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203. Genetic Basis of Response of Ghanaian Local Chickens to Infection With a Lentogenic Newcastle Disease Virus

Author

Walugembe, Muhammed, primary, Amuzu-Aweh, Esinam N., additional, Botchway, Princess K., additional, Naazie, Augustine, additional, Aning, George, additional, Wang, Ying, additional, Saelao, Perot, additional, Kelly, Terra, additional, Gallardo, Rodrigo A., additional, Zhou, Huaijun, additional, Lamont, Susan J., additional, Kayang, Boniface B., additional, and Dekkers, Jack C. M., additional

Published
2020
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204. Cerebellar nuclei evolved by repeatedly duplicating a conserved cell type set

Author

Kebschull, Justus M, primary, Ringach, Noam, additional, Richman, Ethan B, additional, Friedmann, Drew, additional, Kolluru, Sai Saroja, additional, Jones, Robert C, additional, Allen, William E, additional, Wang, Ying, additional, Zhou, Huaijun, additional, Cho, Seung Woo, additional, Chang, Howard Y, additional, Deisseroth, Karl, additional, Quake, Stephen R, additional, and Luo, Liqun, additional

Published
2020
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209. MTA1 Is Up-Regulation Expression in Endometriosis and Promotesepithelial-Mesenchymal Transition of Endometriosis via ZEB2

Author

Kong, Xiangyi, primary, Xu, Xiaofeng, additional, Zhou, Ling, additional, Zhu, Mengjing, additional, Yao, Shuang, additional, Ding, Yue, additional, Liu, Tao, additional, Wang, Yijin, additional, Zhang, Yan, additional, Li, Rong, additional, Tang, Xiaoqiu, additional, Ling, Jingxian, additional, Wu, Jun, additional, Zhu, Xianghong, additional, Gu, Yuanyuan, additional, and Zhou, Huaijun, additional

Published
2020
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210. Omics based technology application in poultry meat research

Author

Zhou, Huaijun, Quach, Austin, Nair, Mahesh, Abasht, Behnam, Kong, Byungwhi, and Bowker, Brian

Abstract

Omics techniques, including genomics, transcriptomics, proteomics, metabolomics, and lipidomics, analyze entire sets of biological molecules to seek comprehensive knowledge on a particular phenotype. These approaches have been extensively utilized to identify both biomarkers and biological mechanisms for various physiological conditions in livestock and poultry. The purpose of this symposium was not only to focus on how recent omics technologies can be used to gather, integrate, and interpret data produced by various methodologies in poultry research, but also to highlight how omics and bioinformatics have increased our understanding of poultry meat quality problems and other complex traits. This Poultry Science Association symposium paper includes 5 sections that cover: 1) functional annotation of cis-regulatory elements in the genome informs genetic control of complex traits in poultry, 2) mass spectrometry for proteomics, metabolomics, and lipidomics, 3) proteomic approaches to investigate meat quality, 4) spatial transcriptomics and metabolomics studies of wooden breast disease, and 5) multiomics analyses on chicken meat quality and spaghetti meat. These topics provide insights into the molecular components that contribute to the structure, function, and dynamics of the underlying mechanisms influencing meat quality traits, including chicken breast myopathies. This information will ultimately contribute to improving the quality and composition of poultry products.

Published
2025
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211. Genetics and Genomic Regions Affecting Response to Newcastle Disease Virus Infection under Heat Stress in Layer Chickens.

Author

Saelao, Perot, Saelao, Perot, Wang, Ying, Chanthavixay, Ganrea, Gallardo, Rodrigo A, Wolc, Anna, Dekkers, Jack CM, Lamont, Susan J, Kelly, Terra, Zhou, Huaijun, Saelao, Perot, Saelao, Perot, Wang, Ying, Chanthavixay, Ganrea, Gallardo, Rodrigo A, Wolc, Anna, Dekkers, Jack CM, Lamont, Susan J, Kelly, Terra, and Zhou, Huaijun

Abstract

Newcastle disease virus (NDV) is a highly contagious avian pathogen that poses a tremendous threat to poultry producers in endemic zones due to its epidemic potential. To investigate host genetic resistance to NDV while under the effects of heat stress, a genome-wide association study (GWAS) was performed on Hy-Line Brown layer chickens that were challenged with NDV while under high ambient temperature to identify regions associated with host viral titer, circulating anti-NDV antibody titer, and body weight change. A single nucleotide polymorphism (SNP) on chromosome 1 was associated with viral titer at two days post-infection (dpi), while 30 SNPs spanning a quantitative trait loci (QTL) on chromosome 24 were associated with viral titer at 6 dpi. Immune related genes, such as CAMK1d and CCDC3 on chromosome 1, associated with viral titer at 2 dpi, and TIRAP, ETS1, and KIRREL3, associated with viral titer at 6 dpi, were located in two QTL regions for viral titer that were identified in this study. This study identified genomic regions and candidate genes that are associated with response to NDV during heat stress in Hy-Line Brown layer chickens. Regions identified for viral titer on chromosome 1 and 24, at 2 and 6 dpi, respectively, included several genes that have key roles in regulating the immune response.

Published
2019

212. Functionally Annotating Regulatory Elements in the Equine Genome Using Histone Mark ChIP-Seq.

Author

Kingsley, NB, Kingsley, NB, Kern, Colin, Creppe, Catherine, Hales, Erin N, Zhou, Huaijun, Kalbfleisch, TS, MacLeod, James N, Petersen, Jessica L, Finno, Carrie J, Bellone, Rebecca R, Kingsley, NB, Kingsley, NB, Kern, Colin, Creppe, Catherine, Hales, Erin N, Zhou, Huaijun, Kalbfleisch, TS, MacLeod, James N, Petersen, Jessica L, Finno, Carrie J, and Bellone, Rebecca R

Abstract

One of the primary aims of the Functional Annotation of ANimal Genomes (FAANG) initiative is to characterize tissue-specific regulation within animal genomes. To this end, we used chromatin immunoprecipitation followed by sequencing (ChIP-Seq) to map four histone modifications (H3K4me1, H3K4me3, H3K27ac, and H3K27me3) in eight prioritized tissues collected as part of the FAANG equine biobank from two thoroughbred mares. Data were generated according to optimized experimental parameters developed during quality control testing. To ensure that we obtained sufficient ChIP and successful peak-calling, data and peak-calls were assessed using six quality metrics, replicate comparisons, and site-specific evaluations. Tissue specificity was explored by identifying binding motifs within unique active regions, and motifs were further characterized by gene ontology (GO) and protein-protein interaction analyses. The histone marks identified in this study represent some of the first resources for tissue-specific regulation within the equine genome. As such, these publicly available annotation data can be used to advance equine studies investigating health, performance, reproduction, and other traits of economic interest in the horse.

