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Anatomy and Function of the Nucleus Accumbens In the Pigeon (<em>Columba livia</em>)Husband, Scott Alan 06 July 2004 (has links)
Relatively little is known about the existence and traits of a possible nucleus accumbens (Acc) region in non-mammals. The current project investigated a likely candidate for such a structure in pigeons, the medioventral (mvMSt) and mediodorsal (mdMSt) parts of avian medial striatum (MSt). The methods employed were threefold: 1) tract-tracing to determine anatomical connections of the MSt; 2) lesion studies to assess MSt's role in a cognitive task (reversal learning); and 3) measuring an immediate-early gene induced protein, ZENK, in striatal regions during courtship behavior in male pigeons.
The MSt was found to have many forebrain (amygdala, hippocampus, dorsal thalamus) and midbrain (ventral tegmental area, substantia nigra) connections similar to those of Acc. In addition, differences in connection patterns between mvMSt and mdMSt indicated that mvMSt was comparable to the shell of Acc, while the mdMSt showed characteristics of Acc core.
Effects of MSt lesions on pattern discrimination and reversal learning were assessed. Both lesion subjects and controls performed similarly on original discrimination. Furthermore, there were no significant differences in MSt lesioned birds compared to controls. However, there was a tendency for the two groups to make different types of errors. Error patterns indicated that sham-lesioned birds had deficits due to key preference, whereas lesioned birds had fixation on previous reward contingencies (perseverative errors). The performance of the lesioned birds was consistent with Acc lesion effects on reversal learning in mammals.
The expression of ZENK in the mvMSt, mdMSt, lateral MSt, and lateral striatum of male birds exposed to either an empty cage or a live female pigeon was quantified. Higher ZENK expression was found in the live pigeon condition for all the striatal structures. However, the degree of difference between live and empty was much higher in the mvMSt and mdMSt than in the other areas. Therefore, mvMSt and mdMSt appear to play a role in anticipatory sexual behaviors, as has been shown in Acc.
The anatomical and functional data from the current study indicate that avian mMSt has numerous similarities with mammalian Acc. These findings will contribute to understanding the evolution of mammalian Acc and identifying the functional significance of avian MSt.
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Viral determinants of influenza A (H5N1) associated TNF-a hyper-induction in human primary monocyte-derived macrophagesWong, Hing-ki, Charmaine. January 2006 (has links)
Thesis (M. Phil.)--University of Hong Kong, 2006. / Title proper from title frame. Also available in printed format.
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The immunological roles of human macrophages in avian influenza virus infectionZhou, Jianfang. January 2006 (has links)
Thesis (Ph. D.)--University of Hong Kong, 2006. / Title proper from title frame. Also available in printed format.
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Establishment, identification, quantification of methanogenic archaea in chicken ceca and methanogenesis inhibition in in vitro chicken ceca by using nitrocompoundsSaengkerdsub, Suwat 16 August 2006 (has links)
In the first phase of this study, the diversity of methanogenic bacteria in avian ceca was found to be minimal. Based on 16S rDNA clone libraries, a common phylotype, designated CH101, ranged between 92.86 to 100 % of the total clones whereas less than 1% of the other phylotypes were found. On the basis of the sequence identity, all of the sequences, except sequence CH1270, are related from 98.97 to 99.45% to 16S rDNA Methanobrevibacter woesei GS. Sequence CH1270 is 97.62% homologous to the sequence identified to uncultured archaeon clone ConP1-11F. Clearly, the predominant methanogen found to reside in the chicken ceca was M. woesei. By using a MPN enumeration method, methanogen counts were found to be in the range of 6.38 to 8.23 log10 organisms per gram wet weight. The 16S rDNA copy number per gram wet weight in the samples was between log10 5.50 and 7.19. The second phase of the study was conducted to observe the effects of selected nitrocompounds and two different feedstuffs on in vitro methane production in chicken cecal contents and rumen fluid. Initially, one of the three nitrocompounds was added to incubations containing cecal contents from laying hens supplemented with either alfalfa or layer feed. Both feed materials influenced volatile fatty acids (VFA) production and also fostered methane production in the incubations although methane was lower (P < 0.05) in incubations with added nitrocompound, particularly nitroethane. Secondly, nitroethane was examined in incubations of bovine or ovine rumen fluid or cecal contents containing either alfalfa or layer feed. Unlike cecal contents, layer feed significantly (P < 0.05) supported in vitro methane production in incubations of both rumen fluids. The results show that nitroethane impedes methane production, especially in incubations of chicken cecal contents. The final phase of this study was carried out to determine the methanogenic establishment in the chicken ceca by the cultural method with the quantitative PCR. The results suggested that methanogens colonized in chicken ceca at a few days after birth. Litter and house flies could be potential sources for methanogenic colonization in broiler chicks.
