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1. Local structural preferences in shaping tau amyloid polymorphism

Author

Louros, Nikolaos, Wilkinson, Martin, Tsaka, Grigoria, Ramakers, Meine, Morelli, Chiara, Garcia, Teresa, Gallardo, Rodrigo, D’Haeyer, Sam, Goossens, Vera, Audenaert, Dominique, Thal, Dietmar Rudolf, Mackenzie, Ian R., Rademakers, Rosa, Ranson, Neil A., Radford, Sheena E., Rousseau, Frederic, and Schymkowitz, Joost

Published
2024
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2. Genomic Regions and Candidate Genes Affecting Response to Heat Stress with Newcastle Virus Infection in Commercial Layer Chicks Using Chicken 600K Single Nucleotide Polymorphism Array.

Author

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

Subjects
GWAS, NDV, QTL, chicken, heat stress, Animals, Chickens, Polymorphism, Single Nucleotide, Genome-Wide Association Study, Carbon Dioxide, Heat-Shock Response, Newcastle Disease, Genomics, Newcastle disease virus
Abstract

Heat stress results in significant economic losses to the poultry industry. Genetics plays an important role in chickens adapting to the warm environment. Physiological parameters such as hematochemical parameters change in response to heat stress in chickens. To explore the genetics of heat stress resilience in chickens, a genome-wide association study (GWAS) was conducted using Hy-Line Brown layer chicks subjected to either high ambient temperature or combined high temperature and Newcastle disease virus infection. Hematochemical parameters were measured during three treatment phases: acute heat stress, chronic heat stress, and chronic heat stress combined with NDV infection. Significant changes in blood parameters were recorded for 11 parameters (sodium (Na+, potassium (K+), ionized calcium (iCa2+), glucose (Glu), pH, carbon dioxide partial pressure (PCO2), oxygen partial pressure (PO2), total carbon dioxide (TCO2), bicarbonate (HCO3), base excess (BE), and oxygen saturation (sO2)) across the three treatments. The GWAS revealed 39 significant SNPs (p < 0.05) for seven parameters, located on Gallus gallus chromosomes (GGA) 1, 3, 4, 6, 11, and 12. The significant genomic regions were further investigated to examine if the genes within the regions were associated with the corresponding traits under heat stress. A candidate gene list including genes in the identified genomic regions that were also differentially expressed in chicken tissues under heat stress was generated. Understanding the correlation between genetic variants and resilience to heat stress is an important step towards improving heat tolerance in poultry.

Published
2024

3. Differential Impact of Massachusetts, Canadian 4/91, and California (Cal) 1737 Genotypes of Infectious Bronchitis Virus Infection on Lymphoid Organs of Chickens.

Author

Abd-Elsalam, Reham, Najimudeen, Shahnas, Mahmoud, Motamed, Hassan, Mohamed, Abdul-Careem, Mohamed, and Gallardo, Rodrigo

Subjects
California 1737 genotype, Canadian 4/91 genotype, Massachusetts genotype, bursa of Fabricius, cecal tonsils, chicken, harderian gland, infectious bronchitis virus, spleen, Animals, Canada, Chickens, Infectious bronchitis virus, Coronavirus Infections, Poultry Diseases, California, Genotype, Massachusetts, Viral Vaccines
Abstract

Infectious bronchitis virus (IBV) induces severe economic losses in chicken farms due to the emergence of new variants leading to vaccine breaks. The studied IBV strains belong to Massachusetts (Mass), Canadian 4/91, and California (Cal) 1737 genotypes that are prevalent globally. This study was designed to compare the impact of these three IBV genotypes on primary and secondary lymphoid organs. For this purpose, one-week-old specific pathogen-free chickens were inoculated with Mass, Canadian 4/91, or Cal 1737 IBV variants, keeping a mock-infected control. We examined the IBV replication in primary and secondary lymphoid organs. The molecular, histopathological, and immunohistochemical examinations revealed significant differences in lesion scores and viral distribution in these immune organs. In addition, we observed B-cell depletion in the bursa of Fabricius and the spleen with a significant elevation of T cells in these organs. Further studies are required to determine the functional consequences of IBV replication in lymphoid organs.

Published
2024

4. Genotypic and phenotypic characterisation of three local chicken ecotypes of Ghana based on principal component analysis and body measurements.

Author

Botchway, Princess, Amuzu-Aweh, Esinam, Naazie, Augustine, Aning, George, Otsyina, Hope, Saelao, Perot, Wang, Ying, Zhou, Huaijun, Dekkers, Jack, Lamont, Sue, Gallardo, Rodrigo, Kelly, Terra, Bunn, David, and Kayang, Boniface

Subjects
Animals, Chickens, Ghana, Ecotype, Principal Component Analysis, Female, Male, Phenotype, Genotype, Polymorphism, Single Nucleotide, Body Weight
Abstract

This study aimed to characterise three Ghanaian local chicken ecotypes, namely, Interior Savannah, Forest, and Coastal Savannah, based on morphological data and single nucleotide polymorphism (SNP) genotypes. Morphological data including body weight, shank length, body girth, back length, thigh length, beak length, comb length, and wattle length were collected from 250 local chickens. DNA isolated from blood of 1,440 local chickens was used for SNP genotyping with the Affymetrix chicken 600k SNP chip. Principal component analysis showed that Forest and Coastal Savannah birds were closely related. Generally, all three ecotypes exhibited high genetic diversity, especially birds from the Interior Savannah zone. Morphological characterisation showed that ecotype (p = 0.016) and sex (p = 0.000) had significant effects on body weight. Birds of the Interior Savannah ecotype were the heaviest (p = 0.004), with mean weights of 1.23 kg for females and 1.40 kg for males. Sex also had a strong significant effect on most of the morphological measurements, but the sex * ecotype interaction effect was not significant. Very few of the feather phenotypes previously reported to be associated with heat resistance-frizzle (2%) and naked neck (1.6%)-were found in the studied populations. It is concluded that the three local ecotypes are genetically diverse but with similar morphological features and the information provided would be useful for future selection decisions.

