Global ETD Search

341	MRI-TRACKABLE MURINE MODEL OF CEREBRAL RADIATION NECROSIS Andrew J. Boria (8703303) 17 April 2020 (has links) <p>Cerebral radiation necrosis as a consequence of radiation therapy is often observed in patients several months to years after treatment. Complications include painful headaches, seizures, and in the worst-case death. Radiation necrosis is an irreversible condition with the options available to manage it all having noticeable downsides. As such, there is a critical need for better ways of either preventing the onset of necrosis and/or managing its symptoms. As radiation necrosis cannot be induced in humans for ethical reasons, a mouse model that mirrors the features of radiation necrosis observed in patients would allow for new techniques to be tested before being used in human clinical trials. This thesis will explain how our lab designed a murine model of cerebral radiation necrosis that uses a 320 keV cabinet irradiator to produce radiation necrosis and MRI and histology to evaluate the development of radiation necrosis at multiple time points.</p><p><br></p> <p> </p> <p>Our model required the development of a mouse positioning apparatus that could be used in the cabinet irradiator used as well as the machining of lead shields so that focal semi-hemispheric irradiations could be conducted with other critical structures spared. The MRI scans used as well as the algorithm used to draw radiation necrosis lesions were based off what has been used in previous Gamma Knife models of radiation necrosis. Our initial work showed that since the cabinet irradiator has a relatively flat dose distribution unlike the Gamma Knife, the radiation lesion volumes produced in the former either plateaued or decreased, unlike in the case of the latter where lesion volumes tended to decrease over time. Further work analyzed the effects of fractionation and found minimal sparing using four different fractionation schemes. The effects of strain and sex on the development of radiation necrosis were also analyzed, with strain being found to be a statistically significant parameter while sex was not. Future research should focus on testing the effects of new drugs and techniques for better dealing with radiation necrosis.<b></b></p> Radiation Therapy Animal Cell and Molecular Biology Animal Neurobiology Medical Physics Mouse model radiation necrosis radiation dose uniformity MRI radiation biology fractionation fractionation experiments sex as a biological variable Mouse Strain animal models
342	Investigation of the effect of lymphocytic microparticles on the activity of Müller cells in the oxygen-induced retinopathy mouse model Cai, ChenRongRong 04 1900 (has links) La rétinopathie de la prématurité (ROP) est un trouble oculaire potentiellement aveuglant chez les nourrissons prématurés, qui est causé par la formation d'une néovascularisation rétinienne aberrante (NV). Des études récentes ont démontré que les cellules de Müller sont les principaux producteurs de cytokines inductrices d'inflammation et de facteurs de croissance dans des conditions pathologiques. Par ailleurs, le recrutement des macrophages est significativement augmenté au cours de la NV rétinienne, ce qui a un rôle proangiogénique dans la ROP. Par conséquent, nous avons émis l'hypothèse que les LMP inhibent la NV pathologique de la rétine en ciblant les cellules de Müller dans le modèle murin de rétinopathie induite par l'ischémie (OIR). Nous avons démontré que les microparticules lymphocytaires (LMP) dérivées de lymphocytes T CEM humains pendant l'apoptose possèdent une grande capacité angiostatique. Dans notre étude actuelle, nous avons étudié l'effet des LMP in vitro et in vivo. In vitro, l'influence des LMP sur les propriétés des cellules de Müller a été déterminée en utilisant des cellules de Müller de rat rMC-1 et des macrophages murins RAW 264.7. Les résultats ont révélé que les LMP étaient internalisées par rMC-1 et réduisaient la prolifération cellulaire de rMC-1 en fonction de la dose, sans induire l'apoptose cellulaire. Les LMP ont inhibé la capacité chimiotactique de rMC-1 sur RAW 264.7, ainsi que l'expression des chimiokines (VEGF et SDF-1) dans rMC-1. In vivo, l'injection intra-vitréenne de LMP a été internalisée par les cellules de Müller. Les LMP ont atténué la NV aberrante de la rétine et l'infiltration des macrophages en partie par l'expression réduite des chimiokines (VEGF et SDF-1). De plus, les LMP régulent la baisse d'expression de ERK1 / 2 et HIF-1α dans les cellules Müller. Nos résultats actuels élargissent notre compréhension des effets des LMP, fournissant des évidences que les LMPs sont un traitement potentiel pour les maladies rétiniennes en lien avec la NV. / Retinopathy of prematurity (ROP) is a potentially blinding ocular disorder in premature infants. It is caused by the formation of aberrant retinal neovascularization (NV). Recent