Published
2019

213. Genetic Analyses of Tanzanian Local Chicken Ecotypes Challenged with Newcastle Disease Virus.

Author

Walugembe, Muhammed, Walugembe, Muhammed, Mushi, James R, Amuzu-Aweh, Esinam N, Chiwanga, Gaspar H, Msoffe, Peter L, Wang, Ying, Saelao, Perot, Kelly, Terra, Gallardo, Rodrigo A, Zhou, Huaijun, Lamont, Susan J, Muhairwa, Amandus P, Dekkers, Jack CM, Walugembe, Muhammed, Walugembe, Muhammed, Mushi, James R, Amuzu-Aweh, Esinam N, Chiwanga, Gaspar H, Msoffe, Peter L, Wang, Ying, Saelao, Perot, Kelly, Terra, Gallardo, Rodrigo A, Zhou, Huaijun, Lamont, Susan J, Muhairwa, Amandus P, and Dekkers, Jack CM

Abstract

Newcastle Disease (ND) is a continuing global threat to domestic poultry, especially in developing countries, where severe outbreaks of velogenic ND virus (NDV) often cause major economic losses to households. Local chickens are of great importance to rural family livelihoods through provision of high-quality protein. To investigate the genetic basis of host response to NDV, three popular Tanzanian chicken ecotypes (regional populations) were challenged with a lentogenic (vaccine) strain of NDV at 28 days of age. Various host response phenotypes, including anti-NDV antibody levels (pre-infection and 10 days post-infection, dpi), and viral load (2 and 6 dpi) were measured, in addition to growth rate. We estimated genetic parameters and conducted genome-wide association study analyses by genotyping 1399 chickens using the Affymetrix 600K chicken SNP chip. Estimates of heritability of the evaluated traits were moderate (0.18-0.35). Five quantitative trait loci (QTL) associated with growth and/or response to NDV were identified by single-SNP analyses, with some regions explaining ≥1% of genetic variance based on the Bayes-B method. Immune related genes, such as ETS1, TIRAP, and KIRREL3, were located in regions associated with viral load at 6 dpi. The moderate estimates of heritability and identified QTL indicate that NDV response traits may be improved through selective breeding of chickens to enhance increased NDV resistance and vaccine efficacy in Tanzanian local ecotypes.

Published
2019

214. A Homeostasis Hypothesis of Avian Influenza Resistance in Chickens.

Author

An, Jing, An, Jing, Li, Jinxiu, Wang, Ying, Wang, Jing, Li, Qinghe, Zhou, Huaijun, Hu, Xiaoxiang, Zhao, Yiqiang, Li, Ning, An, Jing, An, Jing, Li, Jinxiu, Wang, Ying, Wang, Jing, Li, Qinghe, Zhou, Huaijun, Hu, Xiaoxiang, Zhao, Yiqiang, and Li, Ning

Abstract

Avian influenza has caused significant damage to the poultry industry globally. Consequently, efforts have been made to elucidate the disease mechanisms as well as the mechanisms of disease resistance. Here, by investigating two chicken breeds with distinct responses to avian influenza virus (AIV), Leghorn GB2 and Fayoumi M43, we compared their genome, methylation, and transcriptome differences. MX1, HSP90AB1, and HSP90B1 exhibited high degrees of genetic differentiation (FST) between the two species. Except for the MX1-involved direct anti-virus mechanism, we found that at the methylation and transcriptome levels, the more AIV-resistant breed, Fayoumi, exhibited less variation compared with Leghorn after AIV inoculation, which included change trends in differentially expressed regions, top-fold change genes with FDR-corrected p < 0.05, immune response related genes, and housekeeping genes. Fayoumi also showed better consistency regarding changes in methylation and changes at the transcriptome level. Our results suggest a homeostasis hypothesis for avian influenza resistance, with Fayoumi maintaining superior homeostasis at both the epigenetic and gene expression levels. Three candidate genes-MX1, HSP90AB1, and HSP90B1-showed genetic differentiation and altered gene expression, methylation, and protein expression, which merit attention in further functional studies.

Published
2019

215. RETRACTED ARTICLE: Combined silencing of VEGF-A and angiopoietin-2, a more effective way to inhibit the Ishikawa endometrial cancer cell line

Author

Xu,Xiaofeng, Yan,Yuhua, Xun,Qingying, Shi,Jiayu, Kong,Xiangyi, Wu,Jun, Zhou,Huaijun, Xu,Xiaofeng, Yan,Yuhua, Xun,Qingying, Shi,Jiayu, Kong,Xiangyi, Wu,Jun, and Zhou,Huaijun

Abstract

This paper has been retracted. Xu X, Yan Y, Xun Q, et al. Onco Targets Ther. 2019;12:1215-1223. We, the Editor and Publisher of the journal OncoTargets and Therapy have retracted the published article. Following publication of the article, the authors raised concerns about the duplication of images from Figure 2. Specifically, The images for Figure 2D, siVEGF and siANG, have been duplicated. The corresponding author was cooperative and responded to our queries but was unable to provide a satisfactory explanation for how the images came to be duplicated or provide satisfactory original data for the study. As verifying the validity of published work is core to the integrity of the scholarly record, the Publisher and Editor requested to retract the article and the corresponding author was notified of this. We have been informed in our decision-making by our editorial policies and COPE guidelines. The retracted article will remain online to maintain the scholarly record, but it will be digitally watermarked on each page as “Retracted”.

Published
2019

217. Krüppel-like factor 12 decreases progestin sensitivity in endometrial cancer by inhibiting the progesterone receptor signaling pathway

Author

Shi, Haimeng, Li, Jian, Yan, Tong, Zhou, Ling, Zhu, Yu, Guo, Feifei, Yang, Sihui, Kong, Xiangyi, and Zhou, Huaijun

Abstract

•KLF12 showed a negative correlation with progesterone receptor (PGR) expression in EC.•KLF12 decreases progesterone sensitivity by inhibiting the PGR signaling pathway.•KLF12 directly binds to the PGR promoter region.

Published
2024
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218. Contributors