Published
2024

5. Genetic architecture of body weight, carcass, and internal organs traits of Ghanaian local chickens.

Author

Dekkers, Jack, Kayang, Boniface, Kanlisi, Roland, Amuzu-Aweh, Esinam, Naazie, Augustine, Otsyina, Hope, Kelly, Terra, Lamont, Susan, Gallardo, Rodrigo, and Zhou, Huaijun

Subjects
GWAS, Ghanaian chicken ecotypes, carcass traits, growth traits, internal organ traits
Abstract

Information on the genetic architecture of the production traits of indigenous African chicken is limited. We performed a genome-wide association study using imputed Affymetrix Axiom® 600K SNP-chip genotypes on 1,113 chickens from three agroecological zones of Ghana. After quality control, a total of 382,240 SNPs remained. Variance components and heritabilities for some growth, carcass and internal organ traits were estimated. The genetic and phenotypic correlations among these traits were also estimated. The estimated heritabilities of body weight at week 22 (BW22), average daily gain (ADG), dressed weight, breast weight, thigh weight, wing weight, drumstick weight, and neck weight were high and ranged from 0.50 to 0.69. Estimates of heritabilities for head weight, shank weight, and gizzard weight were moderate (0.31-0.35) while those of liver weight, back weight, dressing percentage, and heart weight were low (0.13-0.21). The estimated heritabilities of dressed weight, breast weight, wing weight, drumstick weight, neck weight, shank weight, and gizzard weight, corrected for BW22, were moderate (0.29-0.38), while the remaining traits had low heritability estimates (0.13-0.21). A total of 58 1-Mb SNP windows on chromosomes 1, 2, 4, 5, 6, 7, 8, 9, 13, 18, and 33 each explained more than 1% of the genetic variance for at least one of these traits. These genomic regions contained many genes previously reported to have effects on growth, carcass, and internal organ traits of chickens, including EMX2, CALCUL1, ACVR1B, CACNB1, RB1, MLNR, FOXO1, NCARPG, LCORL, LAP3, LDB2, KPNA3, and CAB39L. The moderate to high heritability estimates and high positive genetic correlations suggest that BW22, ADG, dressed weight, breast weight, thigh weight, wing weight, drumstick weight, and neck weight could be improved through selective breeding.

Published
2024

6. Comparative pathogenicity of CA1737/04 and Mass infectious bronchitis virus genotypes in laying chickens.

Author

Ali, Ahmed, Farooq, Muhammad, Altakrouni, Danah, Najimudeen, Shahnas, Hassan, Mohamed, Isham, Ishara, Shalaby, Adel, Abdul-Careem, Mohamed, and Gallardo, Rodrigo

Subjects
Canada, hen, infectious bronchitis virus, pathogenicity, tissue tropism
Abstract

Infectious bronchitis virus (IBV) is a respiratory virus causing atropism in multiple body systems of chickens. Recently, the California 1737/04 (CA1737/04) IBV strain was identified as one of the circulating IBV variants among poultry operations in North America. Here, the pathogenicity and tissue tropism of CA1737/04 IBV strain in specific-pathogen-free (SPF) hens were characterized in comparison to Massachusetts (Mass) IBV. In 30 weeks-old SPF hens, Mass or CA1737/04 IBV infections were carried out, while the third group was maintained as a control group. Following infection, we evaluated clinical signs, egg production, viral shedding, serology, necropsy examination, and histopathology during a period of 19 days. Also, certain tissue affinity parameters were investigated, which involved the localization of viral antigens and the detection of viral RNA copies in designated tissues. Our findings indicate that infection with CA1737/04 or Mass IBV strain could induce significant clinical signs, reduced egg production, and anti-IBV antibodies locally in oviduct wash and systemically in serum. Both IBV strains showed detectable levels of viral RNA copies and induced pathology in respiratory, renal, enteric, and reproductive tissues. However, the CA1737/04 IBV strain had higher pathogenicity, higher tissue tropism, and higher replication in the kidney, large intestine, and different segments of the oviduct compared to the Mass IBV strain. Both IBV strains shed viral genome from the cloacal route, however, the Mass IBV infected hens shed higher IBV genome loads via the oropharyngeal route compared to CA1737/04 IBV-infected hens. Overall, the current findings could contribute to a better understanding of CA1737/04 IBV pathogenicity in laying hens.

Published
2024

7. Molecular characterization of Newcastle disease virus obtained from Mawenzi live bird market in Morogoro, Tanzania in 2020-2021.

Author

Tsaxra, John, Abolnik, Celia, Kelly, Terra, Chengula, Augustino, Mushi, James, Msoffe, Peter, Muhairwa, Amandus, Phiri, Thandeka, Jude, Rachel, Chouicha, Nadira, Mollel, Esther, Gallardo, Rodrigo, and Zhou, Huaijun

Subjects
Genotypes, Live bird market, Local chickens, Newcastle disease, Phylogeny, Tanzania, Animals, Newcastle disease virus, Tanzania, Phylogeny, Chickens, Newcastle Disease, Real-Time Polymerase Chain Reaction, Genotype, Poultry Diseases
Abstract

Newcastle disease (ND) is among the most important poultry diseases worldwide. It is the major threat to poultry production in Africa and causes major economic losses for both local and commercial chickens. To date, half of ND class II genotypes have been reported in Africa (I, IV, V, VI, VII, XI, XIII, XIV, XVII, XVIII, and XXI). The information on the circulating NDV genotypes is still scarce despite the endemic nature of ND in most countries on the African continent.A total of 659 oro-cloacal swabs were collected from local chickens in Mawenzi live bird market located in Morogoro, Tanzania, between June 2020 and May 2021. Newcastle disease virus was detected by using reverse transcription real-time polymerase chain reaction (RT-qPCR) and conventional PCR followed by sequencing of PCR products. The prevalence of NDV in the surveilled live bird markets was 23.5%. Sequencing and phylogenetic analysis revealed the presence of sub-genotype VII.2. The detected sub-genotype VII.2 has phylogenetic links to Zambian NDV strains implying a Southeast dissemination of the virus, considering that it was first detected in Mozambique. This study underscores the need of active NDV surveillance to determine the distribution of this NDV genotype in the country and monitor its spread and contribution to the emergence of new ND viruses.

Published
2023

8. Whole-genome sequence of a genotype VIII infectious bronchitis virus isolated from California layer chickens in 2021.

Author

Jude, Rachel, da Silva, Ana, Rejmanek, Daniel, Crossley, Beate, Jerry, Carmen, Stoute, Simone, and Gallardo, Rodrigo

Subjects
genotype VIII, infectious bronchitis virus, poultry
Abstract

Herein, we report the complete genome for an avian infectious bronchitis virus isolated from cecal tonsils of California layers in 2021. This whole-genome sequence belongings to genotype GVIII, previously classified as a unique variant.

