused by this infectious bronchitis variant and to be able to support the poultry industry with substantiated advice to prevent or decrease the damage caused by the D388 strain, several vaccination and challenge experiments were performed in young specific pathogen free layers, young layers with maternally derived antibodies against the D388 strain and young commercial broiler breeders. The experiments confirmed the field observations that the D388 strain of the QX genotype is a very pathogenic strain that is able to cause cystic oviducts in a high percentage of birds, mortality due to nephritis and respiratory distress with complete tracheal ciliostasis and airsacculitis. Vaccination programmes using different combinations of heterologous live vaccines at day 0 or at days 0 and 14 induced a reasonable to high level of protection in the trachea, kidney, oviduct and air sacs against challenge with the D388 strain at 28 days of age. However, for very early protection, maternally-derived D388-neutralizing antibodies were shown to be very important. Titres of 9 to 10 log(2) maternally-derived D388 virus-neutralizing antibodies, which provided partial protection against tracheal damage and a high protection against replication of D388 in the kidney after challenge at 6 or 10 days of age, could be achieved using a broad heterologous live priming and subsequent boosting using inactivated IBV vaccines containing two or three heterologous IBV antigens.

Published

2011

27. Comparative histopathology and immunohistochemistry of QX-like, Massachusetts and 793/B serotypes of infectious bronchitis virus infection in chickens.

Author

Benyeda Z, Szeredi L, Mató T, Süveges T, Balka G, Abonyi-Tóth Z, Rusvai M, and Palya V

Subjects

Animals, Chickens, Coronavirus Infections metabolism, Coronavirus Infections pathology, Female, Immunohistochemistry, Kidney metabolism, Kidney pathology, Oviducts metabolism, Oviducts pathology, Poultry Diseases metabolism, Poultry Diseases pathology, Serotyping, Trachea metabolism, Trachea pathology, Coronavirus Infections veterinary, Infectious bronchitis virus immunology, Kidney virology, Oviducts virology, Poultry Diseases virology, Trachea virology

Abstract

The aim of this study was to compare experimentally the pathogenicity and tissue distribution of the recently emerged QX-like strain of infectious bronchitis virus (IBV) with the widespread M41 and 793/B serotypes of the virus. Histopathological and immunohistochemical methods were employed to define the main sites of virus replication. One-day-old specific pathogen free chickens were inoculated with five different QX-like strains, or with the M41 and 793/B IBV strains and monitored for 42 days post-infection. Tracheal lesions developed in all infected birds, confirming the ability of all of the tested strains to induce respiratory disease. Replication of the isolates in the alimentary tract was detected, but the infection did not cause significant gut lesions. Four of the five QX-like IBV strains induced severe kidney lesions. Dilation of the oviduct with accumulation of serum-like fluid in the lumen of this structure, reported previously from field cases of QX-like IBV infection, was observed following experimental infection with all of the five QX-like strains. Microscopical and immunohistochemical examination of the affected oviducts did not help to elucidate the pathogenesis of this lesion., (Copyright © 2010 Elsevier Ltd. All rights reserved.)

Published

2010

28. Detection of infectious bronchitis virus strain N1/88 from the oviduct and feces of experimentally infected vaccinated and unvaccinated hens.

Author

Chousalkar KK, Cheetham BF, and Roberts JR

Subjects

Animals, Coronavirus genetics, Coronavirus isolation & purification, Coronavirus Infections diagnosis, Coronavirus Infections immunology, DNA Primers, Female, Infectious bronchitis virus immunology, Nucleocapsid genetics, Oviposition, Polymerase Chain Reaction, Poultry Diseases immunology, RNA, Viral genetics, RNA, Viral isolation & purification, Sensitivity and Specificity, Vaccines, Attenuated administration & dosage, Coronavirus Infections veterinary, Feces virology, Infectious bronchitis virus isolation & purification, Oviducts virology, Poultry Diseases virology, Viral Vaccines administration & dosage

Abstract

Hens were vaccinated during the rearing phase with infectious bronchitis virus (IBV) vaccines commercially available in Australia (Vic S and A3) or left unvaccinated and then challenged with the N1/88 strain of IBV at 30 wk of age. Oviduct and fecal samples were collected at regular intervals after N1/88 challenge. A locked nucleic acid probe-based reverse transcription real-time PCR test was designed and used to detect the IBV strain N1/88 from the oviduct and feces of unvaccinated and vaccinated laying hens. Using a recombinant plasmid standard, the detection limit of the reaction was found to be 100 copies and independent assay runs showed reproducible threshold cycle values. Viral RNA was detected in the oviduct of 12 unvaccinated then challenged hens and viral RNA increased sharply on d 10 and 12 postinfection (p.i.). By contrast, among the hens in the vaccinated group, N1/88 was detectable only in the oviduct of 2 hens at 8 and 12 d p.i. N1/88 challenge. Viral RNA was detected in feces of 2 unvaccinated hens up to 4 wk p.i. and in 1 vaccinated hen up to 3 wk p.i. This shows that rearing phase vaccination lowers the total viral RNA of the strain N1/88, even though this strain shows considerable antigenic and genetic variation from the vaccine strain. This new test will be useful for the rapid identification of the N1/88 strain of IBV from oviduct and fecal samples.