studies have demonstrated that Müller cells are the primary producers of inflammation-inducing cytokines and growth factors in pathological conditions. Additionally, the recruitment of macrophages is significantly increased during retinal NV, which exerts a proangiogenic role in ROP. Lymphocytic microparticles (LMPs) are small membrane-wrapped vesicles released from human CEM T lymphocytes, which is a cell line of acute lymphoblastic leukemia. In our previous studies, we demonstrated that LMPs derived from apoptosis-induced human CEM T lymphocytes possess potent angiostatic capacities. Therefore, we hypothesized that LMPs inhibit pathological retinal NV via targeting Müller cells in an ischemia-induced retinopathy mouse model. In this study, we investigated the effect of LMPs both in vitro and in vivo. In vitro, we determined the influence of LMPs on Müller cell properties using rat Müller cells rMC-1 and murine macrophages RAW 264.7. The results revealed that LMPs were internalized and reduced cell proliferation of rMC-1 dose-dependently without inducing cell apoptosis. LMPs also inhibited the chemotactic capacity of rMC-1 on RAW 264.7, as well as the expression of the chemokines (VEGF and SDF-1) in rMC-1. In vivo, we intravitreally injected LMPs and found that LMPs was internalized by Müller cells. LMPs attenuated aberrant retinal NV and the infiltration of macrophages. LMPs also downregulated the expression of angiogenic factors/chemokines (VEGF and SDF-1) in Müller cells. Furthermore, LMPs downregulated the expression of ERK1/2 and HIF-1α in Müller cells. These findings expand our understanding of the effects of LMPs, providing evidence that LMPs are a potential treatment for retinal NV diseases. LMPs cellules de Müller effets anti-angiogéniques macrophages le modèle de souris OIR rétinienne NV OIR mouse model VEGF SDF-1 anti-angiogenic effects retinal NV Müller cells
343	Effects of N-acetyl Cysteine on Gene Expression in OCD-Induced Mice Bell, Alexa 22 June 2022 (has links) No description available. Biology Mental Health Behavioral Sciences Behaviorial Sciences Neurobiology Neurosciences Obsessive-compulsive disorder OCD N-acetyl cysteine N-acetylcysteine NAC Gene expression Mice Mouse model Glial fibrillary acidic protein Neurexin1 Receptor expression-enhancing protein 3
344	CONTEXTUAL MODULATION OF NEURAL RESPONSES IN THE MOUSE VISUAL SYSTEM Alexandr Pak (10531388) 07 May 2021 (has links) <div>The visual system is responsible for processing visual input, inferring its environmental causes, and assessing its behavioral significance that eventually relates to visual perception and guides animal behavior. There is emerging evidence that visual perception does not simply mirror the outside world but is heavily influenced by contextual information. Specifically, context might refer to the sensory, cognitive, and/or behavioral cues that help to assess the behavioral relevance of image features. One of the most famous examples of such behavior is visual or optical illusions. These illusions contain sensory cues that induce a subjective percept that is not aligned with the physical nature of the stimulation, which, in turn, suggests that a visual system is not a passive filter of the outside world but rather an active inference machine.</div><div>Such robust behavior of the visual system is achieved through intricate neural computations spanning several brain regions that allow dynamic visual processing. Despite the numerous attempts to gain insight into those computations, it has been challenging to decipher the circuit-level implementation of contextual processing due to technological limitations. These questions are of great importance not only for basic research purposes but also for gaining deeper insight into neurodevelopmental disorders that are characterized by altered sensory experiences. Recent advances in genetic engineering and neurotechnology made the mouse an attractive model to study the visual system and enabled other researchers and us to gain unprecedented cellular and circuit-level insights into neural mechanisms underlying contextual processing.</div><div>We first investigated how familiarity modifies the neural representation of stimuli in the mouse primary visual cortex (V1). Using silicon probe recordings and pupillometry, we probed neural activity in naive mice and after animals were exposed to the same stimulus over the course of several days. We have discovered that familiar stimuli evoke low-frequency oscillations in V1. Importantly, those oscillations were specific to the spatial frequency content of the familiar stimulus. To further validate our findings, we investigated how this novel form of visual learning is represented in serotonin-transporter (SERT) deficient mice. These transgenic animals have been previously found to have various neurophysiological alterations. We found that SERT-deficient animals showed longer oscillatory spiking activity and impaired cortical tuning after visual learning. Taken together, we discovered a novel phenomenon of familiarity-evoked oscillations in V1 and utilized it to reveal altered perceptual learning in SERT-deficient mice.