Author

Beausoleil, N.J., Bishop, Charles M., Blas, Julio, Bottje, Walter Gay, Brazeal, Kathleen R., Brown, Lindsay P., Burgess, Shane C., Burggren, Warren W., Buyse, Johan, Campagna, Shawn R., Carsia, Rocco V., Cassone, Vincent M., Cerón-Romero, Natalia, Cheled Shoval, Shira L., Cheng, Hans H., Chmura, Helen E., Clark, Larry, Cline, Mark A., Cornelius, Jamie M., Crossley, Dane A., Darras, Veerle M., Dean, Karen D.M., Decuypere, Eddy, Denbow, Mike, Deviche, Pierre, Dridi, Sami, Dupont, Joëlle, Durairaj, Vijay, Dzialowski, Edward M., Emami, Nima K., Everaert, Nadia, Fairhurst, Graham D., Ferver, Alison, Fisch, Alexander R., Gautron, Joel, Gilbert, Elizabeth, Goldstein, David L., Greene, Elizabeth S., Guglielmo, Christopher G., Hahn, Thomas P., Halevy, Orna, Hincke, Maxwell, Holdsworth, S.E., Honaker, Christa F., Hrabia, Anna, Jurkevich, Alexander, Kirby, John, Kogut, Michael H., Ksepka, Daniel T., Köppl, Christine, Kuenzel, Wayne J., Kumar, Vinod, Lehmann, H., MacDougall-Shackleton, Scott A., Martin, Graham R., Martin, J.E., May, Amanda L., McKechnie, Andrew E., McKeegan, D.E.F., McWilliams, Scott R., Mouritsen, Henrik, Mueller, Casey A., Nys, Yves, Ottinger, Mary Ann, Pierce, Barbara J., Porter, Tom E., Powell, Frank L., Proszkowiec-Weglarz, Monika, Ramenofsky, Marilyn, Rath, Narayan C., Rideau, Nicole, Rodriguez-Navarro, Alejandro B., Scanes, Colin G., Schultz, Elizabeth M., Siegel, Paul B., Simon, Jean, Smeraski, Cynthia A., Taofeek, Nurudeen, Tazawa, Hiroshi, Uni, Zehava, Velleman, Sandra G., Vizcarra, Jorge A., Voy, Brynn H., Wang, Yajun, Warren, Wesley C., Watts, Heather E., Wild, J. Martin, Wingfield, John C., Wong, Eric A., Yoshimura, Takashi, and Zhou, Huaijun

Published
2022
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223. Genetic Analyses of Tanzanian Local Chicken Ecotypes Challenged with Newcastle Disease Virus

Author

Walugembe, Muhammed, primary, Mushi, James R., additional, Amuzu-Aweh, Esinam N., additional, Chiwanga, Gaspar H., additional, Msoffe, Peter L., additional, Wang, Ying, additional, Saelao, Perot, additional, Kelly, Terra, additional, Gallardo, Rodrigo A., additional, Zhou, Huaijun, additional, Lamont, Susan J., additional, Muhairwa, Amandus P., additional, and Dekkers, Jack C.M., additional

Published
2019
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229. Transcriptome Analysis of Salmonella Heidelberg after Exposure to Cetylpyridinium Chloride, Acidified Calcium Hypochlorite, and Peroxyacetic Acid

Author

Cadena, Myrna, primary, Froenicke, Lutz, additional, Britton, Monica, additional, Settles, Matthew L., additional, Durbin-Johnson, Blythe, additional, Kumimoto, Emily, additional, Gallardo, Rodrigo A., additional, Ferreiro, Aura, additional, Chylkova, Tereza, additional, Zhou, Huaijun, additional, and Pitesky, Maurice, additional

Published
2019
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230. Temporal transcriptome changes induced by MDV in marek's disease-resistant and -susceptible inbred chickens

Author

Yu Ying, Luo Juan, Mitra Apratim, Chang Shuang, Tian Fei, Zhang Huanmin, Yuan Ping, Zhou Huaijun, and Song Jiuzhou

Subjects
Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background Marek's disease (MD) is a lymphoproliferative disease in chickens caused by Marek's disease virus (MDV) and characterized by T cell lymphoma and infiltration of lymphoid cells into various organs such as liver, spleen, peripheral nerves and muscle. Resistance to MD and disease risk have long been thought to be influenced both by genetic and environmental factors, the combination of which contributes to the observed outcome in an individual. We hypothesize that after MDV infection, genes related to MD-resistance or -susceptibility may exhibit different trends in transcriptional activity in chicken lines having a varying degree of resistance to MD. Results In order to study the mechanisms of resistance and susceptibility to MD, we performed genome-wide temporal expression analysis in spleen tissues from MD-resistant line 63, susceptible line 72 and recombinant congenic strain M (RCS-M) that has a phenotype intermediate between lines 63 and 72 after MDV infection. Three time points of the MDV life cycle in chicken were selected for study: 5 days post infection (dpi), 10dpi and 21dpi, representing the early cytolytic, latent and late cytolytic stages, respectively. We observed similar gene expression profiles at the three time points in line 63 and RCS-M chickens that are both different from line 72. Pathway analysis using Ingenuity Pathway Analysis (IPA) showed that MDV can broadly influence the chickens irrespective of whether they are resistant or susceptible to MD. However, some pathways like cardiac arrhythmia and cardiovascular disease were found to be affected only in line 72; while some networks related to cell-mediated immune response and antigen presentation were enriched only in line 63 and RCS-M. We identified 78 and 30 candidate genes associated with MD resistance, at 10 and 21dpi respectively, by considering genes having the same trend of expression change after MDV infection in lines 63 and RCS-M. On the other hand, by considering genes with the same trend of expression change after MDV infection in lines 72 and RCS-M, we identified 78 and 43 genes at 10 and 21dpi, respectively, which may be associated with MD-susceptibility. Conclusions By testing temporal transcriptome changes using three representative chicken lines with different resistance to MD, we identified 108 candidate genes for MD-resistance and 121 candidate genes for MD-susceptibility over the three time points. Genes included in our resistance or susceptibility genes lists that are also involved in more than 5 biofunctions, such as CD8α, IL8, USP18, and CTLA4, are considered to be important genes involved in MD-resistance or -susceptibility. We were also able to identify several biofunctions related with immune response that we believe play an important role in MD-resistance.

Published
2011
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231. Spleen transcriptome response to infection with avian pathogenic Escherichia coli in broiler chickens

Author

Kariyawasam Subhashinie, Johnson Timothy J, Zhou Huaijun, Li Xianyao, Bowerman Nate, Balfanz Emma, Orr Megan, Sandford Erin E, Liu Peng, Nolan Lisa K, and Lamont Susan J

Subjects
Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background Avian pathogenic Escherichia coli (APEC) is detrimental to poultry health and its zoonotic potential is a food safety concern. Regulation of antimicrobials in food-production animals has put greater focus on enhancing host resistance to bacterial infections through genetics. To better define effective mechanism of host resistance, global gene expression in the spleen of chickens, harvested at two times post-infection (PI) with APEC, was measured using microarray technology, in a design that will enable investigation of effects of vaccination, challenge, and pathology level. Results There were 1,101 genes significantly differentially expressed between severely infected and non-infected groups on day 1 PI and 1,723 on day 5 PI. Very little difference was seen between mildly infected and non-infected groups on either time point. Between birds exhibiting mild and severe pathology, there were 2 significantly differentially expressed genes on day 1 PI and 799 on day 5 PI. Groups with greater pathology had more genes with increased expression than decreased expression levels. Several predominate immune pathways, Toll-like receptor, Jak-STAT, and cytokine signaling, were represented between challenged and non-challenged groups. Vaccination had, surprisingly, no detectible effect on gene expression, although it significantly protected the birds from observable gross lesions. Functional characterization of significantly expressed genes revealed unique gene ontology classifications during each time point, with many unique to a particular treatment or class contrast. Conclusions More severe pathology caused by APEC infection was associated with a high level of gene expression differences and increase in gene expression levels. Many of the significantly differentially expressed genes were unique to a particular treatment, pathology level or time point. The present study not only investigates the transcriptomic regulations of APEC infection, but also the degree of pathology associated with that infection. This study will allow for greater discovery into host mechanisms for disease resistance, providing targets for marker assisted selection and advanced drug development.