Published

2010

29. Host intraspatial selection of infectious bronchitis virus populations.

Author

Gallardo RA, van Santen VL, and Toro H

Subjects

Animals, Coronavirus Infections virology, Female, Host-Pathogen Interactions, Male, Oviducts virology, Specific Pathogen-Free Organisms, Tears virology, Testis virology, Time Factors, Trachea virology, Chickens, Coronavirus Infections veterinary, Infectious bronchitis virus genetics, Poultry Diseases virology, Selection, Genetic

Abstract

Arkansas (Ark)-type infectious bronchitis virus (IBV) subpopulations with an S gene sequence distinct from the vaccine predominant consensus were previously found in the upper respiratory tract of chickens within 3 days after inoculation. This finding indicated that a distinct virus subpopulation was rapidly positively selected by the chicken upper respiratory tract. We hypothesized that during host invasion, the replicating IBV population further changes as it confronts the distinct environments of different tissues, leading to selection of the most fit population. We inoculated 15-day-old chickens with 10(4) 50% embryo infective doses of an Ark-type IBV commercial vaccine via the ocular and nasal routes and characterized the sequences of the S1 gene of IBV contained in tear fluid, trachea, and reproductive tract of individual chickens at different times postinoculation. The predominant IBV phenotype contained in the vaccine (before inoculation) became a minor or nondetectable population at all times in all tissues after replication in the majority of the chickens, corroborating our previous findings. Five new predominant populations designated component (C) 1 through C5, showing distinct nonsynonymous changes, i.e., nucleotide changes resulting in different amino acids encoded and thus in a phenotypic change of the predominant virus population, were detected in the tissues or fluids of individual vaccinated chickens. Due to the different biochemical properties of some amino acids that changed in the S1 glycoprotein, we anticipate that phenotypic shift occurred during the invasion process. Significant differences were detected in the incidence of some distinct IBV predominant populations in tissues and fluids; e.g., phenotype C1 showed the highest incidence in the reproductive tract of the chickens, achieving a significant difference versus its incidence in the trachea (P < 0.05). These results indicate for the first time that IBV undergoes intraspatial variation during host invasion, i.e., the dominant genotype/phenotype further changes during host invasion as the microenvironment of distinct tissues exerts selective pressure on the replicating virus population.

Published

2010

30. Effects of infectious bronchitis virus vaccine on the oviduct of hens.

Author

Chousalkar KK, Cheetham BF, and Roberts JR

Subjects

Animals, Coronavirus Infections immunology, Coronavirus Infections pathology, Coronavirus Infections prevention & control, Coronavirus Infections veterinary, Female, Infectious bronchitis virus classification, Infectious bronchitis virus genetics, Oviducts pathology, Oviducts virology, Poultry Diseases immunology, Poultry Diseases pathology, Poultry Diseases prevention & control, Vaccines, Attenuated pharmacology, Chickens immunology, Chickens virology, Infectious bronchitis virus immunology, Oviducts immunology, Viral Vaccines pharmacology

Abstract

In Australia, currently, all pullets reared for egg production are vaccinated with live attenuated strains of infectious bronchitis virus. Various vaccines and protocols to control this viral disease have been developed, although the severity of the disease varies from place to place and flock to flock. In the present trial, the effects of vaccine strains A3 and Vic S on the oviduct of laying hens were assessed by histopathology, electron microscopy, serology and also by determining the presence and persistence of viral RNA in the oviduct by real time PCR following the experimental infection. Birds were either unvaccinated or vaccinated with both A3 and Vic S and then mock-infected, challenged with the same attenuated strains, either A3 or Vic S. Some respiratory signs were observed, but were mild and short-lived. There was no drop in egg production in any of the groups. However, there was visual loss of shell colour in the unvaccinated hens challenged with the Vic S strain. Mild histopathology was recorded only in terms of lymphocyte infiltration and occasional submucosal oedema in the infundibulum and very mild gland dilatation in the magnum. Microscopic lesions were not recorded in the isthmus, tubular shell gland or shell gland pouch. Cilia loss was not observed in any region of the oviduct using scanning electron microscopy. Both the A3 and Vic S vaccine strains were detected in the oviduct of vaccinated and unvaccinated hens, mainly on the 12th day p.i. These results indicate that the A3 and Vic S strains replicate at a low level in the oviduct without causing significant damage and hence are safe for the oviduct.

Published

2009

31. LNA probe-based real-time RT-PCR for the detection of infectious bronchitis virus from the oviduct of unvaccinated and vaccinated laying hens.

Author

Chousalkar KK, Cheetham BF, and Roberts JR

Subjects

Animals, Chickens, Coronavirus Infections immunology, Coronavirus Infections prevention & control, Coronavirus Infections virology, Female, Infectious bronchitis virus genetics, Infectious bronchitis virus immunology, Nucleic Acid Probes, Poultry Diseases immunology, Poultry Diseases prevention & control, RNA, Viral analysis, RNA, Viral isolation & purification, Vaccination veterinary, Viral Vaccines immunology, Coronavirus Infections veterinary, Infectious bronchitis virus isolation & purification, Oviducts virology, Poultry Diseases virology, Reverse Transcriptase Polymerase Chain Reaction methods, Viral Vaccines administration & dosage

