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11	PHYSIOLOGICAL ADAPTATION ASSOCIATED WITH TRANSFER OF MICROBIOTA FROM EXERCISE-TRAINED MICE INTO GERM-FREE MICE Saddler, Nelson 11 1900 (has links) Exercise is known to induce changes in the gut, typically referred to as the ‘forgotten organ’, and changes in gut microbiota can also occur with exercise possibly imparting systemic benefits. The question remains whether or not microbiota from an exercised animal can independently affect skeletal muscle morphology. Our first objective was to examine whether an endurance exercise program could modify the microbiota in donor mice. Second, we aimed to elucidate if such an endurance-trained microbiota could be transferred to germ-free mice via fecal inoculation. Finally, we sought to determine how the morphology and functional characteristics of skeletal muscle were influenced as a result of fecal inoculation. We hypothesized that germ-free mice recipients inoculated with the microbiota from endurance trained donors would undergo morphological changes in muscle fibre type composition and physiological changes in skeletal muscle function associated with a more oxidative phenotype. Eight-week-old male C57BL/6NCrl donor mice (n = 20) were randomized into two groups: one group completed an endurance exercise training protocol on a treadmill machine 3x/week for 11 weeks (n = 10) while one group remained cage-bound (n = 10). Ten-week-old male (n = 7) and female (n = 9) germ-free mice were colonized with the cecal microbiota of the donor mice in that, equal numbers of germ-free mice were inoculated with exercised-microbiota as sedentary-microbiota. Glucose metabolism and performance measures were evaluated in the donors as well as the recipients post-inoculation. Muscle tissue was extracted for immunohistochemistry and mitochondrial assays. During the intra-peritoneal glucose tolerance test (IPGTT), significant differences in blood glucose were found at 30min between exercise-inoculated and sedentary-inoculated (23.4 ± 2.2; 29.0 ± 1.9 mmol/L, p<0.05).and change in blood glucose relative to baseline (12.04 ± 2.4; 18.3 ± 1.9 mmol/L, p<0.01). There were significant sex-based differences in the blood glucose response in inoculated animals such that there were significant differences in blood glucose between the exercise-inoculated females and sedentary-inoculated females at 15mins (28.4 ± 2.4; 30.6 ± 1.1 mmol/L, p<0.05) and 30mins (24.7 ± 3.6; 29.9 ± 2.4 mmol/L, p<0.01), however no differences between exercise-inoculated males and sedentary-inoculated males. In addition, there were significant differences in the change in blood glucose relative to baseline between the exercise-inoculated females and sedentary-inoculated females at 15mins (12.3 ± 1.9; 20.6 ± 0.8 mmol/L, p<0.01) and 30mins (10.2 ± 2.6; 19.9 ± 2.1 mmol/L, p<0.001). This novel characterization of a link between gut microbiota and skeletal muscle suggests a transmissible capacity of microbiota to impart properties of ‘healthy’ muscle into compromised populations. / Thesis / Master of Science (MSc) / The gut microbiome or microbiota describes the composition of the human gut – remarkably, over 100 trillion bacterial cells live in symbiosis with the cells of the human body. Research from the past decade has elucidated the salient nature of the human gut microbiome on immunity, metabolic homeostasis, and overall health and disease. Transformative research in the field has demonstrated the ability to transfer these bacterial colonies from one individual to another and elicit change, such as altering body mass and adiposity, respective to their donor. The interaction between gut microbiota and other organ systems i.e. brain, liver, adipose tissue has been the focus of several recent investigations, suggesting that lifestyle changes such as diet and exercise can influence communication between the gut and various other organs and contribute to changes in function. Skeletal muscle is the largest muscle in the human body accounting for 40% of total mass and although the main role of skeletal muscle is locomotion and postural stabilization, it is integral for the regulation of blood glucose as well as a reservoir for other macronutrients. Acute and chronic physical exercise cause a myriad of adaptive responses throughout the human body including in skeletal muscle and the gut. Therefore, the existence and influence of a gut-muscle link or ‘axis’ on human health cannot be ignored. What is unclear exactly, is if exercise-induced adaptations in the gut of an individual can be transferred to elicit change in the gut of a recipient and further induce adaptations at the level of the skeletal muscle. gut bacteria germ-free microbiota endurance exercise gnotobiotic inoculation