Published
2011
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232. Transcriptional profiling of host gene expression in chicken embryo lung cells infected with laryngotracheitis virus

Author

Li Xianyao, Wooming Ann, Song Joon, Lee Jeong, Zhou Huaijun, Bottje Walter G, and Kong Byung-Whi

Subjects
Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background Infection by infectious laryngotracheitis virus (ILTV; gallid herpesvirus 1) causes acute respiratory diseases in chickens often with high mortality. To better understand host-ILTV interactions at the host transcriptional level, a microarray analysis was performed using 4 × 44 K Agilent chicken custom oligo microarrays. Results Microarrays were hybridized using the two color hybridization method with total RNA extracted from ILTV infected chicken embryo lung cells at 0, 1, 3, 5, and 7 days post infection (dpi). Results showed that 789 genes were differentially expressed in response to ILTV infection that include genes involved in the immune system (cytokines, chemokines, MHC, and NF-κB), cell cycle regulation (cyclin B2, CDK1, and CKI3), matrix metalloproteinases (MMPs) and cellular metabolism. Differential expression for 20 out of 789 genes were confirmed by quantitative reverse transcription-PCR (qRT-PCR). A bioinformatics tool (Ingenuity Pathway Analysis) used to analyze biological functions and pathways on the group of 789 differentially expressed genes revealed that 21 possible gene networks with intermolecular connections among 275 functionally identified genes. These 275 genes were classified into a number of functional groups that included cancer, genetic disorder, cellular growth and proliferation, and cell death. Conclusion The results of this study provide comprehensive knowledge on global gene expression, and biological functionalities of differentially expressed genes in chicken embryo lung cells in response to ILTV infections.

Published
2010
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234. Identification of differentially expressed miRNAs in chicken lung and trachea with avian influenza virus infection by a deep sequencing approach

Author

Chen Rui, Kim Jong, Gunaratne Preethi H, Yoon Byung-Jun, Reddy Sanjay M, Lupiani Blanca, Zhu Huifeng, Brahmakshatriya Vinayak, Wang Ying, Wang Junjun, and Zhou Huaijun

Subjects
Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background MicroRNAs (miRNAs) play critical roles in a wide spectrum of biological processes and have been shown to be important effectors in the intricate host-pathogen interaction networks. Avian influenza virus (AIV) not only causes significant economic losses in poultry production, but also is of great concern to human health. The objective of this study was to identify miRNAs associated with AIV infections in chickens. Results Total RNAs were isolated from lung and trachea of low pathogenic H5N3 infected and non-infected SPF chickens at 4 days post-infection. A total of 278,398 and 340,726 reads were obtained from lung and trachea, respectively. And 377 miRNAs were detected in lungs and 149 in tracheae from a total of 474 distinct chicken miRNAs available at the miRBase, respectively. Seventy-three and thirty-six miRNAs were differentially expressed between infected and non-infected chickens in lungs and tracheae, respectively. There were more miRNAs highly expressed in non-infected tissues than in infected tissues. Interestingly, some of these differentially expressed miRNAs, including miR-146, have been previously reported to be associated with immune-related signal pathways in mammals. Conclusion To our knowledge, this is the first study on miRNA gene expression in AIV infected chickens using a deep sequencing approach. During AIV infection, many host miRNAs were differentially regulated, supporting the hypothesis that certain miRNAs might be essential in the host-pathogen interactions. Elucidation of the mechanism of these miRNAs on the regulation of host-AIV interaction will lead to the development of new control strategies to prevent or treat AIV infections in poultry.

Published
2009
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235. Gene expression profiling within the spleen of Clostridium perfringens-challenged Broilers fed antibiotic-medicated and non-medicated diets

Author

Yu Hai, Lu Yang, Dowd Scot E, Kang Zhumei, Wang Ying, Sarson Aimie J, Han Yanming, Zhou Huaijun, and Gong Joshua

Subjects
Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background Clostridium perfringens (Cp) is a Gram-positive anaerobic bacterium that causes necrotic enteritis (NE) in poultry when it overgrows in the small intestine. NE disease has previously been controlled through the use of growth-promoting antibiotics. This practice was recently banned in European countries, leading to significantly increased incidence of NE threatening the poultry industry. Control strategies and technology as substitutes to dietary antibiotics are therefore urgently required. To develop the substitutes, it is important to understand host immune responses to Cp infection. However, the knowledge is still lacking. We therefore investigated gene expression profiles within immunologically-relevant tissue, the spleen, in order to identify factors that are involved in immunity to NE and have potential as therapeutic targets. Results Use of a 44 K Agilent chicken genome microarray revealed significant up-regulation of many immune-associated genes in Cp-challenged chickens, including galectin 3, IFNAR1, IgY-receptor, TCRγ, granzyme A, and mannose-6-P-R, which were subsequently validated by quantitative PCR assays. Functional annotation of differentially expressed genes was conducted using the High Throughput Gene Ontology Functional Annotation database. Medicated and Non-medicated chickens had similar annotation profiles with cell activities and regulation being the most dominant biological processes following Cp infection. Conclusion Broiler chickens demonstrated an intricate and holistic magnitude of host response to Cp challenge and the development of NE. Although the influence of dietary antibiotics appeared to be less significant than the disease process, both had a considerable impact on the host response. Markers previously identified in intestinal inflammatory diseases of other species, including humans, and indicators of enhanced antibody responses, appeared to be involved in the chicken response to Cp challenge. The significance in host immune responses of immune mediators identified from the present study warrants further studies to verify their functions during NE development and to determine their potential application to control NE disease.

Published
2009
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236. Tissue Resources for the Functional Annotation of Animal Genomes.

Author

Tixier-Boichard, Michèle, Fabre, Stéphane, Dhorne-Pollet, Sophie, Goubil, Adeline, Acloque, Hervé, Vincent-Naulleau, Silvia, Ross, Pablo, Wang, Ying, Chanthavixay, Ganrea, Cheng, Hans, Ernst, Catherine, Leesburg, Vicki, Giuffra, Elisabetta, Zhou, Huaijun, Taragnat, Catherine, Berri, Cecile, Jardet, Déborah, Godet, Estelle, Laurent, Fabrice, and Gomot, Gilles

Subjects
MONONUCLEAR leukocytes, GONADS, LUNGS, ARTIFICIAL selection of animals, GENITALIA, ALIMENTARY canal
Abstract