Abstract

In the present study, LNA-probe based real-time PCR was designed for the detection and absolute quantification of infectious bronchitis virus (IBV) from the oviduct of unvaccinated and vaccinated hens after IBV challenge. Using a recombinant plasmid standard, the detection limit of the reaction was found to be 10 copies and independent assay runs showed reproducible Ct values. Amongst the unvaccinated hens, the virus could be detected between 6 and 20 days post-infection (p.i.), with a peak of viral load between 10 and 14 days p.i. The virus was also detectable in the oviduct of vaccinated, challenged hens although the viral load was much lower compared to the viral load in the oviduct of unvaccinated, challenged hens. This indicates that rearing phase vaccination can offer significant protection of the fully functional oviduct against a pathogenic strain of IBV. The present test will be useful for the rapid identification of IBV directly from clinical samples. Most vaccination trials investigating the efficacy of vaccines for layer and breeder hens have been conducted based on the respiratory tract response. Evaluation of viral load from the oviduct of vaccinated and unvaccinated hens is an efficient method for assessing oviduct protection in commercial laying hens.

Published

2009

32. Detection and localization of naturally transmitted avian leukosis subgroup J virus in egg-type chickens by in situ PCR hybridization.

Author

Li N, Xu B, Dong W, Qiao S, Lee LF, Zhang HM, Li M, and Du N

Subjects

Animals, Chickens, China, Female, In Situ Hybridization veterinary, Kidney pathology, Kidney virology, Liver pathology, Liver virology, Oviducts pathology, Oviducts virology, Polymerase Chain Reaction methods, Polymerase Chain Reaction veterinary, Poultry Diseases transmission, Avian Leukosis transmission, Avian Leukosis virology, Avian Leukosis Virus isolation & purification, Poultry Diseases virology

Abstract

Avian leukosis virus (ALV) subgroup J (ALV-J) is an exogenous ALV and causes myeloid leukosis in meat-type chickens. We have previously reported the isolation and identification of ALV-J in commercial layer flocks from 12 farms in northern China. In this report, we further characterized this virus by in situ polymerase chain reaction (PCR) hybridization in various affected organs of chickens from six of the 12 farms. A routine method for hybridization of nucleic acid uses radioactive probe, such as a P32-labelled probe. We found that the non-radioactive digoxigenin (DIG) probe is sensitive enough to detect the nucleic acid of virus in chicken tissues. We used a pair of published primers (H5/H7) specific to the gp85 envelope gene and 3' region of pol gene of prototype ALV-J strain HPRS-103. The total RNA extracted from tumour, bone marrow, oviduct, liver and spleen of the diseased chickens from six commercial flocks, and cDNA was successfully amplified. Using the primers and cDNA, we obtained an ALV-J-specific cDNA probe of 545 bp in length by PCR. In situ PCR with H5/H7 primers was carried out in the paraffin sections from tissues of the diseased chickens, followed by in situ hybridization using the DIG-labelled cDNA probe. Positive hybridization signals were detected in the cytoplasm of paraffin sections of tumours and other organ tissues. The intensity of the signals was documented using an image analysis system measuring integral optical density (IOD). The IOD values for tissue sections treated by in situ PCR hybridization are significantly higher than that by in situ hybridization alone (P < 0.01). These data taken together suggest that in situ PCR hybridization is a more sensitive technique for detection of ALV-J in tissue sections.

Published

2007

33. Ultrastructural observations on effects of infectious bronchitis virus in eggshell-forming regions of the oviduct of the commercial laying hen.

Author

Chousalkar KK and Roberts JR

Subjects

Animals, Female, Oviposition, Chickens, Egg Shell physiology, Infectious bronchitis virus ultrastructure, Oviducts ultrastructure, Oviducts virology

Abstract

The pathogenesis of 2 strains of infectious bronchitis virus (T and N1/88 strains) was studied in the eggshell-forming regions of the oviduct of commercial laying hens. There were no external shell deformities, except for paler shells. There was no decline in egg production in either of the infected groups. One hen from the N1/88-infected group and 2 hens from the T-infected group were out of lay. The light, scanning, and transmission electron microscopic changes in infected shell-forming regions of the oviduct were compared with the control oviducts at different egg positions. The ultrastructural finding revealed that the extent of cytopathology in the isthmus was greater than in the tubular shell gland and shell gland pouch. The T strain of infectious bronchitis virus was more pathogenic compared with the N1/88 strain. Severe cytopathology was recorded in the shell-forming region of hens that were out of production, and virus particles were observed in hens that had stopped laying. Virus particles were recorded in the dilated rough endoplasmic reticulum and Golgi complex of the isthmus, tubular shell gland, and shell gland pouch of all 3 hens that had stopped laying. Although a decrease in egg production and deterioration in eggshell quality were not observed in this trial, cessation of egg production in a small number of hens could be due to severe cytopathology in the eggshell-forming regions of the oviduct.