Published
2023

9. Genetic Analyses of Response of Local Ghanaian Tanzanian Chicken Ecotypes to a Natural Challenge with Velogenic Newcastle Disease Virus

Author

Walugembe, Muhammed, Naazie, Augustine, Mushi, James R, Akwoviah, George A, Mollel, Esther, Mang’enya, Juliana A, Wang, Ying, Chouicha, Nadira, Kelly, Terra, Msoffe, Peter LM, Otsyina, Hope R, Gallardo, Rodrigo A, Lamont, Susan J, Muhairwa, Amandus P, Kayang, Boniface B, Zhou, Huaijun, and Dekkers, Jack CM

Subjects
Veterinary Sciences, Agricultural, Veterinary and Food Sciences, Infection, Newcastle disease virus, genetic parameters, disease exposure, local chicken ecotypes, Environmental Science and Management, Zoology, Animal Production, Animal production, Veterinary sciences
Abstract

Newcastle disease is a devastating poultry disease that often causes significant economic losses in poultry in the developing countries of Africa, Asia, as well as South and Central America. Velogenic Newcastle disease virus (NDV) outbreaks are associated with high mortalities, which can threaten household livelihoods, especially in the rural areas, and lead to loss of high-quality proteins in the form of meat and eggs, as well as household purchasing power. In this study, we exposed unvaccinated Ghanaian and Tanzanian chickens of six local ecotypes to velogenic NDV strains, measured NDV response traits, sequenced their DNA on a genotyping-by-sequencing platform, and performed variance component analyses. The collected phenotypes included: growth rates (pre- and post-exposure); lesion scores (gross lesion severity) in the trachea, proventriculus, intestine, and cecal tonsils; natural antibody levels; anti-NDV antibody levels at 7 days post exposure (dpe); tear and cloacal viral load at 2, 4, and 6 dpe; and survival time. Heritability estimates were low to moderate, ranging from 0.11 for average lesion scores to 0.36 for pre-exposure growth rate. Heritability estimates for survival time were 0.23 and 0.27 for the Tanzanian and Ghanaian ecotypes, respectively. Similar heritability estimates were observed when data were analyzed either separately or combined for the two countries. Survival time was genetically negatively correlated with lesion scores and with viral load. Results suggested that response to mesogenic or velogenic NDV of these local chicken ecotypes could be improved by selective breeding. Chickens that are more resilient to velogenic NDV can improve household livelihoods in developing countries.

Published
2022

10. Infectious Bronchitis Virus: A Comprehensive Multilocus Genomic Analysis to Compare DMV/1639 and QX Strains

Author

da Silva, Ana P, Jude, Rachel, and Gallardo, Rodrigo A

Subjects
Genetics, Biotechnology, Infectious Diseases, Aetiology, 2.2 Factors relating to the physical environment, Infection, Good Health and Well Being, Amino Acids, Animals, Chickens, Coronavirus Infections, Genomics, Infectious bronchitis virus, Phylogeny, Poultry Diseases, infectious bronchitis, viral evolution, whole genome sequencing, DMV, QX, Microbiology
Abstract

Infectious bronchitis virus (IBV) is a highly variable RNA virus that affects chickens worldwide. Due to its inherited tendency to suffer point mutations and recombination events during viral replication, emergent IBV strains have been linked to nephropathogenic and reproductive disease that are more severe than typical respiratory disease, leading, in some cases, to mortality, severe production losses, and/or unsuccessful vaccination. QX and DMV/1639 strains are examples of the above-mentioned IBV evolutionary pathway and clinical outcome. In this study, our purpose was to systematically compare whole genomes of QX and DMV strains looking at each IBV gene individually. Phylogenetic analyses and amino acid site searches were performed in datasets obtained from GenBank accounting for all IBV genes and using our own relevant sequences as a basis. The QX dataset studied is more genetically diverse than the DMV dataset, partially due to the greater epidemiological diversity within the five QX strains used as a basis compared to the four DMV strains from our study. Historically, QX strains have emerged and spread earlier than DMV strains in Europe and Asia. Consequently, there are more QX sequences deposited in GenBank than DMV strains, assisting in the identification of a larger pool of QX strains. It is likely that a similar evolutionary pattern will be observed among DMV strains as they develop and spread in North America.

Published
2022

11. Hyperimmunized Chickens Produce Neutralizing Antibodies against SARS-CoV-2

Author

Aston, Emily J, Wallach, Michael G, Narayanan, Aarthi, Egaña-Labrin, Sofia, and Gallardo, Rodrigo A

Subjects
Pneumonia & Influenza, Immunization, Pneumonia, Prevention, Emerging Infectious Diseases, Vaccine Related, Biotechnology, Lung, Infectious Diseases, Biodefense, 5.1 Pharmaceuticals, Development of treatments and therapeutic interventions, Infection, Good Health and Well Being, Animals, Antibodies, Neutralizing, Antibodies, Viral, COVID-19, Chickens, Egg Yolk, Female, SARS-CoV-2, Spike Glycoprotein, Coronavirus, chicken, passive immunization, antibodies, neutralizing antibodies, egg, Microbiology
Abstract

The novel severe acute respiratory syndrome (SARS) coronavirus, SARS-CoV-2, is responsible for the global COVID-19 pandemic. Effective interventions are urgently needed to mitigate the effects of COVID-19 and likely require multiple strategies. Egg-extracted antibody therapies are a low-cost and scalable strategy to protect at-risk individuals from SARS-CoV-2 infection. Commercial laying hens were hyperimmunized against the SARS-CoV-2 S1 protein using three different S1 recombinant proteins and three different doses. Sera and egg yolk were collected at three and six weeks after the second immunization for enzyme-linked immunosorbent assay and plaque-reduction neutralization assay to determine antigen-specific antibody titers and neutralizing antibody titers, respectively. In this study we demonstrate that hens hyperimmunized against the SARS-CoV-2 recombinant S1 and receptor binding domain (RBD) proteins produced neutralizing antibodies against SARS-CoV-2. We further demonstrate that antibody production was dependent on the dose and type of antigen administered. Our data suggests that antibodies purified from the egg yolk of hyperimmunized hens can be used as immunoprophylaxis in humans at risk of exposure to SARS-CoV-2.

Published
2022

12. Outreach Efforts to Prevent Newcastle Disease Outbreaks in Southern California

Author

Figueroa, Alejandra, Escobedo, Esteban, Solis, Marco, Rivera, Charlene, Ikelman, Ann, and Gallardo, Rodrigo A

Subjects
Microbiology, Biological Sciences, Prevention, Animals, California, Disease Outbreaks, Newcastle Disease, Poultry, Poultry Diseases, United States, Newcastle disease virus, biosecurity, gamefowl, poultry, outreach, education
Abstract

In May 2018, an outbreak of virulent Newcastle disease (vND) affected backyard and commercial premises in Southern California. The re-occurrence of these outbreaks since the 1970s suggests that some poultry communities may not have reliable and stable resources available regarding biosecurity and disease prevention. Therefore, staff at the University of California, Davis (UCD) School of Veterinary Medicine (SVM), and the California Department of Food and Agriculture (CDFA) began organizing educational events and learning more about the gamefowl breeder community through a needs assessment exercise, during which local feedstores and neighborhoods were also visited. Focus groups were organized with breeders in various cities within the regional quarantine area, established by the CDFA during the vND outbreak. The focus groups were aimed at creating open communication networks with gamefowl breeders in the affected area, as well as to learn about their current sources of information, learning preferences, and current management practices. With the input from gamefowl breeders, as well as funding and input from the CDFA and the United States Department of Agriculture (USDA), a quality assurance program called the "Gamefowl Wellness Program" was established. Educational content was created and published through the UCD Gamefowl Wellness Program poultry health website. Additionally, with the help of the CDFA, the USDA, and pharmaceutical companies, Newcastle disease vaccines and training for their application were provided to feedstores with gamefowl breeder clientele. Nurturing trust with these poultry communities allowed us to receive the information needed to develop effective outreach strategies that could better serve them. Responding to community concerns might be a way to garner the trust necessary to prevent or at least promptly detect foreign animal disease outbreaks.