12	Mechanisms of Immunomodulation By Probiotics: Influence of Lactobacilli On Innate and T Cell Immune Responses Induced By Rotavirus Infection and Vaccines Wen, Ke 23 November 2011 (has links) My dissertation research focused on studying mechanisms of immunomodulation by probiotic lactobacilli on innate and T cell immune responses induced by rotavirus infection and vaccines in a gnotobiotic pig model of human rotavirus (HRV) infection and vaccination. We first studied the effects of probiotics on antigen-presenting cells (APCs) through TLR activation. We found that a mixture of Lactobacilli acidophilus strain NCFM (LA) and L. reuteri (ATCC# 23272) induced strong TLR2-expressing APC responses and virulent HRV induced a TLR3 response. Probiotics and HRV had an additive effect on TLR2- and TLR9-expressing APC responses, consistent with the adjuvant effect of lactobacilli. Dose effects of LA on T cell immune responses were investigated. We found that low dose LA significantly enhanced frequencies of HRV-specific IFN-γ producing CD4⁺ and CD8+ T cells whereas high dose LA reduced frequencies of HRV-specific IFN-γ producing CD4+ T cells. Low dose LA reduced frequencies of induced regulatory (iTreg) cells and TGF-β expression in the iTreg cells whereas high dose LA increased frequencies of iTreg cells and IL-10 expression in the iTreg cells. The dose effects of LA were independent of HRV infection/vaccination. In addition, we demonstrated that TCR-γδ T cells play an important role in modulating immune responses to rotavirus infections. All three γδ T cell subsets showed evidence of activation after HRV infection by increasing TLR2, TLR3, TLR9 expression and IFN-γ production during the acute phase of infection. There was an additive effect between lactobacilli and HRV in inducing total γδ T cell expansion in ileum and in recruiting the cells from blood. HRV infection induced a significant expansion of the CD2+CD8+ γδ T cell subset in the ileum. This subset mainly exerts regulatory functions as evident by expressing FoxP3, secreting TGF-β and IL-10 or increasing production of the anti-inflammatory cytokines by CD4+ and/or CD8+ αβ T cells in the co-cultures. CD2+CD8- and CD2-CD8- γδ T cell subsets have mainly pro-inflammatory and anti-viral functions as evident by secreting IFN-γ or promoting CD4+ αβ T cell proliferation and IFN-γ production. This knowledge will facilitate the development of more effective vaccination and therapeutic strategies to protect children and young animals against rotavirus gastroenteritis. / Ph. D. rotaviruses gd T cells lactobacilli innate and adaptive immunity gnotobiotic pigs
13	Evaluation of the novel P particle vaccine candidate against human norovirus using the gnotobiotic pig challenge model Kocher, Jacob 10 December 2014 (has links) Noroviruses (NoVs) are a cause of nonbacterial acute gastroenteritis affecting all ages. NoV infections result in over 200,000 pediatric deaths in developing countries annually. Vaccine development has been hindered by the lack of cell culture systems and small animal models; thus, vaccine development has relied upon recombinant VP1 capsid proteins, such as virus-like particles (VLPs) and P particles. P particles are a novel vaccine candidate derived from expression of the VP1 protruding (P) domain, while VLPs require expression of the full-length VP1. My studies utilize a gnotobiotic (Gn) pig model of human NoV infection and diarrhea to evaluate the protective efficacy and T cell responses induced by P particles and to compare them with prior NoV infection (NoVPO) and VLPs. Gn pigs received 100 µg of P particles (LoPP) or VLPs, 250 µg P particles (HiPP), or adjuvants only intranasally at post-inoculation day (PID) 0, 10, and 21. Monophosphoryl lipid A and chitosan were used as mucosal adjuvants. At PID 28, a subset of pigs were orally challenged with 10 median infectious doses (ID50) NoV. NoVPO, LoPP, HiPP, and VLPs provided partial protection from diarrhea (83%, 47%, 60%, and 60% protection rates, respectively). Only NoVPO and HiPP provided