Published

2007

34. Ultrastructural study of infectious bronchitis virus infection in infundibulum and magnum of commercial laying hens.

Author

Chousalkar KK and Roberts JR

Subjects

Animals, Coronavirus Infections pathology, Coronavirus Infections virology, Endoplasmic Reticulum, Rough virology, Female, Golgi Apparatus virology, Microscopy, Electron, Scanning methods, Microscopy, Electron, Scanning veterinary, Microscopy, Electron, Transmission methods, Microscopy, Electron, Transmission veterinary, Oviducts virology, Pituitary Gland, Posterior virology, Poultry Diseases pathology, Chickens, Coronavirus Infections veterinary, Infectious bronchitis virus isolation & purification, Oviducts ultrastructure, Pituitary Gland, Posterior ultrastructure, Poultry Diseases virology

Abstract

The infundibulum and magnum of the oviduct were examined in hens in full lay which were infected with two Australian strains of infectious bronchitis virus (IBV). The ultramicroscopic changes in the infundibulum and magnum were compared with control hens which had eggs at different positions in the oviduct. The ciliated and granular cells of the surface epithelia and secretory epithelial cells of the tubular glands were the target cells of IBV. No pathological changes were recorded during 2-8 days post-infection (p.i.). Patchy loss of cilia occurred at 10-14 days p.i. Between 16 and 24 days p.i., there was no cilia loss and lymphoid nodules were observed in the muscularis layer of the infundibulum and magnum of some hens from both infected groups. Virus particles were detected mostly in the rough endoplasmic reticulum (RER) and Golgi complex between 10 and 12 days p.i. Cytopathology was noticed in various cell organelles between the 10th and 14th days p.i. There was an increase in RER deposits in infected cells, irrespective of egg position in the oviduct. The magnum was more affected than the infundibulum. Cellular changes were more severe in the infundibulum and magnum of T-infected hens as compared to N1/88-infected hens. Eggs with watery whites which were laid by infected hens could be attributed to cytopathological changes in the granular epithelial cells and tubular gland epithelial cells of the magnum resulting in reduced synthesis of albumen proteins. IBV can cause pathology in parts of the fully functional oviduct which may persist up to the 30th day p.i. However, both the challenge strains of IBV can cause a small number of hens to cease production. Loss of cilia in both the infundibulum and magnum pose a potential threat of secondary bacterial infection and also may affect fertility in breeder hens.

Published

2007

35. Comparative histopathology of two serotypes of infectious bronchitis virus (T and n1/88) in laying hens and cockerels.

Author

Chousalkar KK, Roberts JR, and Reece R

Subjects

Animals, Coronavirus Infections pathology, Coronavirus Infections virology, Female, Gastrointestinal Tract pathology, Gastrointestinal Tract virology, Harderian Gland pathology, Harderian Gland virology, Kidney virology, Male, Oviducts pathology, Oviducts virology, Trachea virology, Chickens virology, Coronavirus Infections veterinary, Infectious bronchitis virus classification, Infectious bronchitis virus pathogenicity, Poultry Diseases pathology, Poultry Diseases virology

Abstract

The comparative and sequential histopathology of different tissues of unvaccinated laying hens and cockerels were studied in chickens exposed to T and N1/88 strain of infectious bronchitis virus (IBV). The Harderian gland and trachea of hens and cockerels in both T- and N1/88-infected groups were damaged to a similar extent. The cecum was unaffected for both strains of IBV in both hens and cockerels. The sequential histopathological changes in hens revealed that IBV multiplies initially in the Harderian gland, then in the tracheal mucosa and simultaneously in the kidney and regions of the oviduct such as the magnum, tubular shell gland, and shell gland pouch. In cockerels, IBV multiplies first in the Harderian gland, then simultaneously in the trachea and kidney. Overall, the severity and persistence of lesions were greater in the kidneys of T-infected hens as compared with N1/88-infected hens. However, pathological changes in the kidney were mild in T- and N1/88-infected cockerels.

Published

2007

36. Histopathology of two serotypes of infectious bronchitis virus in laying hens vaccinated in the rearing phase.

Author

Chousalkar KK, Roberts JR, and Reece R

Subjects

Animals, Chickens growth & development, Chickens immunology, Coronavirus Infections immunology, Coronavirus Infections prevention & control, Coronavirus Infections virology, Female, Harderian Gland pathology, Harderian Gland virology, Kidney pathology, Kidney virology, Oviducts pathology, Oviducts virology, Poultry Diseases prevention & control, Serotyping, Trachea pathology, Trachea virology, Chickens virology, Coronavirus Infections veterinary, Infectious bronchitis virus classification, Infectious bronchitis virus immunology, Poultry Diseases immunology, Poultry Diseases virology, Viral Vaccines administration & dosage, Viral Vaccines immunology

Abstract

The comparative histopathology of 2 different strains of infectious bronchitis virus (T and N1/ 88) in vaccinated hens was studied at 110 wk of age. The Harderian gland showed similar histopathology in T- and N1/88-infected hens. The trachea and kidney of challenged vaccinated hens were protected to a moderate extent, but the oviduct was protected to only a small extent. The severity and persistence of lesions were greater in tubular shell gland, shell gland pouch, and kidney of the T-infected hens, whereas, for the magnum, N1/88 had a greater effect.

Published

2007

37. Artifical transfer and morphological description of virus particles associated with superparasitism behaviour in a parasitoid wasp.