</div><div>16</div><div>Next, we investigated how spatial context influences sensory processing. Visual illusions provide a great opportunity to investigate spatial contextual modulation in early visual areas. Leveraging behavioral training, high-density silicon probe recordings, and optogenetics, we provided evidence for an interplay of feedforward and feedback pathways during illusory processing in V1. We first designed an operant behavioral task to investigate illusory perception in mice. Kanizsa illusory contours paradigm was then adapted from primate studies to mouse V1 to elucidate neural correlates of illusory responses in V1. These experiments provided behavioral and neurophysiological evidence for illusory perception in mice. Using optogenetics, we then showed that suppression of the lateromedial area inhibits illusory responses in mouse V1. Taken together, we demonstrated illusory responses in mice and their dependence on the top-down feedback from higher-order visual areas.</div><div>Finally, we investigated how temporal context modulates neural responses by combining silicon probe recordings and a novel visual oddball paradigm that utilizes spatial frequency filtered stimuli. Our work extended prior oddball studies by investigating how adaptation and novelty processing depends on the tuning properties of neurons and their laminar position. Furthermore, given that reduced adaptation and sensory hypersensitivity are one of the hallmarks of altered sensory experiences in autism, we investigated the effects of temporal context on visual processing in V1 of a mouse model of fragile X syndrome (FX), a leading monogenetic cause of autism. We first showed that adaptation was modulated by tuning properties of neurons in both genotypes, however, it was more confined to neurons preferring the adapted feature in FX mice. Oddball responses, on the other hand, were modulated by the laminar position of the neurons in WT with the strongest novelty responses in superficial layers, however, they were uniformly distributed across the cortical column in FX animals. Lastly, we observed differential processing of omission responses in FX vs. WT mice. Overall, our findings suggest that reduced adaptation and increased oddball processing might contribute to altered perceptual experiences in FX and autism.</div> Neuroscience Visual perception mouse visual system primary visual area (V1) Electrophysiology Silicon probes cortical oscillations illusory contours optogenetics top-down feedback oddball paradigm autism mouse model Fragile X syndrome (FXS)
345	Investigating Age-Dependent Arthropathy in a Circadian Mutant Mouse Model: A Dissertation Yu, Elizabeth A. 09 June 2011 (has links) Ectopic calcification can cause pain and limit mobility. Studies suggest that circadian genes may play a role in the calcification process. Core circadian genes Clock, Npas2, and Bmal1 are transcription factors that form CLOCK:BMAL1 or NPAS2:BMAL1 transactivator complexes that drive the rhythmic expression of circadian oscillator genes and output genes. Circadian oscillator genes Period1-3 and Cryptochrome1-2 encode proteins that form transcription repressor complexes that feedback to inhibit CLOCK/NPAS2:BMAL1 activity, thus completing the feedback loop that is the basis of the molecular circadian clockwork. Arrhythmic Bmal1-/- mice exhibit site-specific, age-dependent arthropathy. While studying the circadian phenotype of Clock-/-;Npas2m/m double mutant mice, we discovered that these double mutant mice develop site-specific arthropathy similar to the arthropathy described in Bmal1-/- mice. Based on the circadian clockwork mechanism, we hypothesized that CLOCK/NPAS2:BMAL1 transactivator complexes drive the expression of a gene (or genes) that prevents age-dependent arthropathy. To investigate Clock-/-;Npas2m/m double mutant mouse arthropathy, we evaluated mutant mice using X-ray, micro-computed tomography, and histology, and found that Clock-/-;Npas2m/m double mutant mice exhibit age-dependent, site-specific arthropathy that phenocopies that of Bmal1-/- mice. The costosternal junction and calcaneal tendon are most prominently affected, in that calcification of those tissues is detectable as early as 4-5 weeks and 11-12 weeks, respectively. The arthropathic lesions in these tissues consist of calcium phosphate vii deposits, and in Bmal1-/- costosternal junction calcifications, the deposits contain calcium pyrophosphate dihydrate crystals. Mechanical stress, disregulation of centrally-regulated circadian rhythms, and systemic serum mineral imbalances likely do not contribute to this pathology. In vitro