Published
2022

14. Author Correction: Reverse engineering synthetic antiviral amyloids

Author

Michiels, Emiel, Roose, Kenny, Gallardo, Rodrigo, Khodaparast, Ladan, Khodaparast, Laleh, van der Kant, Rob, Siemons, Maxime, Houben, Bert, Ramakers, Meine, Wilkinson, Hannah, Guerreiro, Patricia, Louros, Nikolaos, Kaptein, Suzanne J. F., Ibañez, Lorena Itatí, Smet, Anouk, Baatsen, Pieter, Liu, Shu, Vorberg, Ina, Bormans, Guy, Neyts, Johan, Saelens, Xavier, Rousseau, Frederic, and Schymkowitz, Joost

Published
2023
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16. Molecular Biology and Pathological Process of an Infectious Bronchitis Virus with Enteric Tropism in Commercial Broilers.

Author

da Silva, Ana P, Hauck, Ruediger, Nociti, Sabrina RC, Kern, Colin, Shivaprasad, HL, Zhou, Huaijun, and Gallardo, Rodrigo A

Subjects
Intestines, Animals, Chickens, Infectious bronchitis virus, Coronavirus Infections, Poultry Diseases, Virus Shedding, Genome, Viral, Viral Tropism, IBV, enteric tropism, infectious bronchitis, runting-stunting syndrome, variants, whole-genome sequencing, Digestive Diseases, Genetics, Infectious Diseases, 2.2 Factors relating to the physical environment, 2.1 Biological and endogenous factors, Aetiology, Infection, Microbiology
Abstract

Infectious bronchitis virus (IBV) induces respiratory and urogenital disease in chickens. Although IBV replicates in the gastrointestinal tract, enteric lesions are uncommon. We have reported a case of runting-stunting syndrome in commercial broilers from which an IBV variant was isolated from the intestines. The isolate, CalEnt, demonstrated an enteric tissue tropism in chicken embryos and SPF chickens experimentally. Here, we determined the full genome of CalEnt and compared it to other IBV strains, in addition to comparing the pathobiology of CalEnt and M41 in commercial broilers. Despite the high whole-genome identity to other IBV strains, CalEnt is rather unique in its nucleotide composition. The S gene phylogenetic analyses showed great similarity between CalEnt and Cal 99. Clinically, vent staining was slightly more frequent in CalEnt-infected birds than those challenged with M41. Furthermore, IBV IHC detection was more evident and the viral shedding in feces was overall higher with the CalEnt challenge compared with M41. Despite underlying intestinal lesions caused by coccidiosis and salmonellosis vaccination, microscopic lesions in CalEnt-infected chickens were more severe than in M41-infected chickens or controls, supporting the enteric tropism of CalEnt. Further studies in SPF chickens are needed to determine the pathogenesis of the virus, its molecular mechanisms for the enteric tropism, and its influence in intestinal health.

Published
2021

18. 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 CM, Lamont, Susan J, Kelly, Terra, and Zhou, Huaijun

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.

Published
2021

19. Phenotypic variability and population structure analysis of Tanzanian free-range local chickens.

Author

Mushi, James R, Chiwanga, Gaspar H, Amuzu-Aweh, Esinam N, Walugembe, Muhammed, Max, Robert A, Lamont, Susan J, Kelly, Terra R, Mollel, Esther L, Msoffe, Peter L, Dekkers, Jack, Gallardo, Rodrigo, Zhou, Huaijun, and Muhairwa, Amandus P

Subjects
Animals, Chickens, Phenotype, Polymorphism, Single Nucleotide, Tanzania, Female, Male, Ecotype, Free-range local chickens, Genetic diversity, Phenotypic diversity, Population structure, Biochemistry and Cell Biology, Microbiology, Veterinary Sciences
Abstract

BackgroundFree-range local chickens (FRLC) farming is an important activity in Tanzania, however, they have not been well-characterized. This study aimed to phenotypically characterize three Tanzanian FRLCs and to determine their population structure. A total of 389 mature breeder chickens (324 females and 65 males) from three popular Tanzanian FRLC ecotypes (Kuchi, Morogoro-medium and Ching'wekwe) were used for the phenotypic characterization. Progenies of these chickens were utilized to assess population structure. The ecotypes were collected from four geographical zones across Tanzania: Lake, Central, Northern and Coastal zones. Body weights and linear measurements were obtained from the mature breeders, including body, neck, shanks, wingspan, chest girth, and shank girth. Descriptive statistics were utilized to characterize the chickens. Correlations between the linear measurements and differences among the means of measured linear traits between ecotypes and between sexes were assessed. A total of 1399 progeny chicks were genotyped using a chicken 600 K high density single nucleotide polymorphism (SNP) panel for determination of population structure.ResultsThe means for most traits were significantly higher in Kuchi relative to Ching'wekwe and Morogoro-medium. However, shank length and shank girth were similar between Kuchi and Morogoro-medium females. All traits were correlated with the exception of shank girth in Morogoro-medium. Admixture analyses revealed that Morogoro-medium and Ching'wekwe clustered together as one population, separate from Kuchi.ConclusionsPhenotypic traits could be used to characterize FRLCs, however, there were variations in traits among individuals within ecotypes; therefore, complementary genomic methods should be considered to improve the characterization for selective breeding.

Published
2020

21. Integrated Transcriptome and Histone Modification Analysis Reveals NDV Infection Under Heat Stress Affects Bursa Development and Proliferation in Susceptible Chicken Line

Author

Chanthavixay, Ganrea, Kern, Colin, Wang, Ying, Saelao, Perot, Lamont, Susan J, Gallardo, Rodrigo A, Rincon, Gonzalo, and Zhou, Huaijun

Subjects
Biological Sciences, Bioinformatics and Computational Biology, Genetics, Human Genome, Aetiology, 2.1 Biological and endogenous factors, Infection, Newcastle disease virus, heat stress, bursa, RNA-seq, ChIP-seq, Clinical Sciences, Law
Abstract

Two environmental factors, Newcastle disease and heat stress, are concurrently negatively impacting poultry worldwide and warrant greater attention into developing genetic resistance within chickens. Using two genetically distinct and highly inbred layer lines, Fayoumi and Leghorn, we explored how different genetic backgrounds affect the bursal response to a treatment of simultaneous Newcastle disease virus (NDV) infection at 6 days postinfection (dpi) while under chronic heat stress. The bursa is a primary lymphoid organ within birds and is crucial for the development of B cells. We performed RNA-seq and ChIP-seq targeting histone modifications on bursa tissue. Differential gene expression revealed that Leghorn, compared to Fayoumi, had significant down-regulation in genes involved in cell proliferation, cell cycle, and cell division. Interestingly, we also found greater differences in histone modification levels in response to treatment in Leghorns than Fayoumis, and biological processes enriched in associated target genes of H3K27ac and H3K4me1 were similarly associated with cell cycle and receptor signaling of lymphocytes. Lastly, we found candidate variants between the two genetic lines within exons of differentially expressed genes and regulatory elements with differential histone modification enrichment between the lines, which provides a strong foundation for understanding the effects of genetic variation on NDV resistance under heat stress. This study provides further understanding of the cellular mechanisms affected by NDV infection under heat stress in chicken bursa and identified potential genes and regulatory regions that may be targets for developing genetic resistance within chickens.