Author

Varaldi J, Ravallec M, Labrosse C, Lopez-Ferber M, Boulétreau M, and Fleury F

Subjects

Animals, Anti-Bacterial Agents pharmacology, Female, Host-Parasite Interactions drug effects, Host-Parasite Interactions physiology, Insect Viruses ultrastructure, Male, Microscopy, Electron, Transmission veterinary, Oviducts virology, Phenotype, Polymerase Chain Reaction veterinary, RNA, Ribosomal, 16S genetics, Rifampin pharmacology, Tetracycline pharmacology, Virion ultrastructure, Wasps physiology, Behavior, Animal physiology, Drosophila melanogaster parasitology, Insect Viruses physiology, Virion physiology, Wasps virology

Abstract

In parasitoids, the adaptive significance of superparasitism (laying of egg(s) in already parasitized hosts) has been the subject of strong controversy. The current view is to interpret this behaviour as an adaptation to increased competition for hosts, because the supernumerary egg still has a chance to win possession for the host. However, we recently discovered that in the solitary parasitoid Leptopilina boulardi, superparasitism is rather caused by an unknown infectious element: stable non superparasitizing lineages (NS) are transformed into stable superparasitizing lineages (S) after eggs from both lineages have competed inside the same host (superparasitism). In this report, we investigate the nature and location of the causative agent. Involvement of bacteria is unlikely because antibiotic treatments do not affect wasp phenotype and because bacterial 16S ribosomal DNA was not detected using PCR. We report successful injection experiments showing that the causative agents are located in wasp poison gland and ovaries and are stably inherited. Electron microscopic studies demonstrate that long filamentous virus particles located in wasp oviducts are strongly associated with superparasitism behaviour, leading to reconsider the adaptive significance of this behaviour in parasitoids. Interestingly, parasitoids are often infected with similar viruses for which no phenotypic effect has been documented. This raises the possibility that they could induce the same behavioural manipulation.

Published

2006

38. Isolation of avian influenza virus A subtype H5N1 from internal contents (albumen and allantoic fluid) of Japanese quail (Coturnix coturnix japonica) eggs and oviduct during a natural outbreak.

Author

Promkuntod N, Antarasena C, Prommuang P, and Prommuang P

Subjects

Animals, Disease Outbreaks veterinary, Egg Proteins, Female, Fluorescent Antibody Technique, Indirect veterinary, Humans, Influenza in Birds transmission, Oviducts virology, Public Health, Reverse Transcriptase Polymerase Chain Reaction veterinary, Coturnix, Eggs virology, Food Contamination, Influenza A Virus, H5N1 Subtype isolation & purification, Influenza in Birds epidemiology

Abstract

Avian influenza virus (AIV) was recovered from the internal contents of eggs, including mixture of albumen and allantoic fluid, and from the oviduct of naturally infected Japanese quail (Coturnix coturnix japonica) flocks in the southern part of Thailand. The virus titers of 10(4.6)-10(6.2) ELD(50)/mL were directly measured from the internal content of infected eggs. The virus was isolated by chorioallantoic sac inoculation of embryonating chicken eggs. Infected allantoic fluid was identified as hemagglutinating virus and then was indicated the presence of H5 hemagglutinin. The virus was confirmed to be H5N1 subtype influenza A virus by reverse transcriptase-polymerase chain reaction. Additionally, real-time reverse transcriptase-polymerase chain reaction assay could specifically detect influenza virus subtype H5. Furthermore, indirect fluorescent antibody (IFA) test by using specific anti-influenza A monoclonal antibody indicated that virus antigens were detected in the parenchyma of multiple tissues. Systemic localization of viral antigen detected was certainly considered to be viremic stage. In addition, influenza virus antigen was also detected by IFA in allantoic fluid sediments isolated from internal content of egg or oviduct. The conclusion of isolated AIV type A subtype H5N1 from these two infected materials was correlated to the viremic stage of infection because the virus antigens could be observed in almost all tissues. Conclusively, the need for adequate safeguards to prevent contamination and spread of the virus to the environment during movement of eggs--including hatching eggs, cracked eggs, and other relevant infected materials-- or egg consumption from area of outbreak is emphasized and must not be ignored for the reasons of animal, public, and environmental health.

Published

2006

39. Tissue tropism of a Thailand strain of high-pathogenicity avian influenza virus (H5N1) in tissues of naturally infected native chickens (Gallus gallus), Japanese quail (Coturnix coturnix japonica) and ducks (Anas spp.).

Author

Antarasena C, Sirimujalin R, Prommuang P, Blacksell SD, Promkuntod N, and Prommuang P

Subjects

Animals, Antigens, Viral analysis, Brain virology, Duodenum virology, Female, Fluorescent Antibody Technique, Indirect, Heart virology, Kidney virology, Liver virology, Lung virology, Muscle, Skeletal virology, Organ Specificity, Oviducts virology, Pancreas virology, Rectum virology, Spleen virology, Thailand, Trachea virology, Chickens virology, Coturnix virology, Ducks virology, Influenza A Virus, H5N1 Subtype classification, Influenza A Virus, H5N1 Subtype isolation & purification, Influenza A Virus, H5N1 Subtype pathogenicity, Influenza in Birds virology

Abstract

The tropism of a Thailand strain of highly pathogenic avian influenza H5N1 virus was demonstrated on tissues (lung, trachea, heart, liver, spleen, pancreas, rectum, kidney, brain, skeletal muscle, duodenum, and oviduct) from naturally infected native chickens (Gallus gallus), Japanese quail (Coturnix coturnix japonica) and ducks (Anas spp.) by indirect immunofluorescence assay. In chickens and quail, the distribution and localization of nucleoprotein viral antigen was similar and detected at the highest level in cardiac myocytes, at 88% (chickens) and 89% (quail), and respiratory, digestive and urinary systems all showed high levels of antigen. Antigen in duck tissues were detected at significantly lower levels (P < 0.05) with the exception of brain and skeletal muscle samples. In most cases, antigen in duck tissue was absent in the digestive organs but present in respiratory organs, which supports the hypothesis that aerosol and oral-oral transmission are the main method of highly pathogenic avian influenza virus transmission from this species.