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An Integrated Study of Avian Influenza Impacts and Associated Climate Change IssuesMu, Jianhong 2012 May 1900 (has links)
This dissertation examines issues related to avian influenza (AI) disease. This is done via three essays that individually examine: (1) the impacts of climate change on the probability and expected numbers of AI outbreaks and associated economic loss; (2) the effects that media coverage of AI outbreaks has on meat demand in the United States, and (3) the potential effectiveness of AI mitigation strategies on poultry production and welfare under a simulated AI outbreak in United States.
The climate change and spread of AI outbreaks study finds that the probability and expected number of AI outbreaks increases as climate change proceeds. Particularly, past climate change has contributed to the current spread of AI disease by 11% and the future climate change will increase this spread by another 12%. Moreover, the underreporting probability of AI outbreaks is also examined and results show that the underreporting probability is much higher in countries with lower gross domestic production level, larger export of poultry products and more numbers of AI confirmed human deaths. Therefore, disease prevention and control plans should focus on these economically poor and climatically changed regions.
AI outbreak information has significant effects on meat demand in the United States. In particular, impacts of overseas AI human deaths on meat demand equal 0.02% for beef, -0.005% for pork, and -0.01% for chicken for sample when there was no AI occurred in the United States, while it has smaller impacts on meat expenditure when using the whole sample. In addition, human deaths due to AI disease will increase beef demand and decrease that for pork and chicken. However, AI media coverage in short-run has insignificant effect on meat demand, which suggests that consumers are more cautious when cases occur within the United States as opposed to international cases.
In the study on the effects and welfare implications of AI mitigation strategies, results find that vaccination strategy is welfare decreasing under most cases of demand shocks but is desirable in some regions when both domestic and excess demand decrease. Under the assumption of one AI outbreak in the United States, the associated mitigation costs because of past climate change are relatively small.
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Effects of Perfluoroalkyl Compounds (PFCs) on the mRNA Expression Levels of Thyroid Hormone-responsive Genes in Primary Cultures of Avian Neuronal CellsVongphachan, Viengtha 18 February 2011 (has links)
There is a growing interest in assessing the neurotoxic potential and endocrine disrupting properties of perfluoroalkyl compounds (PFCs). Several studies have reported in vitro and in vivo effects related to neuronal development, neural cell differentiation, pre- and post- natal development and behaviour. PFC exposure altered hormone levels (e.g. thyroid hormone, estrogen, and testosterone) and the expression of hormone-responsive genes in mammalian and aquatic species. Hormone-mediated events are critical in central nervous system development and function, especially those controlled by thyroid hormones (THs).
The studies presented in this thesis are the first to assess the effects of PFCs on primary cultures of neuronal cells in two avian species; the domestic chicken (Gallus domesticus) and herring gull (Larus argentatus). The following TH-responsive genes were examined using real-time RT-PCR: type II iodothyronine 5’-deiodinase (D2), D3, transthyretin (TTR), neurogranin (RC3), octamer motif binding factor (Oct-1), and myelin basic protein (MBP). Several PFCs were shown to alter mRNA expression levels of genes associated with the TH pathway in avian neuronal cells. It was determined that short-chained PFCs (<8 carbons) altered the expression of TH-responsive genes to a greater extent than long-chained PFCs (≥8 carbons). Although several significant changes in mRNA expression were observed in TH-responsive genes following PFC exposure in chicken embryonic neuronal (CEN) cells (Chapter 2), there were fewer changes in herring gull embryonic neuronal (HGEN) cells (Chapter 3). The mRNA levels of D2, D3, TTR, and RC3 were altered following treatment with several short-chained PFCs in CEN cells. Oct-1 and RC3 expression were induced following treatment with several short-chained PFCs in HGEN cells. These studies are the first to report that PFC exposure alters mRNA expression in primary cultures of avian neuronal cells and provide insight into the possible mechanisms of action of PFCs in the avian brain.