Published
2020

22. Liver Transcriptome Responses to Heat Stress and Newcastle Disease Virus Infection in Genetically Distinct Chicken Inbred Lines

Author

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

Subjects
Biological Sciences, Genetics, Digestive Diseases, Liver Disease, 2.1 Biological and endogenous factors, Aetiology, Infection, Animals, Avian Proteins, Chickens, Disease Resistance, Disease Susceptibility, Gene Expression Profiling, Gene Regulatory Networks, Heat Stress Disorders, Heat-Shock Response, Liver, Newcastle Disease, Newcastle disease virus, Poultry Diseases, Transcriptome, chicken, heat stress, RNA-seq
Abstract

Heat stress results in reduced productivity, anorexia, and mortality in chickens. The objective of the study was to identify genes and signal pathways associated with heat stress and Newcastle disease virus (NDV) infection in the liver of chickens through RNA-seq analysis, using two highly inbred chicken lines (Leghorn and Fayoumi). All birds were held in the same environment until 14 days of age. On day 14, half the birds were exposed to 38 °C with 50% relative humidity for 4 h, then 35 °C until the end of the experiment. The remaining birds were kept at 25 °C throughout the experiment. The heat-treated birds were inoculated at 21 days of age with 107 EID50 (One EID50 unit is the amount of virus that will infect 50 percent of inoculated embryos) NDV La Sota strain to investigate the effects of both heat stress and NDV infection. Physiological parameters were recorded as blood phenotypes at three stages: acute heat (AH), chronic heat (CH1), and chronic heat combined with NDV infection (CH&NDV), at 4 h, 7 days, and 10 days post-initiation of heat treatment, respectively. Our previous work revealed that the heat-resilient Fayoumi line maintained a more stable acid-base balance in their blood compared to the Leghorn line. Liver samples were harvested on both AH and CH&NDV to characterize the transcriptome profiles of these two inbred lines. Both genetic lines and treatments had large impact on the liver transcriptome. Fayoumi birds had more differentially expressed genes (DEGs) than Leghorn birds for both treatments. Metabolic and immune-related genes were on the DEG list, with Fayoumi having more immune-related DEGs than Leghorns, which was confirmed by gene functional enrichment analysis. Weighted correlation network analysis (WGCNA) indicated that the driver genes such as Solute Carrier Family genes could be very important for stabilizing the acid-base balance in Fayoumi birds during heat stress. Therefore, candidate genes such solute carrier family genes could be potential genetic targets that are regulated by Fayoumis to maintain physical hemostasis under heat stress. Differential gene expression showed that Leghorns mainly performed metabolic regulation in response to heat stress and NDV infection, while Fayoumis regulated both immune and metabolic functions. This study provides novel insights and enhances our understandings of liver response to heat stress of heat resilient and susceptible inbred chicken lines.

Published
2020

23. Molecular Characterization of Newcastle Disease Viruses Isolated from Chickens in Tanzania and Ghana

Author

da Silva, Ana P, Aston, Emily J, Chiwanga, Gaspar H, Birakos, Ashley, Muhairwa, Amandus P, Kayang, Boniface B, Kelly, Terra, Zhou, Huaijun, and Gallardo, Rodrigo A

Subjects
Microbiology, Biological Sciences, Emerging Infectious Diseases, Biodefense, Rare Diseases, Prevention, Vaccine Related, Infectious Diseases, Clinical Research, Genetics, Infection, Good Health and Well Being, Animals, Chickens, Genetic Variation, Genotype, Ghana, Newcastle Disease, Newcastle disease virus, Phylogeny, Poultry Diseases, RNA, Viral, Tanzania, Viral Fusion Proteins, Newcastle disease, molecular characterization, Africa, MinION, Nanopore, poultry
Abstract

Newcastle disease (ND) is one of the most challenging infectious diseases affecting poultry production in Africa, causing major economic losses. To date, Newcastle disease virus isolates from several African countries have been grouped into class II NDV genotypes I, IV, V, VI, VII, XI, XIII, XIV, XVII, XVIII and XXI. Although ND is endemic in many African countries, information on circulating genotypes is still scarce. In Tanzania, outbreaks with genotypes V and XIII have been reported. In West and Central Africa, genotypes XIV, XVII, and XVIII are the most predominant. To investigate other genotypes circulating in Tanzania and Ghana, we performed molecular genotyping on isolates from Tanzania and Ghana using the MinION, a third-generation portable sequencing device from Oxford Nanopore Technologies. Using the MinION, we successfully sequenced the NDV F gene hypervariable region of 24 isolates from Tanzania and four samples from Ghana. In Tanzania, genotypes V, VII and XIII were detected. All isolates from Ghana belonged to genotype XVIII. The data obtained in this study reflect the genetic diversity of NDV in Africa and highlight the importance of surveillance for monitoring the distribution of NDV genotypes and viral evolution.

Published
2020

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

Author

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

Subjects
Biological Sciences, Genetics, HIV/AIDS, Biotechnology, 2.2 Factors relating to the physical environment, Aetiology, Infection, NDV, GWAS, Ghanaian local ecotypes, QTL, immune response, Clinical Sciences, Law
Abstract

Newcastle disease (ND) is a global threat to domestic poultry, especially in rural areas of Africa and Asia, where the loss of entire backyard local chicken flocks often threatens household food security and income. To investigate the genetics of Ghanaian local chicken ecotypes to Newcastle disease virus (NDV), in this study, three popular Ghanaian chicken ecotypes (regional populations) were challenged with a lentogenic NDV strain at 28 days of age. This study was conducted in parallel with a similar study that used three popular Tanzanian local chicken ecotypes and after two companion studies in the United States, using Hy-line Brown commercial laying birds. In addition to growth rate, NDV response traits were measured following infection, including anti-NDV antibody levels [pre-infection and 10 days post-infection (dpi)], and viral load (2 and 6 dpi). Genetic parameters were estimated, and two genome-wide association study analysis methods were used on data from 1,440 Ghanaian chickens that were genotyped on a chicken 600K Single Nucleotide Polymorphism (SNP) chip. Both Ghana and Tanzania NDV challenge studies revealed moderate to high (0.18 - 0.55) estimates of heritability for all traits, except viral clearance where the heritability estimate was not different from zero for the Tanzanian ecotypes. For the Ghana study, 12 quantitative trait loci (QTL) for growth and/or response to NDV from single-SNP analyses and 20 genomic regions that explained more than 1% of genetic variance using the Bayes B method were identified. Seven of these windows were also identified as having at least one significant SNP in the single SNP analyses for growth rate, anti-NDV antibody levels, and viral load at 2 and 6 dpi. An important gene for growth during stress, CHORDC1 associated with post-infection growth rate was identified as a positional candidate gene, as well as other immune related genes, including VAV2, IL12B, DUSP1, and IL17B. The QTL identified in the Ghana study did not overlap with those identified in the Tanzania study. However, both studies revealed QTL with genes vital for growth and immune response during NDV challenge. The Tanzania parallel study revealed an overlapping QTL on chromosome 24 for viral load at 6 dpi with the US NDV study in which birds were challenged with NDV under heat stress. This QTL region includes genes related to immune response, including TIRAP, ETS1, and KIRREL3. The moderate to high estimates of heritability and the identified QTL suggest that host response to NDV of local African chicken ecotypes can be improved through selective breeding to enhance increased NDV resistance and vaccine efficacy.