Published

2006

40. Transmission of the Diachasmimorpha longicaudata rhabdovirus (DlRhV) to wasp offspring: an ultrastructural analysis.

Author

Lawrence PO and Matos LF

Subjects

Animals, Digestive System ultrastructure, Digestive System virology, Female, Hemolymph virology, Larva physiology, Larva virology, Microscopy, Electron, Scanning, Microscopy, Electron, Transmission, Oviducts ultrastructure, Oviducts virology, Ovum ultrastructure, Ovum virology, Tephritidae parasitology, Wasps physiology, Feeding Behavior physiology, Rhabdoviridae physiology, Tephritidae virology, Wasps virology

Abstract

During oviposition, the parasitic wasp Diachasmimorpha longicaudata introduces an entomopoxvirus (DlEPV) and a rhabdovirus (DlRhV) into larvae of its tephritid fruit fly host Anastrepha suspensa. DlEPV and DlRhV replicate, respectively, in host hemocytes and epidermal cells. Both viruses, like many beneficial viruses of parasitic wasps, are retained in all wasp generations but their avenue(s) of transmission are unknown. This study tests the hypothesis that DlRhV is transmitted transovarially or through larval feeding on infected host hemolymph. Transmission electron microscopy (TEM) revealed no virions in pre-vitellogenic or vitellogenic ova, or in the lateral oviduct of D. longicaudata females. However, numerous virions occurred in subchorionic regions of 33-36-h-old oviposited eggs. This suggests that DlRhV is introduced into the egg either as (a) intact virions after chorionogenesis but prior to oviposition and/or as (b) unencapsidated RNA molecules, undetectable by TEM in pre-vitellogenic ova, that subsequently replicate and assemble into mature virions. DlRhV particles also occurred in the midgut lumen of 20-24-h-old wasp first instars, suggesting that they were ingested. These virions may have been released from the egg into the hemolymph during hatching or may have come from virions introduced by the female wasp directly into the host, separate from the egg. DlRhV particles were also evident in the intracellular vesicles and intercellular spaces of the larval midgut. Taken together, these data support the hypothesis that DlRhV is transovarially transmitted as virions and/or as unencapsidated RNA. Further studies are needed to determine whether the DlRhV that ultimately resides within the female wasp's accessory gland filaments is the progeny of the virus from the egg and/or larval midgut cells.

Published

2005

41. Host physiological changes due to parasitism of a braconid wasp, Cotesia plutellae, on diamondback moth, Plutella xylostella.

Author

Bae S and Kim Y

Subjects

Animals, Feeding Behavior physiology, Female, Hemolymph metabolism, Larva parasitology, Monophenol Monooxygenase metabolism, Moths immunology, Nucleocapsid physiology, Oviducts virology, Host-Parasite Interactions physiology, Moths parasitology, Moths physiology, Wasps physiology

Abstract

Braconid wasps, Cotesia plutellae (Kurdjumov), were collected from parasitized host larvae of diamondback moth, Plutella xylostella (L.) in Korea. Virus particles were found in the oviduct lumen of C. plutellae females. Multiple nucleocapsids with approximately 30-nm diameter and variable length (30-80 nm) were surrounded with a single unit membrane envelope. The parasitization of C. plutellae completely inhibited pupal metamorphosis. The parasitized larvae showed significant decrease in feeding activity and total hemolymph proteins, especially as larval storage proteins. They also showed a significant decrease in immune capacity as evidenced by reduced ability to form hemocyte nodules and reduced phenoloxidase and lysozyme activity. Here, we show that C. plutellae has an endosymbiotic virus like other reported species in Microgastrinae, and suggest that it causes host developmental arrest and immune-depression at parasitization.

Published

2004

42. Presence of caprine arthritis-encephalitis virus (CAEV) proviral DNA in genital tract tissues of superovulated dairy goat does.

Author

Fieni F, Rowe J, Van Hoosear K, Burucoa C, Oppenheim S, Anderson G, Murray J, and BonDurant R

Subjects

Animals, Arthritis-Encephalitis Virus, Caprine genetics, Base Sequence, DNA, Viral isolation & purification, Female, Gene Amplification, Goat Diseases virology, Goats, Infectious Disease Transmission, Vertical veterinary, Lentivirus Infections transmission, Lentivirus Infections virology, Mammary Glands, Animal virology, Oviducts virology, Polymerase Chain Reaction veterinary, Pregnancy, Proviruses isolation & purification, Superovulation, Tissue and Organ Harvesting veterinary, Uterus virology, Arthritis-Encephalitis Virus, Caprine isolation & purification, DNA, Viral analysis, Goat Diseases transmission, Lentivirus Infections veterinary, Proviruses genetics