micromass cultures generated from Clock-/-;Npas2m/m double mutant mouse embryonic fibroblasts do not exhibit irregular chondrocyte differentiation compared to wild-type cultures, suggesting that chondrocyte cell-autonomous mechanisms are insufficient to induce this arthropathy. Analysis of Clock-/-;Npas2m/m double mutant intersternebral tissue RNA did not reveal significant changes in chondrocyte or calcification-related gene expression. Histological stains showed an absence of osteoblasts and osteoclasts around costosternal junction calcifications, suggesting that these cell types are not contributing to this pathology. Instead, chondrocytes are localized to the costosternal junction but there were no significant changes in the distribution of chondrocyte markers in this tissue, as evaluated by immunohistochemistry. These findings suggest that Clock or Npas2, and Bmal1, regulate ectopic calcification through a combination of systemic and local factors, and that the cells affected by Clock and Npas2, or Bmal1, disruption are a subset of the cells distributed in specific tissues that develop age-dependent arthropathy. The significance of these findings is that “circadian genes” play a role in the regulation of ectopic calcification in a non-oscillator capacity. Understanding this new mechanism by which ectopic calcification is controlled could lead to novel approaches for the treatment of some human calcification diseases. calcification circadian rhythms mouse model Physiologic Arthropathy Neurogenic Circadian Clocks CLOCK Proteins Cryptochromes ARNTL Transcription Factors Amino Acids, Peptides, and Proteins Biological Factors Genetic Phenomena Inorganic Chemicals Musculoskeletal Diseases Neuroscience and Neurobiology
346	Molecular Players in Preserving Excitatory-Inhibitory Balance in the Brain Mao, Wenjie 07 December 2017 (has links) Information processing in the brain relies on a functional balance between excitation and inhibition, the disruption of which leads to network destabilization and many neurodevelopmental disorders, such as autism spectrum disorders. One of the homeostatic mechanisms that maintains the excitatory and inhibitory balance is called synaptic scaling: Neurons dynamically modulate postsynaptic receptor abundance through activity-dependent gene transcription and protein synthesis. In the first part of my thesis work, I discuss our findings that a chromatin reader protein L3mbtl1 is involved in synaptic scaling. We observed that knockout and knockdown of L3mbtl1 cause a lack of synaptic downscaling of glutamate receptors in hippocampal primary neurons and organotypic slice cultures. Genome-wide mapping of L3mbtl1 protein occupancies on chromatin identified Ctnnb1 and Gabra2 as downstream target genes of L3mbtl1-mediated transcriptional regulation. Importantly, partial knockdown of Ctnnb1 by itself prevents synaptic downscaling. Another aspect of maintaining E/I balance centers on GABAergic inhibitory neurons. In the next part of my thesis work, we address the role of the scaffold protein Shank1 in excitatory synapses onto inhibitory interneurons. We showed that parvalbumin-expressing interneurons lacking Shank1 display reduced excitatory synaptic inputs and decreased levels of inhibitory outputs to pyramidal neurons. As a consequence, pyramidal neurons in Shank1 mutant mice exhibit increased E/I ratio. This is accompanied by a reduced expression of an inhibitory synapse scaffolding protein gephyrin. These results provide novel insights into the roles of chromatin reader molecules and synaptic scaffold molecules in synaptic functions and neuronal homeostasis. synaptic plasticity homeostatic plasticity homeostatic scaling synaptic scaling excitatory and inhibitory balance hippocampus epigenetics chromatin reader MBT interneuron parvalbumin shank synaptic scaffolding molecule autism spectrum disorders mouse model Molecular and Cellular Neuroscience
347	Preclinical studies on a new strategy combining the Bacillus of Calmette-Guérin with plasmid DNA-based subunit vaccines against tuberculosis / Etudes précliniques sur une nouvelle stratégie de vaccination contre la tuberculose combinant le Bacille de Calmette-Guérin avec des vaccins à ADN plasmidique Bruffaerts, Nicolas 21 May 2015 (has links) La tuberculose est une maladie contagieuse causée par les bactéries appartenant au complexe Mycobacterium tuberculosis. On estime près de neuf millions de nouveaux cas et un million de décès chaque année dans le monde. De plus, approximativement un tiers de la population mondiale est infecté de manière latente, donc à risque de développer la maladie. Le seul vaccin préventif jusqu’à présent disponible est le Bacille de Calmette-Guérin (BCG). Cependant, son efficacité contre la forme pulmonaire de la maladie, contagieuse et plus fréquente chez l’adulte, est extrêmement variable. Le développement de nouveaux vaccins prophylactiques contre la tuberculose est basé sur une stratégie de remplacement ou d’amélioration de l’actuel vaccin BCG. De nombreux candidats vaccins sous-unitaires sont évalués dans un protocole de vaccination de rappel après le BCG. Ce dernier est en effet administré à plus de 80% des nouveau-nés et des nourrissons des populations à haut risque.