In order to generate an atlas of the functional elements driving genome expression in domestic animals, the Functional Annotation of Animal Genome (FAANG) strategy was to sample many tissues from a few animals of different species, sexes, ages, and production stages. This article presents the collection of tissue samples for four species produced by two pilot projects, at INRAE (National Research Institute for Agriculture, Food and Environment) and the University of California, Davis. There were three mammals (cattle, goat, and pig) and one bird (chicken). It describes the metadata characterizing these reference sets (1) for animals with origin and selection history, physiological status, and environmental conditions; (2) for samples with collection site and tissue/cell processing; (3) for quality control; and (4) for storage and further distribution. Three sets are identified: set 1 comprises tissues for which collection can be standardized and for which representative aliquots can be easily distributed (liver, spleen, lung, heart, fat depot, skin, muscle, and peripheral blood mononuclear cells); set 2 comprises tissues requiring special protocols because of their cellular heterogeneity (brain, digestive tract, secretory organs, gonads and gametes, reproductive tract, immune tissues, cartilage); set 3 comprises specific cell preparations (immune cells, tracheal epithelial cells). Dedicated sampling protocols were established and uploaded in https://data.faang.org/protocol/samples. Specificities between mammals and chicken are described when relevant. A total of 73 different tissues or tissue sections were collected, and 21 are common to the four species. Having a common set of tissues will facilitate the transfer of knowledge within and between species and will contribute to decrease animal experimentation. Combining data on the same samples will facilitate data integration. Quality control was performed on some tissues with RNA extraction and RNA quality control. More than 5,000 samples have been stored with unique identifiers, and more than 4,000 were uploaded onto the Biosamples database, provided that standard ontologies were available to describe the sample. Many tissues have already been used to implement FAANG assays, with published results. All samples are available without restriction for further assays. The requesting procedure is described. Members of FAANG are encouraged to apply a range of molecular assays to characterize the functional status of collected samples and share their results, in line with the FAIR (Findable, Accessible, Interoperable, and Reusable) data principles. [ABSTRACT FROM AUTHOR]

Published
2021
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237. Surgical outcomes of cesarean scar pregnancy: an 8-year experience at a single institution.

Author

Xu, Xiaofeng, Li, Dongdong, Yang, Lan, Jing, Xiujuan, Kong, Xiangyi, Chen, Dezhu, Ru, Tong, and Zhou, Huaijun

Subjects
PREGNANCY outcomes, LAPAROSCOPIC surgery, UTERINE artery, PREGNANCY, SCARS, MEDICAL records, CURETTAGE
Abstract

Purpose: To summarize the outcomes of different surgical treatment modalities for cesarean scar pregnancy (CSP) at a single institution over 8 years. Methods: A case series of patients diagnosed with CSP who were admitted to Nanjing Drum Tower Hospital from January 2011 to December 2018 was retrospectively studied. Medical records of all the patients were carefully reviewed. Data on patient demographics, pregnancy characteristics, treatment modalities, response to therapy, and subsequent pregnancy outcomes were collected and analyzed. Results: A total of 117 patients undergoing surgical treatments for CSP were included. Thirty-three patients (28.21%) underwent ultrasound-guided curettage; while, 74 (63.25%) and 10 (8.55%) patients received laparoscopy-monitored curettage and laparoscopic CSP resection, respectively. Most of the patients (21/33) who underwent ultrasound-guided surgery had type I CSP; while, 54 out of 84 patients who opted for laparoscopic surgeries had type II CSP. Eleven women underwent a uterine artery embolization procedure before the operation. There was no difference in the use of an intrauterine balloon for hemostasis among the three groups. Only 8 patients needed additional systemic methotrexate treatment. Twenty-four out of 57 women (42.11%) succeeded in conceiving again and gave birth to 21 healthy babies. Only 1 woman (1/24, 4.17%) experienced recurrence of CSP. Conclusions: These data indicated the safety and efficiency of ultrasound-guided curettage, laparoscopy-monitored curettage, and laparoscopic CSP resection for the treatment of CSP. [ABSTRACT FROM AUTHOR]

Published
2021
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238. Distinct transcriptomic response to Newcastle disease virus infection during heat stress in chicken tracheal epithelial tissue.

Author

Saelao, Perot, Wang, Ying, Chanthavixay, Ganrea, Yu, Vivian, Gallardo, Rodrigo A., Dekkers, Jack C. M., Lamont, Susan J., Kelly, Terra, and Zhou, Huaijun

Subjects
EFFECT of heat on poultry, EPITHELIAL cells, ANIMAL welfare, NEWCASTLE disease, IMMUNE response
Abstract

Newcastle disease (ND) has a great impact on poultry health and welfare with its most virulent (velogenic) strain. In addition, issues exacerbated by the increase in global temperatures necessitates a greater understanding of the host immune response when facing a combination of biotic and abiotic stress factors in poultry production. Previous investigations have revealed that the host immune response is tissue-specific. The goal of this study was to identify genes and/or signaling pathways associated with immune response to NDV (Newcastle disease virus) in the trachea, an essential organ where NDV replicate after the infection, by profiling the tissue specific transcriptome response in two genetically distinct inbred chicken lines when exposed to both abiotic and biotic stressors. Fayoumis appear to be able to respond more effectively (lower viral titer, higher antibody levels, immune gene up-regulation) and earlier than Leghorns. Our results suggest NDV infection in Fayoumis appears to elicit proinflammatory processes, and pathways such as the inhibition of cell viability, cell proliferation of lymphocytes, and transactivation of RNA, more rapidly than in Leghorns. These differences in immune response converge at later timepoints which may indicate that Leghorns eventually regulate its immune response to infection. The profiling of the gene expression response in the trachea adds to our understanding of the chicken host response to NDV infection and heat stress on a whole genome level and provides potential candidate genes and signaling pathways for further investigation into the characterization of the time-specific and pathway specific responses in Fayoumis and Leghorns. [ABSTRACT FROM AUTHOR]

Published
2021
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239. Gene expression profiling in chicken heterophils with Salmonella enteritidis stimulation using a chicken 44 K Agilent microarray

Author

Li Xianyao, Dowd Scot E, Kogut Michael H, Swaggerty Christina L, Chiang Hsin-I, Pevzner Igal Y, and Zhou Huaijun

Subjects
Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background Salmonella enterica serovar Enteritidis (SE) is one of the most common food-borne pathogens that cause human salmonellosis and usually results from the consumption of contaminated poultry products. The mechanism of SE resistance in chickens remains largely unknown. Previously, heterophils isolated from broilers with different genetic backgrounds (SE-resistant [line A] and -susceptible [line B]) have been shown to be important in defending against SE infections. To dissect the interplay between heterophils and SE infection, we utilized large-scale gene expression profiling. Results The results showed more differentially expressed genes were found between different lines than between infection (SE-treated) and non-infection (control) samples within line. However, the numbers of expressed immune-related genes between these two comparisons were dramatically different. More genes related to immune function were down-regulated in line B than line A. The analysis of the immune-related genes indicated that SE infection induced a stronger, up-regulated gene expression of line heterophils A than line B, and these genes include several components in the Toll-like receptor (TLR) signaling pathway, and genes involved in T-helper cell activation. Conclusion We found: (1) A divergent expression pattern of immune-related genes between lines of different genetic backgrounds. The higher expression of immune-related genes might be more beneficial to enhance host immunity in the resistant line; (2) a similar TLR regulatory network might exist in both lines, where a possible MyD88-independent pathway may participate in the regulation of host innate immunity; (3) the genes exclusively differentially expressed in line A or line B with SE infection provided strong candidates for further investigating SE resistance and susceptibility. These findings have laid the foundation for future studies of TLR pathway regulation and cellular modulation of SE infection in chickens.