Abstract

Transmission of caprine arthritis-encephalitis virus (CAEV) is not completely understood and the vertical route of infection from the goat to the embryo or to the fetus needs to be investigated. This route of infection involves the presence of CAEV in the genital tract tissues. Prior studies have detected CAEV-infected cells in genital secretions and in flushing media recovered during embryo collection from infected goats. To specify the origin of these cells, we conducted a double-nested polymerase chain reaction (PCR) test on embryo flushing media and on mammary gland, mammary lymph node, synovial membrane, pelvic lymph node, uterus and oviduct tissues from 25 CAEV-infected (blood PCR positive) embryo donor goats for the presence of CAEV proviral DNA. The presence of proviral DNA was found in 22 of 25 mammary gland samples, 14 of 25 uterus samples, and in 16 of 25 oviduct samples. Nineteen of 25 goats had at least one positive genital tract sample. Flushing media from 11 goats were PCR positive. All goats with positive-flushing media were oviduct positive. Of this group of does, except for 1 of the 11, infection of flushing media correlated with infection of almost all the other tissues examined. The frequency of positive tissues for flushing media-positive goats (61/66; 92%) was significantly higher than that for flushing media-negative goats (50/84; 60%) (P<0.01). This study demonstrated the presence of CAEV-infected cells in the goat genital tract. The presence of CAEV-infected cells in the uterus and oviducts suggests potential for vertical transmission of CAEV from doe to embryo or fetus.

Published

2003

43. An in vitro and in vivo evaluation of the virulence of Newcastle disease virus and vaccines for the chicken reproductive tract.

Author

Rao MS, Raj GD, and Manohar BM

Subjects

Animals, Antibodies, Viral blood, Chickens, Female, Oviducts pathology, Oviducts virology, Poultry Diseases immunology, Poultry Diseases pathology, Respirovirus Infections immunology, Respirovirus Infections pathology, Viral Vaccines adverse effects, Virulence, Newcastle disease virus pathogenicity, Poultry Diseases virology, Respirovirus Infections virology, Viral Vaccines immunology

Abstract

The virulence of two vaccine strains and two field strains of Newcastle disease virus (NDV) for the female reproductive tract of chickens was assessed using oviduct organ cultures (OOC) prepared from precociously-induced oviducts in young chicks by oestrogen treatment. Ciliostasis, haemagglutination and virus isolation from infected OOC supernatants, histopathology and immunoperoxidase test results indicated the pathogenic nature of both vaccine and virulent NDVs for the precocious oviducts. The virulent viruses, mesogenic and lentogenic vaccines caused damage in that order of magnitude and the uterus had a higher susceptibility than oviducts. One virulent and the mesogenic strain of NDV were used for in vivo trials. The pathogenicity was assessed in oestrogen-treated infected chickens using histopathology and immunoperoxidase test. The vaccine virus produced transient damage up to 6 days post-infection, while the damage with the virulent isolate persisted for at least 9 days post-infection. This technique could be a pointer to possible variations in virulence of NDV vaccine and field strains, and warrants further investigation. The potential value of OOC from young chickens for testing the possibility of NDV vaccines causing damage by themselves and offering protection against damage of the reproductive tract caused by virulent isolates is emphasized.

Published

2002

44. Pathogenicity of attenuated infectious bronchitis viruses for oviducts of chickens exposed in ovo.

Author

Chew PH, Wakenell PS, and Farver TB

Subjects

Animals, Cells, Cultured, Chick Embryo physiology, Chickens, Coronavirus Infections immunology, Coronavirus Infections pathology, Epithelial Cells ultrastructure, Epithelial Cells virology, Factor Analysis, Statistical, Female, Kidney, Oviducts ultrastructure, Oviducts virology, Random Allocation, Chick Embryo virology, Coronavirus Infections prevention & control, Infectious bronchitis virus immunology, Infectious bronchitis virus pathogenicity, Oviducts pathology, Poultry Diseases, Vaccines, Attenuated, Viral Vaccines

Abstract

A fixed effects, completely randomized factorial design was used to study the effect of infectious bronchitis virus (IBV) inoculation at two different exposure ages and three postinoculation (PI) durations on chick oviduct pathology. Maternal antibody-positive chicken embryos at 18 days of embryonation (ED) and newly hatched chicks were inoculated with an IBV vaccine (V-IBV) or with an IBV vaccine that had been serially passaged 21 times in chick kidney tissue culture (P-IBV). Hatchability of eggs inoculated with V-IBV at 18 ED was significantly lower (27%) than eggs that were not inoculated with IBV or were inoculated with P-IBV (45-58%, P < 0.01). Chicks from all treatment groups survived to 5 days after hatch. Pathologic changes in the oviduct were evaluated at 9, 18, and 27 days PI by light microscopy. Inoculation of V-IBV and P-IBV in the presence of maternal antibodies did not result in any oviduct pathology at 9, 18, and 27 days PI. Respiratory clinical signs, however, were observed in 61% and 5% of chicks inoculated with V-IBV at 18 ED and at hatch, respectively. Respiratory clinical signs were not observed in control birds, birds inoculated with P-IBV at 18 ED, or birds inoculated with P-IBV at hatch.