<p>Le présent travail a eu pour but principal d’étudier une nouvelle approche de vaccination combinant le Bacille de Calmette-Guérin avec des vaccins sous-unitaires à ADN plasmidique dans différents modèles précliniques.<p>Plusieurs hypothèses tentent d’expliquer la faible efficacité du vaccin BCG, comme la faible induction de réponses immunitaires de type cellulaire T CD8+, le déclin de l’immunité protectrice induite au cours du temps, ou son répertoire antigénique limité. Les vaccins à ADN plasmidique induisant de telles réponses, le travail proposé a consisté au développement d’un nouveau protocole de vaccination basé sur la coadministration par la voie intradermique du vaccin BCG formulé avec un vaccin à ADN plasmidique codant pour un antigène mycobactérien. Nous avons observé dans plusieurs modèles murins (adulte et néonatal) une augmentation significative des réponses cellulaires de type CD4+ Th1 et CD8+, ainsi que de la réponse humorale spécifique. L’immunogénicité de cette approche a également été analysée dans un modèle animal de grande taille, à savoir le modèle porcin. Les résultats obtenus indiquent que les vaccins à ADN plasmidique sont capables d’augmenter les réponses spécifiques à l’antigène codé par le plasmide mais également celles spécifiques à d’autres antigènes exprimés par le vaccin BCG. Enfin, dans la deuxième partie du travail, nous avons développé des vaccins plasmidiques codant pour des combinaisons d’antigènes phase-spécifiques de M. tuberculosis et nous avons analysé leur immunogénicité en modèle murin.<p>En conclusion, nous avons montré que la stratégie de coadministration par la voie intradermique du vaccin BCG avec un vaccin à ADN plasmidique encodant des antigènes mycobactériens s’avère être un protocole de vaccination réaliste et efficace pour améliorer l’immunité induite par le vaccin BCG. Elle offre par ailleurs des perspectives pour être appliquée avec des plasmides codant pour des antigènes caractéristiques de la tuberculose latente, peu reconnus après vaccination BCG, pour protéger à la fois contre la tuberculose active d’une primo-infection et contre la réactivation d’une infection latente. / Doctorat en Sciences / info:eu-repo/semantics/nonPublished Biologie Communicable diseases Bacteriology Tuberculosis -- Vaccination DNA vaccines Bacteria Maladies infectieuses Bactériologie Tuberculose -- Vaccination Vaccins à l'ADN Bactéries DNA vaccine BCG swine model mouse model infectious disease tuberculosis vaccin à ADN/vaccine modèle porcin modèle murin maladie infectieuse
348	Unraveling transcript-based variability of host responses to Tuberculosis Domaszewska, Teresa 01 April 2019 (has links) Jedes Jahr treten weltweit über zehn Millionen Fälle von Tuberkulose (TB) auf. Die Weltgesundheitsorganisation (WHO) schätzt, dass ein Drittel der Weltbevölkerung mit dem Erreger Mycobacterium tuberculosis (Mtb) infiziert ist. Bei fünf bis zehn Prozent aller latent Infizierten bricht Tuberkulose im Laufe des Lebens aus. Dennoch sind bereits 100 Jahre seit der Entdeckung von Mtb vergangen, ohne dass die entscheidenden Faktoren für den unterschiedlichen Infektionsverlauf bekannt wären. In dieser Arbeit untersuche ich die unterschiedlichen Reaktionen auf eine Tuberkuloseinfektion in verschiedenen Wirten. In meinem ersten Ansatz habe ich öffentlich zugängliche Transkriptom-Datensätze von Tuberkulosepatienten und gesunden Probanden ausgewertet. Mit Hilfe der Gensatzanreicherungs-Analyse (eng. Gene Set Enrichment Analysis, GSEA) habe ich die Transkriptionsprofile von Tuberkulosepatienten betrachtet. Das besondere Augenmerk lag hierbei auf der Interferon (IFN)-Signalkaskade, die für den Krankheitsverlauf von besonderer Bedeutung ist. In dieser Arbeit zeige ich zunächst, dass Patienten ohne eine IFN-Signatur in der untersuchten Kohorte vorkommen und widme mich im Anschluss der Frage, ob diese Patienten einen anderen Phänotypus haben als jene mit einer starken IFN-Antwort. Indem ich nur Patienten ohne IFN-Antwort betrachte, werden Mechanismen deutlich, die allen Patientengruppen gemein sind, aber vorher von der starken IFN-Signatur überlagert wurden. Ich belege in dieser Arbeit, dass eine starke IFN-Regulation auch mit einer ausgeprägten Lungenpathologie in Tuberkulosepatienten einhergeht. Passend hierzu weisen auch gesunde Probanden nach Verabreichung des Impfstoffs FLUAD® einen erhöhten Blutwert IFN-induzierter Zytokine auf. Mit Hilfe maschinellen Lernens konnte ich Transkriptomsignaturen der Patienten mit bzw. ohne IFN-Antwort identifizieren und vergleichen. Im zweiten Ansatz widme