protection from shedding (49% and 60% protection rates, respectively) and also reduced the number of CD25- regulatory T cells (Tregs) in duodenum following challenge. NoV primary infection induced an overall pro-Treg and low, transient Th1 response. LoPP induced stronger overall T cell responses compared to VLPs, including activated CD4+ T cells and duodenal CD8+IFN-γ+ T cells, suggesting that P particles are more immunogenic than VLPs. I also evaluated the effects of simvastatin, a cholesterol-reducing drug that increases NoV infectivity, on P particle vaccine efficacy. Simvastatin abolished P particle-induced protection and significantly increased diarrhea severity. Simvastatin reduced total numbers of duodenal mononuclear cells, IFN-γ+ T cells pre-challenge, and Tregs post-challenge, indicating that simvastatin impairs development of immune system and immune responses. Findings from these studies elucidate potential mechanisms behind P particle-induced immunity and reveal the negative effects of simvastatin on NoV-induced protective immunity. The knowledge will facilitate the development of effective NoV vaccines. / Ph. D. norovirus P particle gnotobiotic pigs t cells simvastatin
14	Investigation of genes and organisms associated with reductive acetogenesis in the rumen and forestomach of a native Australian marsupial Emma Gagen Unknown Date (has links) Reductive acetogenesis via the acetyl-CoA pathway is a hydrogenotrophic pathway that has the potential to reduce methanogenesis from ruminant livestock. However our understanding of the organisms capable of this transformation (acetogens) is hindered by a lack of specific molecular tools for this group. In the present thesis, a PCR primer set specific for a wide range of acetogens was developed, targeting the acetyl-CoA synthase (ACS) gene which is unique to the acetyl-CoA pathway. ACS was found to be useful marker for potential acetogens and ACS sequences could be used to infer family-level phylogeny for many acetogens. ACS gene specific primers were used in combination with existing molecular tools targeting the gene encoding formyltetrahydrofolate synthetase (FTHFS, present in the acetyl-CoA pathway but not unique to it) and 16S rRNA genes, as well as cultivation techniques, to investigate acetogen diversity in the rumen and two analogous gut systems where microbial hydrogenotrophy differs: the forestomach of a native Australian marsupial, the tammar wallaby Macropus eugenii; and the developing rumen of young lambs. Novel potential acetogens present naturally in the rumen of pasture fed and grain fed cattle affiliated with the Ruminococcaceae/Blautia group and distantly with the Lachnospiraceae. A large diversity of potential acetogens with functional genes affiliating broadly between the Lachnospiraceae and Clostridiaceae though without a close sequence from a cultured relative were also detected. Rumen acetogen enrichment cultures revealed the presence of a known acetogen, Eubacterium limosum, in grain fed cattle, as well as novel acetogens affiliating with the Lachnospiraceae and Ruminococcaceae/Blautia group. The novel potential acetogen population detected in this study may represent an important hydrogenotrophic group in the rumen that we understand very little about and that requires further investigation. The tammar wallaby, which exhibits foregut fermentation analogous to that of the rumen but resulting in lower methane emissions, housed a different acetogen population to that of the bovine rumen (LIBSHUFF, p <0.0001) though novel potential acetogens in the tammar wallaby forestomach affiliated broadly in the same family groups (Blautia group, Lachnospiraceae and between Lachnospiraceae and Clostridiaceae without a close cultured isolate). Acetogen enrichment cultures from the tammar wallaby forestomach facilitated isolation of a novel acetogen, which was closely related to potent reductive acetogens from kangaroos. The differences between the acetogen population of the tammar wallaby forestomach and the bovine rumen may be a factor in explaining lower methane emissions and methanogen numbers in tammar wallabies relative to ruminants. Using a gnotobiotically reared lamb model, the unique acetogen population present in the developing rumen was identified and it’s response to methanogen colonisation examined. The acetogen E. limosum and potential acetogen Ruminococcus obeum were identified