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Effects of Perfluoroalkyl Acids on In Ovo Toxicity and Gene Expression in the Domestic Chicken (Gallus gallus domesticus)Cassone, Cristina 21 August 2012 (has links)
Perfluoroalkyl acids (PFAAs) are a family of synthetic substances used in a wide variety of consumer and industrial applications, including non-stick and stain-resistant products. PFAAs, specifically perfluorinated sulfonates and carboxylates, are chemically stable and virtually non-biodegradable in the environment. In recent years, PFAAs have been detected in tissues and blood of humans and wildlife. Furthermore, PFAAs have a tendency to bioaccumulate and biomagnify in biota. Perfluorooctane sulfonate and perfluorooctanoate are known to be toxic when animals are exposed to environmentally-relevant levels, but scientists and regulators are challenged with determining and predicting their modes of action. There is some evidence to suggest that PFAAs can impact the thyroid hormone (TH) pathway and neurodevelopment. The studies presented in this thesis investigated the developmental effects and potential modes of action of newer PFAAs that are being introduced into the global market place. Egg injection experiments were performed in domestic chicken (Gallus gallus domesticus) embryos to assess the in ovo toxicity of perfluorohexane sulfonate (PFHxS) and perfluorohexanoate (PFHxA) during development. Real-time RT-PCR was used to measure the transcription of candidate genes in the liver and cerebral hemisphere of day 21-22 embryos. Candidate genes were selected based on their responsiveness to PFAA exposure in an in vitro screening assay conducted previously. In ovo exposure to PFHxS decreased embryo pipping success and overall growth at 38,000 ng/g; several orders of magnitude higher than concentrations reported in wild bird eggs. The expression of TH-responsive genes, including type II and III 5'-deiodinase, neurogranin, and octamer motif binding factor 1, were induced. In addition, PFHxS diminished free thyroxine (T4) levels in plasma. PFHxA had no affect on pipping success, gene expression or T4 levels in chicken embryos at the doses assessed. The transcriptional profiles in the cerebral hemisphere of chicken embryos exposed to 890 and 38,000 ng/g PFHxS were compared to a solvent control using microarray technology. The expression of 78 different genes were significantly altered (fold change > 1.5, p < 0.001) by PFHxS. Functional analysis showed that PFHxS affected genes involved in tissue development and morphology and cellular assembly and organization. Pathway and interactome analysis suggested that gene expression may be affected through integrin receptors and signaling pathways via TH–dependent and –independent modes of action. It is expected that the findings presented in this thesis will be of general relevance and importance to regulatory agencies and of interest to research scientists and risk assessors.
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Investigation of Circadian Clock in Peripheral Tissues and Immune-Circadian Interaction in the Domestic Fowl, Gallus DomesticusKallur, Sailaja 14 March 2013 (has links)
The circadian system provides living organisms a means to adapt their internal physiology to constantly changing environmental conditions that exists on our rotating planet, Earth. Clocks in peripheral tissues are referred to as peripheral which may participate in tissue-specific functions. The first step to investigating the circadian regulation in the peripheral tissues of avians was to examine for the presence of avian orthologs of core components of the molecular clock using Quantitative real time (qRTPCR) assays.
We investigated the avian spleen for daily and circadian control of core clock genes and regulation of the inflammatory response by the spleen clock. The core clock genes, bmal1, bmal2, per2, per3 and clock displayed both daily and circadian rhythms. Proinflammatory cytokines TNFα, IL-1β, IL-6 and IL-18 exhibited daily and circadian rhythmic oscillations. A differential expression of proinflammatory cytokine induction was observed in the spleen undergoing lipopolysaccharide (LPS)-induced acute inflammation. Exogenous melatonin administration during inflammation seems to enhance some and repress a few inflammatory cytokines, implying that melatonin is pleiotropic molecule.
To compare and contrast the role of peripheral clocks in regulating energy balance and reproduction in layer vs. broiler chicken, the visceral adipose tissue (VAT), ovary and hypothalamus were examined for the presence of core clock genes were investigated in these two lines of poultry birds. Quantitative RT-PCR was employed to examine daily control of core clock genes in these three peripheral tissues over a 24hr period. The layer hens exhibit rhythmic oscillations in the mRNA abundance of the core clock genes in the VAT, ovary and the hypothalamus. The hypothalamus and VAT of the broiler hens exhibit rhythmic mRNA abundance of the core clock genes. However, the clock genes in the ovary of the broiler pullets exhibit marked reduction in their amplitude and rhythms over a 24hr period. The broiler hens are prone to poor energy balance, obesity and reproductive capacity. In summary, these data provide evidence for a functional link between the circadian clock and the ovary by determining clock gene regulation under conditions of disrupted or eliminated reproductive function vs. normal reproductive output.