ich mich den unterschiedlichen Transkriptionsantworten auf Mtb-Infektionen in humanen Kohorten und zwei verschiedenen Mausmodellen. Der humanen und der murinen Immunantwort auf Infektionen unterliegen gravierende Unterschiede. Trotzdem sind einige Elemente des Immunsystems in beiden Arten konserviert. In dieser Arbeit präsentiere ich einen neuen Ansatz der Datenintegration, der die Identifizierung von übereinstimmenden und nicht übereinstimmenden Regulationselementen der Genexpression in heterogenen Datensätzen ermöglicht. Die Analyse basiert auf öffentlich zugänglichen sowie de-novo-generierten Datensätzen, zu denen ich durch wissenschaftliche Kollaborationen meiner Kollegen in der Abteilung Immunologie sowie der zentralen Einheit Microarray des Max-Planck-Instituts für Infektionsbiologie, Zugang erhalten habe. Des Weiteren liegt ein Schwerpunkt auf der vergleichenden Analyse humaner und muriner Transkriptionsantworten auf Tuberkulose in Vollblut und Makrophagen. Die erhaltenen Ergebnisse weisen auf einen signifikanten Unterschied in der Regulierung der angeborenen sowie der erworbenen Immunität in Mensch und Maus als Reaktion auf eine Mtb-Infektion hin. In dieser Arbeit charakterisiere ich die unterschiedliche Regulierung von T-Zell bezogenen Genen, die mit unterschiedlich ausgeprägten Phänotypen bei stark oder schwach TB-anfälligen Mausstämmen korrespondiert. Darüber hinaus habe ich den 21. Tag nach einer Tuberkuloseinfektion in Mäusen als Zeitpunkt ermittelt, der die Transkriptionsantworten in den untersuchten humanen Kohorten am besten widerspiegelt. Die angewandten Ansätze erleichtern die Auswahl des am besten geeigneten Tiermodells für die Erforschung der humanen Immunantwort auf eine ausgewählte Krankheit und liefern die Basis für ein besseres Verständnis der unterschiedlichen Krankheitsverläufe in Mtb-infizierten Patienten. / Over 10 million tuberculosis (TB) cases are being reported annually and the World Health Organization (WHO) estimates that up to the 1/3 of the world population is infected with Mycobacterium tuberculosis (Mtb). Between 5 and 10% of the latently infected individuals develop TB during their lifetime. Yet, despite over 100 years of research since Mtb has been identified, we are not able to define all the factors which are responsible for the different infection outcomes in the hosts. In this thesis I investigate the variability in the response to TB presented by different hosts. In one approach, I collect publicly available transcriptomic datasets from TB patients and healthy donors. Using Gene Set Enrichment Analysis (GSEA) I examine transcriptional profiles of individuals with TB. In particular, focus is brought to interferon (IFN) signaling which has been previously described as crucial for the disease outcome. I show that patients lacking IFN signature are present in the studied cohorts and investigate whether these patients present different phenotype than patients with strong regulation of IFN responses. Moreover, by focusing on patients lacking IFN response I try to unearth mechanisms present in all patient groups but dominated by the signal of IFN response. I show that strong regulation of IFN genes is related to severe pathology in the lungs of TB patients and that it is reflected by the levels of IFN-inducible cytokines in blood of healthy volunteers after vaccination with FLUAD® vaccine. Using Machine Learning (ML) methods, I identify and compare transcriptomic signatures of the patients presenting and lacking the IFN response. In the second approach I study the differences in the transcriptional responses to Mtb infection in human cohorts and two different mouse models. The immunity in infection, inflammation and malignancy differs markedly in man and mouse. Nevertheless, there are elements of immune system which have been conserved between the species. I propose a novel data integration approach which identifies concordant and discordant elements of gene expression regulation in heterologous datasets. The analysis is based on publicly available as well as novel experimental data acquired thanks to collaboration with my colleagues from the Department of Immunology and Microarray Core Facility of Max Planck Institute for Infection Biology (MPIIB). Additionally, I focus on the comparison of human and murine transcriptional responses to TB in whole blood (WB) and in macrophages. The results indicate profound differences between regulation of innate and adaptive immunity in man and mouse upon Mtb infection. I characterize differential regulation of T-cell related genes corresponding to the differences in phenotype between TB high and low susceptible mouse strains and identify the time point of 21 days p.i. of mice as best reflection of transcriptional responses in the studied human cohorts. The implemented approaches facilitate the choice of an appropriate animal model for studies of the human immune response to a particular disease and provide the basis for better understanding of differences in the outcomes of Mtb infection in individual hosts. Tuberkulose Transkriptomsignatur Machinelles Lernen Mausmodellen Interferon tuberculosis transcriptional signature machine learning mouse model interferon 570 Biowissenschaften; Biologie XG 2704 YE 1604 YE 1612 YE 1613 YE 1618 ddc:570