Published
2008
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240. Characterization of a newly developed chicken 44K Agilent microarray

Author

Zhu James, Chiang Hsin-I, Li Xianyao, Dowd Scot E, and Zhou Huaijun

Subjects
Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background The development of microarray technology has greatly enhanced our ability to evaluate gene expression. In theory, the expression of all genes in a given organism can be monitored simultaneously. Sequencing of the chicken genome has provided the crucial information for the design of a comprehensive chicken transcriptome microarray. A long oligonucleotide microarray has been manually curated and designed by our group and manufactured using Agilent inkjet technology. This provides a flexible and powerful platform with high sensitivity and specificity for gene expression studies. Results A chicken 60-mer oligonucleotide microarray consisting of 42,034 features including the entire Marek's disease virus, two avian influenza virus (H5N2 and H5N3), and 150 chicken microRNAs has been designed and tested. In an important validation study, total RNA isolated from four major chicken tissues: cecal tonsil (C), ileum (I), liver (L), and spleen (S) were used for comparative hybridizations. More than 95% of spots had high signal noise ratio (SNR > 10). There were 2886, 2660, 358, 3208, 3355, and 3710 genes differentially expressed between liver and spleen, spleen and cecal tonsil, cecal tonsil and ileum, liver and cecal tonsil, liver and ileum, spleen and ileum (P < 10-7), respectively. There were a number of tissue-selective genes for cecal tonsil, ileum, liver, and spleen identified (95, 71, 535, and 108, respectively; P < 10-7). Another highlight of these data revealed that the antimicrobial peptides GAL1, GAL2, GAL6 and GAL7 were highly expressed in the spleen compared to other tissues tested. Conclusion A chicken 60-mer oligonucleotide 44K microarray was designed and validated in a comprehensive survey of gene expression in diverse tissues. The results of these tissue expression analyses have demonstrated that this microarray has high specificity and sensitivity, and will be a useful tool for chicken functional genomics. Novel data on the expression of putative tissue specific genes and antimicrobial peptides is highlighted as part of this comprehensive microarray validation study. The information for accessing and ordering this 44K chicken array can be found at http://people.tamu.edu/~hjzhou/TAMUAgilent44KArray/

Published
2008
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241. Integrated Proteomic and Transcriptomic Analysis of Differential Expression of Chicken Lung Tissue in Response to NDV Infection during Heat Stress.

Author

Saelao, Perot, Saelao, Perot, Wang, Ying, Chanthavixay, Ganrea, Yu, Vivian, Gallardo, Rodrigo A, Dekkers, Jack CM, Lamont, Susan J, Kelly, Terra, Zhou, Huaijun, Saelao, Perot, Saelao, Perot, Wang, Ying, Chanthavixay, Ganrea, Yu, Vivian, Gallardo, Rodrigo A, Dekkers, Jack CM, Lamont, Susan J, Kelly, Terra, and Zhou, Huaijun

Abstract

Newcastle disease virus (NDV) is a devastating worldwide poultry pathogen with major implications for global food security. In this study, two highly inbred and genetically distinct chicken lines, Fayoumis and Leghorns, were exposed to a lentogenic strain of NDV, while under the effects of heat stress, in order to understand the genetic mechanisms of resistance during high ambient temperatures. Fayoumis, which are relatively more resistant to pathogens than Leghorns, had larger numbers of differentially expressed genes (DEGs) during the early stages of infection when compared to Leghorns and subsequently down-regulated their immune response at the latter stages to return to homeostasis. Leghorns had very few DEGs across all observed time points, with the majority of DEGs involved with metabolic and glucose-related functions. Proteomic analysis corroborates findings made within Leghorns, while also identifying interesting candidate genes missed by expression profiling. Poor correlation between changes observed in the proteomic and transcriptomic datasets highlights the potential importance of integrative approaches to understand the mechanisms of disease response. Overall, this study provides novel insights into global protein and expression profiles of these two genetic lines, and provides potential genetic targets involved with NDV resistance during heat stress in poultry.

Published
2018

242. Association of Candidate Genes with Response to Heat and Newcastle Disease Virus.

Author

Rowland, Kaylee, Rowland, Kaylee, Saelao, Perot, Wang, Ying, Fulton, Janet E, Liebe, Grant N, McCarron, Amy M, Wolc, Anna, Gallardo, Rodrigo A, Kelly, Terra, Zhou, Huaijun, Dekkers, Jack CM, Lamont, Susan J, Rowland, Kaylee, Rowland, Kaylee, Saelao, Perot, Wang, Ying, Fulton, Janet E, Liebe, Grant N, McCarron, Amy M, Wolc, Anna, Gallardo, Rodrigo A, Kelly, Terra, Zhou, Huaijun, Dekkers, Jack CM, and Lamont, Susan J

Abstract

Newcastle disease is considered the number one disease constraint to poultry production in low and middle-income countries, however poultry that is raised in resource-poor areas often experience multiple environmental challenges. Heat stress has a negative impact on production, and immune response to pathogens can be negatively modulated by heat stress. Candidate genes and regions chosen for this study were based on previously reported associations with response to immune stimulants, pathogens, or heat, including: TLR3, TLR7, MX, MHC-B (major histocompatibility complex, gene complex), IFI27L2, SLC5A1, HSPB1, HSPA2, HSPA8, IFRD1, IL18R1, IL1R1, AP2A2, and TOLLIP. Chickens of a commercial egg-laying line were infected with a lentogenic strain of NDV (Newcastle disease virus); half the birds were maintained at thermoneutral temperature and the other half were exposed to high ambient temperature before the NDV challenge and throughout the remainder of the study. Phenotypic responses to heat, to NDV, or to heat + NDV were measured. Selected SNPs (single nucleotide polymorphisms) within 14 target genes or regions were genotyped; and genotype effects on phenotypic responses to NDV or heat + NDV were tested in each individual treatment group and the combined groups. Seventeen significant haplotype effects, among seven genes and seven phenotypes, were detected for response to NDV or heat or NDV + heat. These findings identify specific genetic variants that are associated with response to heat and/or NDV which may be useful in the genetic improvement of chickens to perform favorably when faced with pathogens and heat stress.

Published
2018

243. Transcriptome Analysis in Spleen Reveals Differential Regulation of Response to Newcastle Disease Virus in Two Chicken Lines.