as well as a small diversity of novel potential acetogens affiliating with the Blautia group and the Lachnospiraceae. A small but diverse population of naturally resident methanogens were also identified in gnotobiotically reared lambs that had been isolated at 17 hours of age. After inoculation with Methanobrevibacter sp. 87.7, methanogen numbers in gnotobiotically reared lambs significantly increased but acetogen diversity was not altered, indicating that this population is resilient to methanogen colonisation to some degree. The potential acetogen population in gnotobiotically reared lambs was significantly different (LIBSHUFF, p < 0.0001) to that in conventionally reared sheep, which indicates that factors other than methanogen establishment alone, probably relating to other microbes and associated hydrogen concentrations in the rumen, affect acetogens during rumen development. acetogen acetogenesis acetyl-coA pathway acetyl-CoA synthase formyltetrahydrofolate synthetase gnotobiotic methanogenesis rumen tammar wallaby
15	Vers une évaluation des potentialités probiotique et nutritionnelle des bactéries lactiques constitutives du microbiote d’un aliment fermenté traditionnel à base de mil par une approche moléculaire / Towards an estimation of the probiotic and nutritional potential of lactic acid bacteria present in the microbiota of a fermented cereal based food using a molecular approach Turpin, Williams 06 December 2011 (has links) La relation de la microflore lactique avec l'homme n'a été que très peu étudiée dans le contexte des aliments amylacés fermentés tropicaux. La plupart des recherches dans ce domaine sont réalisées par des combinaisons de tests phénotypiques (modèles cellulaires et animaux) et des essais cliniques. Cependant, la disponibilité des données génomiques permettent d'envisager de nouvelles stratégies. L'objectif de ce travail est de rechercher la présence d'une cinquantaine de gènes impliqués dans des fonctions probiotiques dans une collection de 152 bactéries lactiques isolées d'un aliment fermenté africain à base de mil, le ben-saalga, ainsi que dans le métagénome de différents aliments amylacés fermentés. Plusieurs couples d'amorces ont été dessinés par nos soins et ont permis de détecter par PCR la présence de ces gènes. Le criblage génétique est efficace pour déterminer le potentiel lié à certaines fonctions « simples » (synthèse de vitamines B et caroténoïdes, métabolisme de l'amidon, etc.), puisqu'il permet le plus souvent de réduire le nombre de tests phénotypiques à réaliser aux souches porteuses des gènes d'intérêt. Au contraire, des tests in vitro complémentaires (résistance au pH acide et aux sels biliaires, adhésion sur des modèles cellulaires, imagerie à résonnance plasmonique de surface) montrent les limites de l'approche moléculaire appliquée à la détection de fonctions plus complexes que sont l'adhésion et la survie des bactéries. Par ailleurs, les profils d'expression des gènes impliqués dans la fonction d'adhésion par PCR en temps réel sont fonction du modèle utilisé (cellules ou rats). Nous avons montré qu'un mélange des trois souches les plus prometteuses modifie le profil de protéines impliquées dans la maturation de l'épithélium intestinal de rats initialement axéniques. Nous pouvons conclure que le criblage génétique des métagénomes d'aliments amylacés fermentés tropicaux permet de mettre en évidence un potentiel probiotique et nutritionnel prometteur. / The relationship between the lactic acid bacteria composing the microbiota of tropical starchy fermented foods and humans has been poorly investigated. Most of the studies focus on a combination of phenotypical (cells models, animals) and clinical trials. However the increasing numbers of genomic data allow new strategies. The objective of this work was to screen the presence of around 50 genes involved in probiotic functions in a collection of 152 lactic acid bacteria isolated from an African fermented cereal based food called ben-saalga, and in the metagenome of various starchy fermented foods. In this study, several primers have been designed allowing the detection of genes of interest by PCR. The genetic screening is efficient for determining the potential linked to simple functions (B vitamins and carotenoids synthesis, starch metabolism, tannin degradation) as in most cases it allows to limit the number of phenotypical tests to the strain harbouring