349	Étude du rôle d’ARF6 dans la physiologie des cellules du muscle lisse vasculaire lors de l’athérosclérose Fiola-Masson, Émilie 12 1900 (has links) L’athérosclérose est une pathologie cardiovasculaire chronique impliquant de nombreux acteurs. Les cellules du muscle lisse vasculaire (CMLV) jouent un important rôle dans la pathogénicité. Lors de la formation des plaques athérosclérotiques, ces cellules entraînent l’augmentation de la taille de l’athérome, accentuent la formation du chapeau fibreux et à long terme, contribuent à l’instabilité de la plaque. Dans cette étude, nous nous sommes intéressés à l’impact d’ARF6 sur les cellules du muscle lisse vasculaire et ses implications pathologiques dans l’athérosclérose. Les ARF sont des GTPases agissant comme interrupteurs moléculaires dans divers processus physiologiques tels que le trafic vésiculaire intracellulaire et le remodelage des lipides membranaires. ARF6 est importante pour la prolifération et la migration cellulaire des CMLV, deux phénomènes importants dans le développement de l’athérosclérose. Nous émettons donc l’hypothèse que la GTPase ARF6 est impliquée dans la progression de l’athérosclérose. En premier lieu, nous avons étudié l’effet de la GTPase dans le phénomène de l’invasion cellulaire. Dans l’athérosclérose, plusieurs facteurs environnementaux influencent l’invasion des CMLV. Nous avons voulu vérifier l’effet d’ARF6 sur l’invasion des CMLV médiée par le facteur de croissance dérivé des plaquettes (PDGF-BB) et l’angiotensine II (Ang II). Dans un modèle humain, l’invasion était diminuée en l’absence d’ARF6. Nous avons démontré que ce mécanisme résultait d’un effet d’ARF6 sur l’activité de la métalloprotéinase matricielle MMP14. En second lieu, nous avons voulu évaluer l’effet d’ARF6 dans un modèle in vivo d’athérosclérose. En utilisant un modèle accéléré d’athérosclérose inductible, nous avons inhibé ARF6 dans les cellules du muscle lisse. Après dix semaines de diète riche en gras, nous avons observé une diminution de la taille des lésions athérosclérotiques dans les souris ARF6 KO, accompagnée d’une réduction de l’expression des facteurs pro-inflammatoires tels qu’IL-6. Dans un modèle in vitro, l’absence d’ARF6 réduisait l’absorption lipidique en agissant sur l’expression des transporteurs. De plus, ARF6 régulait des voies de signalisation impliquées dans l’inflammation. En somme, nous avons démontré l’importance d’ARF6 dans la modulation pathologique des CMLV dans l’athérosclérose. Ainsi, ARF6 contribue à la pathogénicité des CMLV en modulant leur invasion cellulaire tout en jouant un rôle pro-inflammatoire. / Atherosclerosis is a chronic cardiovascular disease characterized by an accumulation of lipids, followed by the infiltration of macrophages and vascular smooth muscle cells (VSMC). VSMC are responsible for the increase of lesion size, the formation of a fibrous cap, and eventually contributing to the plaque instability. In this study, we were interested in the role of ARF6 in the vascular smooth muscle cells and its pathological implications in atherosclerosis. ARF are a family of GTPases that act as molecular switches and are involved in diverse physiological mechanisms, such as vesicular traffic and membrane lipid transformation. In VSMC, ARF6 is important for cell proliferation and migration, two processes involved in atherosclerosis. We therefore hypothesize that the GTPase ARF6 is involved in the development of atherosclerosis through its impact on VSMC. First, we studied the role of ARF6 in the mechanism of cell invasion. In atherosclerosis, multiple environmental factors affect VSMC invasion. We verified the impact of ARF6 on platelet-derived growth factor (PDGF-BB) and angiotensin II (Ang II)-mediated invasion. Using a human model, we observed a reduction of invasion in the absence of ARF6. We have demonstrated that this mechanism is due to the effect of ARF6 on the activity of the matrix metalloproteinase MMP14. Second, we wanted to verify the role of ARF6 in atherosclerosis in an in vivo model. Using an accelerated inducible atherosclerosis model, we inhibited ARF6 in smooth muscle cells. After ten weeks of high-fat diet, we observed a reduction in the size of atherosclerotic lesions in ARF6 KO mice. This reduction was accompanied by a decrease in the expression of proinflammatory factors. In our in vitro model, ARF6 depletion reduced lipid uptake by downregulating the lipidic transporter expression. Also, ARF6 was responsible to activate inflammation signaling pathways. In summary, we have demonstrated the impact of ARF6 in the pathological modulation of VSMC in atherosclerosis. Indeed, ARF6 contributes to the pathogenicity of VSMC through its ability to modulate cell invasion and induce proinflammatory actions. Athérosclérose Cellules du muscle lisse vasculaire ARF6 Invasion MMP14 Ang II PDGF Modèle murin Cellules spumeuses Vascular smooth muscle cells Atherosclerosis Inflammation Mouse model Foam cells