Author

Zhang, Jibin, Zhang, Jibin, Kaiser, Michael G, Deist, Melissa S, Gallardo, Rodrigo A, Bunn, David A, Kelly, Terra R, Dekkers, Jack CM, Zhou, Huaijun, Lamont, Susan J, Zhang, Jibin, Zhang, Jibin, Kaiser, Michael G, Deist, Melissa S, Gallardo, Rodrigo A, Bunn, David A, Kelly, Terra R, Dekkers, Jack CM, Zhou, Huaijun, and Lamont, Susan J

Abstract

Enhancing genetic resistance of chickens to Newcastle Disease Virus (NDV) provides a promising way to improve poultry health, and to alleviate poverty and food insecurity in developing countries. In this study, two inbred chicken lines with different responses to NDV, Fayoumi and Leghorn, were challenged with LaSota NDV strain at 21 days of age. Through transcriptome analysis, gene expression in spleen at 2 and 6 days post-inoculation was compared between NDV-infected and control groups, as well as between chicken lines. At a false discovery rate <0.05, Fayoumi chickens, which are relatively more resistant to NDV, showed fewer differentially expressed genes (DEGs) than Leghorn chickens. Several interferon-stimulated genes were identified as important DEGs regulating immune response to NDV in chicken. Pathways predicted by IPA analysis, such as "EIF-signaling", "actin cytoskeleton organization nitric oxide production" and "coagulation system" may contribute to resistance to NDV in Fayoumi chickens. The identified DEGs and predicted pathways may contribute to differential responses to NDV between the two chicken lines and provide potential targets for breeding chickens that are more resistant to NDV.

Published
2018

244. Novel insights into the host immune response of chicken Harderian gland tissue during Newcastle disease virus infection and heat treatment.

Author

Saelao, Perot, Saelao, Perot, Wang, Ying, Gallardo, Rodrigo A, Lamont, Susan J, Dekkers, Jack M, Kelly, Terra, Zhou, Huaijun, Saelao, Perot, Saelao, Perot, Wang, Ying, Gallardo, Rodrigo A, Lamont, Susan J, Dekkers, Jack M, Kelly, Terra, and Zhou, Huaijun

Abstract

BackgroundNewcastle disease virus, in its most pathogenic form, threatens the livelihood of rural poultry farmers where there is a limited infrastructure and service for vaccinations to prevent outbreaks of the virus. Previously reported studies on the host response to Newcastle disease in chickens have not examined the disease under abiotic stressors, such as heat, which commonly experienced by chickens in regions such as Africa. The objective of this study was to elucidate the underlying biological mechanisms that contribute to disease resistance in chickens to the Newcastle disease virus while under the effects of heat stress.ResultsDifferential gene expression analysis identified genes differentially expressed between treated and non-treated birds across three time points (2, 6, and 10 days post-infection) in Fayoumi and Leghorn birds. Across the three time points, Fayoumi had very few genes differentially expressed between treated and non-treated groups at 2 and 6 days post-infection. However, 202 genes were differentially expressed at 10 days post-infection. Alternatively, Leghorn had very few genes differentially expressed at 2 and 10 days post-infection but had 167 differentially expressed genes at 6 days post-infection. Very few differentially expressed genes were shared between the two genetic lines, and pathway analysis found unique signaling pathways specific to each genetic line. Fayoumi had significantly lower viral load, higher viral clearance, higher anti-NDV antibody levels, and fewer viral transcripts detected compared to Leghorns. Fayoumis activated immune related pathways including SAPK/JNK and p38 MAPK signaling pathways at earlier time points, while Leghorn would activate these same pathways at a later time. Further analysis revealed activation of the GP6 signaling pathway that may be responsible for the susceptible Leghorn response.ConclusionsThe findings in this study confirmed our hypothesis that the Fayoumi line was more resistant to Newcas

Published
2018

245. Genome-wide identification of tissue-specific long non-coding RNA in three farm animal species.

Author

Kern, Colin, Kern, Colin, Wang, Ying, Chitwood, James, Korf, Ian, Delany, Mary, Cheng, Hans, Medrano, Juan F, Van Eenennaam, Alison L, Ernst, Catherine, Ross, Pablo, Zhou, Huaijun, Kern, Colin, Kern, Colin, Wang, Ying, Chitwood, James, Korf, Ian, Delany, Mary, Cheng, Hans, Medrano, Juan F, Van Eenennaam, Alison L, Ernst, Catherine, Ross, Pablo, and Zhou, Huaijun

Abstract

BackgroundNumerous long non-coding RNAs (lncRNAs) have been identified and their roles in gene regulation in humans, mice, and other model organisms studied; however, far less research has been focused on lncRNAs in farm animal species. While previous studies in chickens, cattle, and pigs identified lncRNAs in specific developmental stages or differentially expressed under specific conditions in a limited number of tissues, more comprehensive identification of lncRNAs in these species is needed. The goal of the FAANG Consortium (Functional Annotation of Animal Genomes) is to functionally annotate animal genomes, including the annotation of lncRNAs. As one of the FAANG pilot projects, lncRNAs were identified across eight tissues in two adult male biological replicates from chickens, cattle, and pigs.ResultsComprehensive lncRNA annotations for the chicken, cattle, and pig genomes were generated by utilizing RNA-seq from eight tissue types from two biological replicates per species at the adult developmental stage. A total of 9393 lncRNAs in chickens, 7235 lncRNAs in cattle, and 14,429 lncRNAs in pigs were identified. Including novel isoforms and lncRNAs from novel loci, 5288 novel lncRNAs were identified in chickens, 3732 in cattle, and 4870 in pigs. These transcripts match previously known patterns of lncRNAs, such as generally lower expression levels than mRNAs and higher tissue specificity. An analysis of lncRNA conservation across species identified a set of conserved lncRNAs with potential functions associated with chromatin structure and gene regulation. Tissue-specific lncRNAs were identified. Genes proximal to tissue-specific lncRNAs were enriched for GO terms associated with the tissue of origin, such as leukocyte activation in spleen.ConclusionsLncRNAs were identified in three important farm animal species using eight tissues from adult individuals. About half of the identified lncRNAs were not previously reported in the NCBI annotations for these species. W

Published
2018

246. Novel analysis of the Harderian gland transcriptome response to Newcastle disease virus in two inbred chicken lines.

Author

Deist, Melissa S, Deist, Melissa S, Gallardo, Rodrigo A, Bunn, David A, Kelly, Terra R, Dekkers, Jack CM, Zhou, Huaijun, Lamont, Susan J, Deist, Melissa S, Deist, Melissa S, Gallardo, Rodrigo A, Bunn, David A, Kelly, Terra R, Dekkers, Jack CM, Zhou, Huaijun, and Lamont, Susan J

Abstract

Behind each eye of the chicken resides a unique lymph tissue, the Harderian gland, for which RNA sequencing (RNA-seq) analysis is novel. We characterized the response of this tissue to Newcastle disease virus (NDV) in two inbred lines with different susceptibility to NDV across three time points. Three-week-old relatively resistant (Fayoumi) and relatively susceptible (Leghorn) birds were inoculated with a high-titered (107EID50) La Sota strain of NDV via an oculonasal route. At 2, 6, and 10 days post infection (dpi) Harderian glands were collected and analyzed via RNA-seq. The Fayoumi had significantly more detectable viral transcripts in the Harderian gland at 2 dpi than the Leghorn, but cleared the virus by 6 dpi. At all three time points, few genes were declared differentially expressed (DE) between the challenged and nonchallenged birds, except for the Leghorns at 6 dpi, and these DE genes were predicted to activate an adaptive immune response. Relative to the Leghorn, the Fayoumi was predicted to activate more immune pathways in both challenged and nonchallenged birds suggesting a more elevated immune system in the Fayoumis under homeostatic conditions. Overall, this study helped characterize the function of this important tissue and its response to NDV.