Published
2020

25. Novel Combined Tissue Transcriptome Analysis After Lentogenic Newcastle Disease Virus Challenge in Inbred Chicken Lines of Differential Resistance

Author

Deist, Melissa S, Gallardo, Rodrigo A, Dekkers, Jack CM, Zhou, Huaijun, and Lamont, Susan J

Subjects
Biological Sciences, Genetics, Biotechnology, Vaccine Related, Prevention, Infectious Diseases, Immunization, 2.1 Biological and endogenous factors, 2.2 Factors relating to the physical environment, Aetiology, Infection, Good Health and Well Being, chickens, RNA-seq, weighted gene co-expression network analysis, trachea, lung, Harderian gland, Clinical Sciences, Law
Abstract

Disease has large negative impacts on poultry production. A more comprehensive understanding of host-pathogen interaction can lead to new and improved strategies to maintain health. In particular, host genetic factors can lead to a more effective response to pathogens, hereafter termed resistance. Fayoumi and Leghorn chicken lines have demonstrated relative resistance and susceptibility, respectively, to the Newcastle disease virus (NDV) vaccine strain and many other pathogens. This biological model was used to better understand the host response to a vaccine strain of NDV across three tissues and time points, using RNA-seq. Analyzing the Harderian gland, trachea, and lung tissues together using weighted gene co-expression network analysis (WGCNA) identified important genes that were co-expressed and associated with parameters including: genetic line, days post-infection (dpi), challenge status, sex, and tissue. Pathways and driver genes, such as EIF2AK2, MPEG1, and TNFSF13B, associated with challenge status, dpi, and genetic line were of particular interest as candidates for disease resistance. Overall, by jointly analyzing the three tissues, this study identified genes and gene networks that led to a more comprehensive understanding of the whole animal response to lentogenic NDV than that obtained by analyzing the tissues individually.

Published
2020

26. Transcriptome Analysis Reveals Inhibitory Effects of Lentogenic Newcastle Disease Virus on Cell Survival and Immune Function in Spleen of Commercial Layer Chicks

Author

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

Subjects
Biological Sciences, Bioinformatics and Computational Biology, Neurosciences, Infection, Good Health and Well Being, Animals, Cell Survival, Chickens, Newcastle Disease, Newcastle disease virus, Poultry Diseases, Quantitative Trait Loci, Spleen, Transcriptome, chicken, Newcastle disease, spleen, immune response, gene expression, RNA-seq, Genetics
Abstract

As a major infectious disease in chickens, Newcastle disease virus (NDV) causes considerable economic losses in the poultry industry, especially in developing countries where there is limited access to effective vaccination. Therefore, enhancing resistance to the virus in commercial chickens through breeding is a promising way to promote poultry production. In this study, we investigated gene expression changes at 2 and 6 days post inoculation (dpi) at day 21 with a lentogenic NDV in a commercial egg-laying chicken hybrid using RNA sequencing analysis. By comparing NDV-challenged and non-challenged groups, 526 differentially expressed genes (DEGs) (false discovery rate (FDR) < 0.05) were identified at 2 dpi, and only 36 at 6 dpi. For the DEGs at 2 dpi, Ingenuity Pathway Analysis predicted inhibition of multiple signaling pathways in response to NDV that regulate immune cell development and activity, neurogenesis, and angiogenesis. Up-regulation of interferon induced protein with tetratricopeptide repeats 5 (IFIT5) in response to NDV was consistent between the current and most previous studies. Sprouty RTK signaling antagonist 1 (SPRY1), a DEG in the current study, is in a significant quantitative trait locus associated with virus load at 6 dpi in the same population. These identified pathways and DEGs provide potential targets to further study breeding strategy to enhance NDV resistance in chickens.

Published
2020

27. The Chicken MHC: Insights into Genetic Resistance, Immunity, and Inflammation Following Infectious Bronchitis Virus Infections

Author

Silva, Ana P da and Gallardo, Rodrigo A

Subjects
Medical Microbiology, Biomedical and Clinical Sciences, Immunology, Prevention, Genetics, Biodefense, Infectious Diseases, Vaccine Related, 2.1 Biological and endogenous factors, Aetiology, Infection, Inflammatory and immune system, Good Health and Well Being, chicken MHC, genetic resistance, IBV, innate immunity, inflammation, Clinical sciences, Medical microbiology
Abstract

The chicken immune system has provided an immense contribution to basic immunology knowledge by establishing major landmarks and discoveries that defined concepts widely used today. One of many special features on chickens is the presence of a compact and simple major histocompatibility complex (MHC). Despite its simplicity, the chicken MHC maintains the essential counterpart genes of the mammalian MHC, allowing for a strong association to be detected between the MHC and resistance or susceptibility to infectious diseases. This association has been widely studied for several poultry infectious diseases, including infectious bronchitis. In addition to the MHC and its linked genes, other non-MHC loci may play a role in the mechanisms underlying such resistance. It has been reported that innate immune responses, such as macrophage function and inflammation, might be some of the factors driving resistance or susceptibility, consequently influencing the disease outcome in an individual or a population. Information about innate immunity and genetic resistance can be helpful in developing effective preventative measures for diseases such as infectious bronchitis, to which a systemic antibody response is often not associated with disease protection. In this review, we summarize the importance of the chicken MHC in poultry disease resistance, particularly to infectious bronchitis virus (IBV) infections and the role played by innate immunity and inflammation on disease outcome. We highlight how future studies focusing on the MHC and non-MHC genes can potentially bring clarity to observed resistance in some chicken B haplotype lines.