350	Caractérisation du jeûne intermittent dans un modèle de néovascularisation choroïdienne chez la souris Faquette, Marie-Lou 11 1900 (has links) La dégénérescence maculaire liée à l’âge (DMLA) est une des premières causes de cécité pour les personnes âgées de plus de 50 ans. Elle existe sous deux formes : sèche et humide. La forme causant les pertes de vision les plus sévères et rapides est DMLA humide où des nouveaux vaisseaux sanguins anormaux se forment dans la rétine; ce processus est appelé la néovascularisation choroïdienne. Celui-ci est causé par la dégradation des différentes membranes de la rétine et de l’augmentation du VEGF stimulant la croissance de ces vaisseaux. L’obésité, l’hypertension, le diabète et la cigarette sont connus pour être des facteurs modifiables et fortement corrélés avec la maladie. Avec l’arrivée des nombreuses diètes tendances, le jeûne intermittent pourrait être une intervention non-pharmacologique impactant l’obésité, l’hypertension et le diabète. En effet, cette diète est reconnue pour améliorer la santé, améliore la sensibilité à l’insuline et la tolérance glucose, diminuer le cholestérol sanguin et exercerait un effet bénéfique sur l’obésité. Ce mémoire a été entrepris dans le but d’évaluer les avantages potentiels du cycle de diète, soit le jeûne intermittent, sur la néovascularisation choroïdienne dans un modèle de DMLA. Nous avons émis l’hypothèse que le jeûne intermittent permet la diminution de la néovascularisation choroïdienne. Nos résultats montrent que les souris sous le régime jeûne intermittent que nous avons utilisé, c’est-à-dire 2 jours d’alimentation pour 1 jour de jeûne, ne perdent pas de poids, et suivent le même schéma de prise de poids que les souris nourries à volonté. De plus, les souris sous jeûne intermittent n’ont pas d’avantage métabolique que ce soit au niveau du glucose et, encore, moins au niveau de l’insuline. Les résultats ne permettent pas de montrer une différence au niveau de la néovascularisation choroïdienne induit par notre modèle. Le modèle de jeûne intermittent choisit ne permet pas d’obtenir des avantages au niveau de la néovascularisation choroïdienne ni pour la sensibilité au glucose et à l’insuline / Age-related macular degeneration (AMD) is one of the most prominent causes of blindness for people over 50 years old. It exists in two forms: dry and wet. The form causing majority of loss of sight is caused by wet AMD from where new abnormal blood vessels form in retina. This process is called choroidal neovascularization. This is caused by degeneration of outer portion of the retina and an increase in VEGF that instigate the growth of the new blood vessels. Obesity, hypertension, diabetes and smoking are known to be modifiable factors and strongly correlated with the disease. The advent of a vast number of trendy diets has introduced the possibility of modulating chronic disease by modifying eating habits. As an example, intermittent fasting can impacting obesity, hypertension, and diabetes. Indeed, this diet has been known to improve health, increase sensitivity of insulin and glucose, lower cholesterol and to have beneficial effect in obesity. The purpose of the research in my master’s thesis is to evaluate the influence of diet cycle, intermittent fasting on choroidal neovascularization in a mouse model of AMD. We hypothesized that the intermittent fasting could be diminish the choroidal neovascularization. There are several experimental paradigms that reproduce intermittent fasting. We selected the intermittent fasting 2 days of eating for one day of fasting (IF 2:1). Our results show that mice on our selected intermittent fasting regimen did not lose weight and follow the same pattern of weight gain as the mice that fed ad libitum. Furthermore, the mice on this intermittent fasting diet paradigm didn’t have metabolic benefits on glucose or insulin tolerance. Our results also did not show any differences in choroidal neovascularization. Hence, the 2:1 paradigm of intermittent fasting didn’t show any benefits on choroidal neovascularization, nor glucose and insulin. DMLA Néovascularisation choroïdienne Jeûne intermittent Diète Choroïde Membrane de Bruch Épithélium pigmentaire rétinien Modèle murin AMD Choroidal neovascularization Intermittent fasting Diet Choroid Bruch membrane Retinal pigment epithelium Mouse model Biochemistry / Biochimie (UMI : 0487)

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