Published

1997

45. Growth of infectious bronchitis virus vaccines in oviducts derived from oestrogen-treated chicks and embryos.

Author

Raj GD and Jones RC

Subjects

Animals, Chick Embryo, Chickens, Infectious bronchitis virus pathogenicity, Organ Culture Techniques, Oviducts drug effects, Titrimetry, Trachea virology, Vaccines, Attenuated biosynthesis, Vaccines, Attenuated immunology, Virulence, Estrogens pharmacology, Infectious bronchitis virus growth & development, Infectious bronchitis virus immunology, Oviducts virology, Viral Vaccines biosynthesis, Viral Vaccines immunology

Abstract

Six commercial infectious bronchitis virus (IBV) vaccines and five IBV field strains were titrated in tracheal organ cultures (TOC) and oviduct organ cultures (OOC). Endpoints were determined in three different ways: ciliostasis (CD50), immunofluorescence staining (IFID50) and organ culture infectivity (OCID50). For the two most attenuated vaccine viruses, infectivity assessed by IFID50 and OCID50 was significantly higher than that assessed by CD50. No significant differences were found between IFID50 and CD50 with the five virulent viruses in either OOC or TOC. This suggests that the most attenuated viruses multiply in these tissues to a greater extent than assessed by their pathogenic potential i.e. ciliostasis. Comparison of IFID50 and CD50 may be a useful method for screening candidate live respiratory viral vaccines for attenuation. OOC prepared from oestrogen-treated embryos were not efficacious.

Published

1997

46. Protectotypic differentiation of avian infectious bronchitis viruses using an in vitro challenge model.

Author

Dhinakar Raj G and Jones RC

Subjects

Animals, Chickens, Coronavirus Infections immunology, Coronavirus Infections physiopathology, Coronavirus Infections prevention & control, Estradiol pharmacology, Female, Infectious bronchitis virus immunology, Infectious bronchitis virus pathogenicity, Organ Culture Techniques, Oviducts drug effects, Oviducts virology, Sexual Maturation, Trachea virology, Virulence, Coronavirus Infections veterinary, Infectious bronchitis virus classification, Poultry Diseases, Viral Vaccines

Abstract

Two vaccine and three virulent strains of infectious bronchitis virus (IBV) were used to infect day-old specific-pathogen-free chickens. Precocious development of oviducts was induced in young female chicks by oestrogen injections. Tracheal and oviduct organ cultures prepared from immunised chickens were challenged in vitro with homologous and heterologous viruses to assess tracheal and oviduct cross-protection. Tracheal cross-protection was seen between serologically related and unrelated viruses. Protection at at the level of the oviducts was lower compared to that seen at the tracheal level. However, the yields of the homologous challenge viruses from immunised oviducts were significantly reduced as compared to yields from normal oviducts. After challenge, tracheal and oviduct ciliary scores were used to group the five strains of IBV into protectotypes. The five viruses could be grouped into three protectotypes and four serotypes. The virulent IBV strains were found to have caused complete stasis of oviduct cilia when examined at three weeks post-infection. Oestrogen treatment of chicks did not significantly alter the lymphocyte proliferation responses to concanavalin A or pokeweed mitogen. The applicability of this model for the study of protection afforded to the oviducts, in terms of protection against virus-induced damage, rather than drop in egg production, is discussed.

Published

1996

47. Polydnavirus of the parasitic wasp Chelonus inanitus (Braconidae): characterization, genome organization and time point of replication.

Author

Albrecht U, Wyler T, Pfister-Wilhelm R, Gruber A, Stettler P, Heiniger P, Kurt E, Schümperli D, and Lanzrein B

Subjects

Animals, Base Sequence, Cloning, Molecular, DNA, Circular genetics, DNA, Circular ultrastructure, DNA, Viral genetics, DNA, Viral ultrastructure, Female, Genomic Library, Male, Molecular Sequence Data, Ovary virology, Oviducts virology, Pigmentation, Polydnaviridae chemistry, Polydnaviridae physiology, Polydnaviridae ultrastructure, Pupa growth & development, Pupa virology, Repetitive Sequences, Nucleic Acid, Restriction Mapping, Sequence Analysis, DNA, Virion ultrastructure, Wasps growth & development, Genome, Viral, Polydnaviridae genetics, Virus Replication physiology, Wasps virology

Abstract

Ultrastructural analysis of the polydnavirus of the braconid wasp Chelonus inanitus revealed that virions consist of one cylindrical nucleocapsid enveloped by a single unit membrane. Nucleocapsids have a constant diameter of 33.7 +/- 1.4 nm and a variable length of between 8 and 46 nm. Spreading of viral DNA showed that the genome consists of circular dsDNA molecules of variable sizes and measurement of the contour lengths indicated sizes of between 7 and 31 kbp. When virions were exposed to osmotic shock conditions to release the DNA, only one circular molecule was released per particle suggesting that the various DNA molecules are singly encapsidated in this bracovirus. The viral genome was seen to consist of at least 10 different segments and the aggregate genome size is in the order of 200 kbp. By partial digestion of viral DNA with HindIII or EcoRI in the presence of ethidium bromide and subsequent ligation with HindIII-cut pSP65 or EcoRI-cut pSP64 and transfection into Escherichia coli, libraries of 103 HindIII and 23 EcoRI clones were obtained. Southern blots revealed that complete and unrearranged segments were cloned with this approach, and restriction maps for five segments were obtained. Part of a 16.8 kbp segment was sequenced, found to be AT-rich (73%) and to contain six copies of a 17 bp repeated sequence. The development of the female reproductive tract in the course of pupal-adult development of the wasp was investigated and seen to be strictly correlated with the pigmentation pattern. By the use of a semiquantitative PCR, replication of viral DNA was observed to initiate at a specific stage of pupal-adult development.

Published

1994