Published
2020

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

Author

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

Subjects
Animals, Chickens, Newcastle Disease, Avian Proteins, Receptors, Interleukin-1, Heat-Shock Response, Polymorphism, Single Nucleotide, Quantitative Trait Loci, Proto-Oncogene Protein c-ets-1, Calcium-Calmodulin-Dependent Protein Kinase Type 1, GWAS, NDV, QTL, chicken, heat stress, Receptors, Interleukin-1, Polymorphism, Single Nucleotide, Genetics
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

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

Author

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

Subjects
Biological Sciences, Genetics, Aetiology, 2.1 Biological and endogenous factors, Infection, Animals, Chickens, Computational Biology, Ecotype, Genome, Genome-Wide Association Study, Genomics, Genotype, Host-Pathogen Interactions, Newcastle Disease, Newcastle disease virus, Phenotype, Polymorphism, Single Nucleotide, Poultry Diseases, Quantitative Trait Loci, NDV, GWAS, Tanzanian local ecotypes, QTL, immune response
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

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

Author

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

Subjects
Veterinary Sciences, Agricultural, Veterinary and Food Sciences, Biological Sciences, Genetics, Infectious Diseases, 2.1 Biological and endogenous factors, Aetiology, 2.2 Factors relating to the physical environment, Infection, Animals, Antibodies, Viral, Chickens, Disease Resistance, Female, Gene Expression Profiling, Harderian Gland, Hot Temperature, Male, Newcastle Disease, Newcastle disease virus, Signal Transduction, Stress, Physiological, Transcriptome, Heat stress, Harderian gland, RNA-Seq, Disease resistance, Biochemistry and Cell Biology, Microbiology, Veterinary sciences
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 Newcastle disease virus infection compared to the Leghorn line. Within line and interaction analysis demonstrated substantial differences in response patterns between the two genetic lines that was not observed from the within line contrasts. This study has provided novel insights into the transcriptome response of the Harderian gland tissue during Newcastle disease virus infection while under heat stress utilizing a unique resistant and susceptible model.

Published
2018

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

Author

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

Subjects
Newcastle disease virus, RNA-seq, chicken, proteomics, Genetics
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

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

Author

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

Subjects
Newcastle disease virus, commercial poultry, haplotype, heat stress, immune response, Genetics
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

33. The structural basis for an on–off switch controlling Gβγ-mediated inhibition of TRPM3 channels

Author

Behrendt, Marc, Gruss, Fabian, Enzeroth, Raissa, Dembla, Sandeep, Zhao, Siyuan, Crassous, Pierre-Antoine, Mohr, Florian, Nys, Mieke, Louros, Nikolaos, Gallardo, Rodrigo, Zorzinif, Valentina, Wagner, Doris, Economou, Anastassios, Οικoνόμoυ, Αναστάσιoς, Rousseau, Frederic, Schymkowitz, Joost, Philipp, Stephan E., Rohacs, Tibor, Ulens, Chris, and Oberwinkler, Johannes

Published
2020

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

Author

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

Subjects
Spleen, Animals, Chickens, Newcastle Disease, Poultry Diseases, Transcriptome
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

Published
2018

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

Author

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

Subjects
GWAS, Newcastle disease virus, QTL, disease challenge, genetic parameters, immune response, poultry, Genetics, 2.1 Biological and endogenous factors, Aetiology, Infection, QTR, Clinical Sciences, Law
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

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

Author

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

Subjects
Veterinary Sciences, Agricultural, Veterinary and Food Sciences, Biological Sciences, Genetics, 2.1 Biological and endogenous factors, Aetiology, Infection, Animals, Animals, Inbred Strains, Chickens, Gene Expression Profiling, Gene Regulatory Networks, Harderian Gland, Host-Pathogen Interactions, Newcastle Disease, Newcastle disease virus, Reproducibility of Results, Transcriptome
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

37. Resistant and susceptible chicken lines show distinctive responses to Newcastle disease virus infection in the lung transcriptome.

Author

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

Subjects
Lung, Animals, Chickens, Newcastle disease virus, Newcastle Disease, Disease Susceptibility, Gene Expression Profiling, Sequence Analysis, RNA, Species Specificity, Principal Component Analysis, Female, Male, Gene Regulatory Networks, Transcriptome, Disease Resistance, Chicken, RNA-seq, WGCNA, Sequence Analysis, RNA, Biological Sciences, Information and Computing Sciences, Medical and Health Sciences, Bioinformatics
Abstract

BackgroundNewcastle disease virus (NDV) is a threat to poultry production worldwide. A better understanding of mechanisms of resistance and susceptibility to this virus will improve measures for NDV prevention and control. Males and females from resistant Fayoumi and susceptible Leghorn lines were either challenged with a lentogenic strain of the virus or given a mock infection at 3 weeks of age. The lung transcriptomes generated by RNA-seq were studied using contrasts across the challenged and nonchallenged birds, the two lines, and three time points post-infection, and by using Weighted Gene Co-expression Network Analysis (WGNCA).ResultsGenetic line and sex had a large impact on the lung transcriptome. When contrasting the challenged and nonchallenged birds, few differentially expressed genes (DEG) were identified within each line at 2, 6, and 10 days post infection (dpi), except for the more resistant Fayoumi line at 10 dpi, for which several pathways were activated and inhibited at this time. The interaction of challenge and line at 10 dpi significantly impacted 131 genes (False Discovery Rate (FDR)

Published
2017

38. The effect of diatomaceous earth in live, attenuated infectious bronchitis vaccine, immune responses, and protection against challenge

Author

Nazmi, Ali, Hauck, Rüdiger, Corbeil, Lynette B, and Gallardo, Rodrigo A

Subjects
Veterinary Sciences, Agricultural, Veterinary and Food Sciences, Animal Production, Food Sciences, Prevention, Immunization, Infectious Diseases, Vaccine Related, Prevention of disease and conditions, and promotion of well-being, 3.4 Vaccines, Infection, Good Health and Well Being, Adjuvants, Immunologic, Animals, Chickens, Coronavirus Infections, Diatomaceous Earth, Immunity, Humoral, Immunity, Mucosal, Infectious bronchitis virus, Poultry Diseases, Vaccines, Attenuated, Viral Vaccines, Diatomaceous earth, vaccines, adjuvants, IBV, immune responses, Microbiology, Dairy & Animal Science, Animal production, Food sciences, Veterinary sciences
Abstract

Live virus vaccines are commonly used in poultry production, particularly in broilers. Massive application and generation of a protective local mucosal and humoral immunity with no adverse effects is the main goal for this strategy. Live virus vaccines can be improved by adding adjuvants to boost mucosal innate and adaptive responses. In a previous study we showed that diatomaceous earth (DE) can be used as adjuvant in inactivated vaccines. The aim of this study was to test DE as adjuvant in an Ark-DPI live infectious bronchitis virus (IBV) vaccine after ocular or spray application. Titrating the virus alone or after addition of DE showed that DE had no detrimental effect on the vaccine virus. However, adding DE to the vaccine did not induce higher IgG titers in the serum and IgA titers in tears. It also did not affect the frequency of CD4+ T cells, CD8+ T cells and monocytes/macrophages in the blood and the spleen determined by flow cytometry. In addition, protection generated against IBV homologous challenges, measured by viral load in tears, respiratory signs and histopathology in tracheas, did not vary when DE was present in the vaccine formulation. Finally, we confirmed through our observations that Ark vaccines administered by hatchery spray cabinet elicit weaker immune responses and protection against an IBV homologous challenge compared to the same vaccine delivered via ocular route.