Published
2018

247. Genetic Analysis of a Commercial Egg Laying Line Challenged With Newcastle Disease Virus.

Author

Rowland, Kaylee, Rowland, Kaylee, Wolc, Anna, Gallardo, Rodrigo A, Kelly, Terra, Zhou, Huaijun, Dekkers, Jack CM, Lamont, Susan J, Rowland, Kaylee, Rowland, Kaylee, Wolc, Anna, Gallardo, Rodrigo A, Kelly, Terra, Zhou, Huaijun, Dekkers, Jack CM, and Lamont, Susan J

Abstract

In low income countries, chickens play a vital role in daily life. They provide a critical source of protein through egg production and meat. Newcastle disease, caused by avian paramyxovirus type 1, has been ranked as the most devastating disease for scavenging chickens in Africa and Asia. High mortality among flocks infected with velogenic strains leads to a devastating loss of dietary protein and buying power for rural households. Improving the genetic resistance of chickens to Newcastle Disease virus (NDV), in addition to vaccination, is a practical target for improvement of poultry production in low income countries. Because response to NDV has a component of genetic control, it can be influenced through selective breeding. Adding genomic information to a breeding program can increase the amount of genetic progress per generation. In this study, we challenged a commercial egg-laying line with a lentogenic strain of NDV, measured phenotypic responses, collected genotypes, and associated genotypes with phenotypes. Collected phenotypes included viral load at 2 and 6 days post-infection (dpi), antibody levels pre-challenge and 10 dpi, and growth rates pre- and post-challenge. Six suggestive QTL associated with response to NDV and/or growth were identified, including novel and known QTL confirming previously reported associations with related traits. Additionally, previous RNA-seq analysis provided support for several of the genes located in or near the identified QTL. Considering the trend of negative genetic correlation between antibody and Newcastle Disease tolerance (growth under disease) and estimates of moderate to high heritability, we provide evidence that these NDV response traits can be influenced through selective breeding. Producing chickens that perform favorably in challenging environments will ultimately increase the supply of quality protein for human consumption.

Published
2018

248. Host Interaction Analysis of PA-N155 and PA-N182 in Chicken Cells Reveals an Essential Role of UBA52 for Replication of H5N1 Avian Influenza Virus.

Author

Wang, Qiao, Wang, Qiao, Li, Qinghe, Liu, Tao, Chang, Guobin, Sun, Zhihao, Gao, Zhao, Wang, Fei, Zhou, Huaijun, Liu, Ranran, Zheng, Maiqing, Cui, Huanxian, Chen, Guohong, Li, Hua, Yuan, Xiaoya, Wen, Jie, Peng, Daxin, Zhao, Guiping, Wang, Qiao, Wang, Qiao, Li, Qinghe, Liu, Tao, Chang, Guobin, Sun, Zhihao, Gao, Zhao, Wang, Fei, Zhou, Huaijun, Liu, Ranran, Zheng, Maiqing, Cui, Huanxian, Chen, Guohong, Li, Hua, Yuan, Xiaoya, Wen, Jie, Peng, Daxin, and Zhao, Guiping

Abstract

PA-N155 and PA-N182 proteins were translated from the 11th and 13th start codon AUG of the RNA polymerase acidic protein (PA) mRNA of H5N1 influenza A virus (IAV), which plays an important role in viral replication. Little is known about the interactions between PA-N155 and PA-N182 and the host proteins. This study investigated the interaction landscape of PA-N155 and PA-N182 of H5N1 IAV in chicken cells while their interacting complexes were captured by immunoprecipitation and analyzed by mass spectrometry. A total of 491 (PA-N155) and 302 (PA-N182) interacting proteins were identified. Gene ontology and pathway enrichment analyses showed that proteins of the two interactomes were enriched in RNA processing, viral processing and protein transport, and proteins related to signaling pathways of proteasome, ribosome, and aminoacy1-tRNA biosynthesis were significantly enriched, suggesting their potential roles in H5N1 IAV infection. Comparative analysis of the interactome of PA, PA-N155, and PA-N182 identified UBA52 as a conserved host factor that interacted with all three viral proteins. UBA52 is a fusion protein consisting of ubiquitin at the N terminus and ribosomal protein L40 at the C terminus. Knockdown of UBA52 significantly decreased the titer of H5N1 IAV in chicken cells and was accompanied with attenuated production of proinflammatory cytokines. Our analyses of the influenza-host protein interactomes identified UBA52 as a PA interaction protein for virus replication.

Published
2018

249. Overexpression of Chicken IRF7 Increased Viral Replication and Programmed Cell Death to the Avian Influenza Virus Infection Through TGF-Beta/FoxO Signaling Axis in DF-1.

Author

Kim, Tae Hyun, Kim, Tae Hyun, Zhou, Huaijun, Kim, Tae Hyun, Kim, Tae Hyun, and Zhou, Huaijun

Abstract

During mammalian viral infections, interferon regulatory factor 7 (IRF7) partners with IRF3 to regulate the type I interferon response. In chickens, however, it is still unclear how IRF7 functions in the host innate immune response, especially given that IRF3 is absent. To further elucidate the functional role of chicken IRF7 during avian influenza virus (AIV) infection, we generated inducible IRF7 overexpression DF-1 cell lines and performed in vitro infection using low pathogenic AIVs (LPAIVs). Overexpression of IRF7 resulted in higher viral replication of H6N2 and H10N7 LPAIVs compared to empty vector control cells regardless of IRF7 expression level. In addition, a high rate of induced cell death was observed due to elevated level of IRF7 upon viral infection. RNA-seq and subsequent transcriptome analysis of IRF7 overexpression and control cells discovered candidate genes possibly controlled by chicken IRF7. Functional annotation revealed potential pathways modulated by IRF7 such as TGF-beta signaling pathway, FoxO signaling pathway and cell structural integrity related pathways. Next, we analyzed the host response alteration due to the IRF7 overexpression and additionally discovered the possible connection of chicken IRF7 and JAK-STAT signaling pathway. These findings suggest that chicken IRF7 could modulate a wide range of cellular processes in the host innate immune response thus meticulous control of IRF7 expression is crucial to the host in response to AIV infection.

Published
2018

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