the genes of interest. On the opposite, more complex functions such as cell binding or bacterial survival, estimated in vitro (low pH, bile salts, cell models, surface plasmonic resonance imagery) revealed the limit of the approach. The expression of genes involved in cell adhesion measured by real time PCR vary depending on the model used (cells or animal).We showed that a cocktail of three potentially probiotic strains modifies the profile of proteins involved in the maturation of the intestinal epithelium of initially germ free rats. The genetic screening of the metagenomes shows that the traditional starchy fermented foods harbour a promising probiotic and nutritional potential. Cycle cellulaire Gnotobiotique Ht29 Lactobacillus Muc2 SPRi Cell cycle Gnotobiotic Ht29 Lactobacillus Muc2 SPRi
16	Beta-Glucan's Varying Structure Characteristics Modulate Survival and Immune-Related Genes Expression From Vibrio Harveyi-Infected Artemia Franciscana in Gnotobiotic Conditions Han, Biao, Baruah, Kartik, Nguyen, Dung Viet, Williams, David L., Devriendt, Bert, Cox, Eric, Bossier, Peter 01 July 2020 (has links) β-Glucans have long been used as an immunostimulant in aquaculture. However, the relationship of its structure to its immunomodulatory properties are poorly understood. In this study, the particle size and chemical structure of β-glucans extracted from wild-type strain of baker's yeast (Saccharomyces cerevisiae) and its null-mutant yeasts Gas1 were characterised. Using Sigma β-glucan as a reference, the immunomodulatory properties of these polysaccharides in the germ-free Artemia franciscana model system in the presence of Vibrio harveyi bacterial challenge were investigated. The survival of the A. franciscana nauplii, upon challenge with V. harveyi, was significantly higher in all three glucan-treated groups compared to the control. The glucan Gas1 with a lower degree of branching and shorter side chain length had the most prominent V. harveyi-protective effects. The particle size did not affect the nauplii survival when challenged with V. harveyi. Results also showed that the salutary effect of the tested glucans was associated with the upregulation of innate immune genes such as lipopolysaccharide and β-1,3-glucan-binding protein (lgbp), high mobility group box protein (hmgb), and prophenoloxidase (proPO). Interestingly, the up-regulation of superoxidase dismutase (sod) and glutathione-s-transferase (gst) was only observed in Gas1 treated group, indicating that Gas1 could function to induce higher reactive oxygen species and stronger immunomodulatory function in A. franciscana, and therefore higher survival rate. The expression of heat shock protein 70 (hsp70), peroxinectin (pxn), and down syndrome cell adhesion molecule (dscam) remain unaltered in response to glucan treatment. Taken together, this study provides insights into the structure-function relationship of β-glucan and the results confirmed that β-glucan can be an effective immunostimulant in aquaculture, especially the Gas1 glucan. artemia franciscana gnotobiotic immune-related genes structure-function relationship vibrio harveyi β-glucan Surgery
17	Vesicular Stomatitis Virus as a Vector to Deliver Virus-Like Particles of Human Norovirus: A New Live Vectored Vaccine for Human Norovirus Ma, Yuanmei 22 May 2013 (has links) No description available. Food Science Virology Vesicular Stomatitis Virus Human Norovirus Heat Shock Protein 70 Gnotobiotic pig vaccine
18	A Novel Lactic Acid Bacteria (LAB)-based Vaccine Candidate for Human Norovirus Craig, Kelsey L., Craig 27 August 2018 (has links) No description available. Virology Microbiology vectored vaccine gnotobiotic pig model lactococcus lactis lactic acid bacteria human norovirus
19	Efficacy of rotavirus-like particle vaccines and pathogenesis of human rotavirus evaluated in a gnotobiotic pig model Azevedo, Marli S. P. 09 March 2005 (has links) No description available. Human rotavirus rotavirus-like particle vaccines rotavirus pathogenesis cytokines gnotobiotic pig model
20	Rotavirus vaccines and impact of maternal antibodies and cytokines on neonatal immune responses in swine Nguyen, Trang Van 24 August 2005 (has links) No description available. Health Sciences, Immunology rotavirus rotavirus vaccine maternal antibodies maternal cytokines interference immune responses pigs gnotobiotic pigs

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