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Evaluation of Sindbis-M2e Virus Vector as a Universal Influenza A VaccineVuong, Christine 2012 August 1900 (has links)
Although avian influenza virus (AIV) infections in domestic poultry are uncommon, transmission of avian influenza from wild waterfowl reservoirs does occur. Depopulation of the infected flock is the typical response to AIV outbreaks in domestic chicken production, causing a loss in profits and accumulation of unexpected expenses. Because it is impossible to know which of many virus subtypes will cause an outbreak, it is not feasible for the U.S. to stockpile vaccines against all possible avian influenza threats. Currently, the U.S. does not routinely vaccinate chickens against influenza due to the inability to differentiate infected from vaccinated animals (DIVA), which would place limitations on its trade markets. A Sindbis virus vector expressing the PR8 influenza strain's M2e peptide was developed as a potential universal DIVA vaccine. M2e is a conserved peptide amongst influenza A viruses; M2e-specific antibodies induce antibody-dependent cytotoxicity or phagocytosis of infected cells, reducing production and shedding of AIV during infection. In this study, chickens were vaccinated at one-month-of-age with parental (E2S1) or recombinant Sindbis viruses expressing the PR8 M2e peptide (E2S1-M2e) by subcutaneous or intranasal routes at high (106 pfu) or low (103 pfu) dosages. Chickens were boosted at 2-weeks post-initial vaccination using the same virus, route, and dosage, then challenged with low pathogenic H5N3 AIV at 0.2 mL of 106/mL EID50 2-weeks post-boost. Serum samples were collected at 1-week and 2-weeks post-vaccination, 2-weeks post-boost, and 2-weeks post-challenge and screened for PR8 M2e-specific IgY antibody production by ELISA. Both high and low dose subcutaneously, as well as high dose intranasally vaccinated E2S1-M2e groups produced significantly higher levels of PR8 M2e-specific IgY antibodies as early as 1-week post-vaccination, while the uninoculated control and E2S1 groups remained negative for all pre-challenge time points. M2e-specific IgY antibodies capable of binding the challenge H5N3 M2e peptide were detected in groups with existing vaccine-induced M2e-specific antibodies pre-challenge, suggesting antibody M2e cross-reactivity. After challenge, all groups developed M2e-specific IgY antibodies and high HI titers, verifying successful AIV infection during challenge and production of hemagglutinin-specific antibodies. Viral shedding titers 4-days post-challenge were used to measure vaccine efficacy and were similar amongst all groups. Microneutralization assay results confirmed that post-boost serum samples, containing only M2e-specific antibodies, were unable to neutralize AIV in vitro. Although the E2S1-M2e vaccine was capable of producing high levels of M2e-specific IgY antibodies when inoculated subcutaneously, these antibodies were not able to reduce viral shedding and therefore did not protect chickens from AIV.
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Effects of Perfluoroalkyl Compounds (PFCs) on the mRNA Expression Levels of Thyroid Hormone-responsive Genes in Primary Cultures of Avian Neuronal CellsVongphachan, Viengtha 18 February 2011 (has links)
There is a growing interest in assessing the neurotoxic potential and endocrine disrupting properties of perfluoroalkyl compounds (PFCs). Several studies have reported in vitro and in vivo effects related to neuronal development, neural cell differentiation, pre- and post- natal development and behaviour. PFC exposure altered hormone levels (e.g. thyroid hormone, estrogen, and testosterone) and the expression of hormone-responsive genes in mammalian and aquatic species. Hormone-mediated events are critical in central nervous system development and function, especially those controlled by thyroid hormones (THs).
The studies presented in this thesis are the first to assess the effects of PFCs on primary cultures of neuronal cells in two avian species; the domestic chicken (Gallus domesticus) and herring gull (Larus argentatus). The following TH-responsive genes were examined using real-time RT-PCR: type II iodothyronine 5’-deiodinase (D2), D3, transthyretin (TTR), neurogranin (RC3), octamer motif binding factor (Oct-1), and myelin basic protein (MBP). Several PFCs were shown to alter mRNA expression levels of genes associated with the TH pathway in avian neuronal cells. It was determined that short-chained PFCs (<8 carbons) altered the expression of TH-responsive genes to a greater extent than long-chained PFCs (≥8 carbons). Although several significant changes in mRNA expression were observed in TH-responsive genes following PFC exposure in chicken embryonic neuronal (CEN) cells (Chapter 2), there were fewer changes in herring gull embryonic neuronal (HGEN) cells (Chapter 3). The mRNA levels of D2, D3, TTR, and RC3 were altered following treatment with several short-chained PFCs in CEN cells. Oct-1 and RC3 expression were induced following treatment with several short-chained PFCs in HGEN cells. These studies are the first to report that PFC exposure alters mRNA expression in primary cultures of avian neuronal cells and provide insight into the possible mechanisms of action of PFCs in the avian brain.
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