Published
2017

39. Novel Mechanisms Revealed in the Trachea Transcriptome of Resistant and Susceptible Chicken Lines following Infection with Newcastle Disease Virus.

Author

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

Subjects
Trachea, Animals, Chickens, Newcastle Disease, Poultry Diseases, Host-Pathogen Interactions, Transcriptome, Newcastle disease virus, RNA-seq, chicken, collagen, eIF2 signaling, trachea, Vaccine Related, 2.1 Biological and endogenous factors, Infection, Microbiology, Immunology
Abstract

Newcastle disease virus (NDV) has a devastating impact on poultry production in developing countries. This study examined the transcriptome of tracheal epithelial cells from two inbred chicken lines that differ in NDV susceptibility after challenge with a high-titer inoculum of lentogenic NDV. The Fayoumi line had a significantly lower NDV load postchallenge than the Leghorn line, demonstrating the Fayoumi line's classification as a relatively NDV-resistant breed. Examination of the trachea transcriptome showed a large increase in immune cell infiltration in the trachea in both lines at all times postinfection. The pathways conserved across lines and at all three time points postinfection included iCOS-iCOSL signaling in T helper cells, NF-κB signaling, the role of nuclear factor of activated T cells in the regulation of the immune response, calcium-induced T lymphocyte apoptosis, phospholipase C signaling, and CD28 signaling in T helper cells. Although shared pathways were seen in the Fayoumi and Leghorn lines, each line showed unique responses as well. The downregulation of collagen and the activation of eukaryotic translation initiation factor 2 signaling in the Fayoumis relative to the Leghorns at 2 days postinfection may contribute to the resistance phenotype seen in the Fayoumis. This study provides a further understanding of host-pathogen interactions which could improve vaccine efficacy and, in combination with genome-wide association studies, has the potential to advance strategies for breeding chickens with enhanced resistance to NDV.

Published
2017

43. A Coronavirus Associated with Runting Stunting Syndrome in Broiler Chickens.

Author

Hauck, Rüdiger, Gallardo, Rodrigo A, Woolcock, Peter R, and Shivaprasad, HL

Subjects
Intestines, Animals, Chickens, Infectious bronchitis virus, Coronavirus Infections, Poultry Diseases, Growth Disorders, Specific Pathogen-Free Organisms, enteritis, genotype, malabsorption syndrome, pathogenesis, Digestive Diseases, Infectious Diseases, Lung, Infection, Microbiology, Zoology, Veterinary Sciences
Abstract

Runting stunting syndrome (RSS) is a disease condition that affects broilers and causes impaired growth and poor feed conversion because of enteritis characterized by pale and distended small intestines with watery contents. The etiology of the disease is multifactorial, and a large variety of viral agents have been implicated. Here we describe the detection and isolation of an infectious bronchitis virus (IBV) -like coronavirus from the intestines of a flock of 60,000 14-day-old brown/red broiler chicks. The birds showed typical clinical signs of RSS including stunting and uneven growth. At necropsy, the small intestines were pale and distended with watery contents. Histopathology of the intestines revealed increased cellularity of the lamina propria, blunting of villi, and cystic changes in the crypts. Negative stain electron microscopy of the intestinal contents revealed coronavirus particles. Transmission electron microscopy of the intestine confirmed coronavirus in the cytoplasm of enterocytes. Using immunohistochemistry (IHC), IBV antigen was detected in the intestinal epithelial cells as well as in the proventriculus and pancreas. There were no lesions in the respiratory system, and no IBV antigen was detected in trachea, lung, air sac, conjunctiva, and cecal tonsils. A coronavirus was isolated from the intestine of chicken embryos but not from the allantoic sac inoculated with the intestinal contents of the broiler chicks. Sequencing of the S1 gene showed nucleic acid sequence identities of 93.8% to the corresponding region of IBV California 99 and of 85.7% to IBV Arkansas. Nucleic acid sequence identities to other IBV genotypes were lower. The histopathologic lesions in the intestines were reproduced after experimental infection of specific-pathogen-free chickens inoculated in the conjunctiva and nares. Five days after infection, six of nine investigated birds showed enteritis associated with IBV antigen as detected by IHC. In contrast to the field infection, birds in the experimental group showed clear respiratory signs and lesions in the upper respiratory tract. The results suggest a broader tissue tropism of this isolate, which might be related to the mutations in the S1 gene.

Published
2016

45. Identification, Diagnostics, and Characterization Approaches for Avian Hepatitis E virus in US Commercial Egg Layers

Author

Saenz, Evelin Carmela, Gallardo, Rodrigo RG1, Saenz, Evelin Carmela, Saenz, Evelin Carmela, Gallardo, Rodrigo RG1, and Saenz, Evelin Carmela

Abstract

Currently, Avian Hepatitis E virus (aHEV) has emerged as a significant concern within the poultry industry, leading to elevated mortality rates characterized by enlarged livers and spleens in affected flocks. The pathological progression involves hepatic lipidosis, exudate release into the coelomic cavity, and eventual liver fracture accompanied by hemorrhages. Despite its impact, there remains a notable dearth of comprehensive information on the pathobiology and epidemiology of the virus and associated disease. This study focused on aHEV infections in commercial layers, its seroprevalence, virus isolation, designing a new diagnostic tool for detection of viral RNA, and the identification of circulating genotypes. Utilizing a commercial ELISA test, we observed approximately 30% seropositivity among all collected serum samples. In addition, we detected a positive correlation between aHEV titers and the age of the birds. Regarding viral load distribution, gallbladders exhibited the highest loads compared to the livers and spleens. The genotyping strategy was able to detect genotype 2 viruses, and for the first time in the U.S. identified genotype 3, which has significantly altered the previously established epidemiological understanding of this virus in the country. Despite efforts to isolate the virus in SPF eggs, our results were not successful. In conclusion, all these findings highlight the importance of continuing aHEV research to strengthen control strategies in the poultry sector.

Published
2024

49. The cellular modifier MOAG‐4/SERF drives amyloid formation through charge complementation

Author

Pras, Anita, Houben, Bert, Aprile, Francesco A, Seinstra, Renée, Gallardo, Rodrigo, Janssen, Leen, Hogewerf, Wytse, Gallrein, Christian, De Vleeschouwer, Matthias, Mata‐Cabana, Alejandro, Koopman, Mandy, Stroo, Esther, de Vries, Minke, Louise Edwards, Samantha, Kirstein, Janine, Vendruscolo, Michele, Falsone, Salvatore Fabio, Rousseau, Frederic, Schymkowitz, Joost, and Nollen, Ellen A A

Published
2021
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