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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Role of a PTP1B Pathway in the Neuropsychiatric Expression of a Mouse Maternal Immune Activation Model

Couture, Pascal 12 March 2019 (has links)
Activation of the immune system in gestating mothers has been identified as an important environmental risk factor for neuropsychiatric disorders. Maternal immune activation (MIA) animal models have been used to explore how the maternal immune system may cause expression of pathophysiology in offspring. Protein tyrosine phosphatase (PTP1B) is recruited during inflammation and its regulatory proteins are modulated in MIA. Disrupted regulation of PTP1B has been linked to mental disorders such as Rett Syndrome and anxiety. We asked if ablating neuronal PTP1B could protect from the expression of some neuropsychiatric phenotypes that appear in MIA models. In our MIA model induced with poly I:C injection at gestational day 9.5, we observed increased locomotion and sensorimotor gating and reduced anxiety in 3-month-old male offspring while females showed decreased sensorimotor gating. These effects were not replicated in PTP1B KO mice indicating a role of PTP1B in affecting locomotion and anxiety level in MIA. This model promotes a more balanced understanding of MIA and introduces PTP1B as a player in MIA-induced behaviour changes.
2

Investigating the role of microglia in neural development and synaptic maintenance

Yeh, Hana 04 February 2022 (has links)
Maternal immune activation (MIA) disrupts the central innate immune system during a critical neurodevelopmental period. Microglia are the primary innate immune cells in the brain and can mediate neurodevelopment, but the direct influence of microglia on the MIA phenotype remains largely unknown. Here, we show that MIA can lead to long-lasting effects on microglial phenotype, neuronal circuitry, and behaviors. Transcriptomic analysis revealed aberrant expression of neurogenic genes in MIA microglia. We found that microglia repopulation by colony-stimulating factor receptor 1 (CSF1R) inhibition reversed MIA-induced social deficits and corrected expression of the newly identified MIA-associated neuritogenic molecules in microglia. In vitro whole-cell patch-clamp recording and immunohistochemistry revealed that microglia repopulation restored MIA-induced changes in intrinsic excitability, dendritic spine density, and microglia-neuron interactions of layer V intrinsically bursting pyramidal neurons in the prefrontal cortex. Maternal inflammation therefore alters microglial phenotypes and changes neuronal functions by mediating microglia-neuron interactions. We found that Wingless-related MMTV integration site 5a (WNT5a) is a critical regulator of this microglia-neuron communication. Studies have shown that the neurotrophic factor WNT5a plays a critical role in neurodevelopment, and here we demonstrate that WNT5a is one of the neuritogenic genes significantly upregulated in embryonic MIA microglia. We showed using microarray analysis that the microglial secretome can promote neural stem cell differentiation through various pathways, including Wnt pathways. Live imaging of neuron-microglia co-culture demonstrated that microglia enhanced neurite development and dendritic spine density and that this was diminished by microglial Wnt5a silencing using siRNA transfection. Multi-electrode array recordings revealed that microglia co-culture increased spontaneous neuronal firing rate. Thus, microglia can secrete WNT5a and regulate dendritic spine development, maintenance, and neural circuitry. These results indicate that altered expression of microglial WNT5a due to pathogenic states such as inflammation can lead to abnormal neuronal activity. To further elucidate microglia biology, we developed an inducible immortalized murine microglial cell line using a tetracycline expression system. The addition of doxycycline can induce rapid cell proliferation for the expansion of cell colonies. Upon withdrawal of doxycycline, this monoclonal microglial cell line can differentiate and resemble in vivo microglia physiology as assessed by expression of microglial genes, innate immune response, chemotaxis, and phagocytic capabilities. This cell line becomes a convenient and useful method to study microglia in vitro. / 2024-02-03T00:00:00Z
3

Epigenomic and Transcriptomic Changes in the Onset of Disease

Naler, Lynette Brigitte 19 May 2021 (has links)
Current sequencing technologies allows researchers unprecedented insight into our biology, and how these biological mechanisms can become distorted and lead to disease. These aberrant mechanisms can be brought about by many causes, but some occur as a result of genetic mutations or external factors through the epigenome. Here, we used our microfluidic technology to profile the epigenome and transcriptome to study such aberrant mechanisms in three different diseases and illnesses: breast cancer, chronic inflammation, and mental illness. We profiled the epigenome of breast tissue from healthy women with the BRCA1 mutation to understand how the mutation may facilitate eventual breast cancer. Epigenomic changes in breast cells suggest that cells in the basal compartment may differentiate into a different cell type, and perhaps become the source of breast cancer. Next, we compared the epigenome and genome of murine immune cells under low-grade inflammation and acute inflammation conditions. We found that low-grade inflammation preferentially utilizes different signaling pathways than in acute inflammation, and this may lead to a non-resolving state. Finally, we analyzed the effect of the maternal immune activation on unborn offspring, and how these changes could cause later mental illness. The insights we made into these diseases may lead to future therapies. / Doctor of Philosophy / Despite advances in medical and scientific research, there is still a dearth of information on how diseases affect the expression of our genes, such as breast cancer, chronic inflammation, and influenza. Mutation in the BRCA1 gene is probably the most well-known mutation that can lead to breast cancer. We know the overarching reason that mutation in BRCA1 can lead to cancer, as BRCA1 is responsible for repairing damage in the DNA, so mutations can compound and create cancerous cells. However, we do not know the exact mechanisms by which this actually happens. Another widespread problem is chronic inflammation, which can promote or lead to diseases such as diabetes, cancer, Alzheimer's, Rheumatoid arthritis, and heart disease. In addition, there are many causes of chronic inflammation that many people have experienced at some point in time, including stress, insomnia, being sedentary, poor eating habits, and obesity. Despite this, we still do not fully understand why chronic inflammation differs from normal inflammation, which is a healthy process, or why it does not resolve. There are also other connections that are surprising, and many are not aware of. If a pregnant woman gets the flu during her second trimester, her baby has much higher odds of developing schizophrenia later in its lifetime. Given the prevalence of the flu, there is a very real chance that an expecting mother will be infected during her pregnancy.
4

Translocator protein (TSPO) and stress cascades in mouse models of psychosis with inflammatory disturbances / 炎症反応を呈し精神病様行動異常を示すモデルマウスにおけるトランスロケータータンパク質(TSPO)およびストレスカスケード

Fukudome, Daisuke 24 November 2020 (has links)
京都大学 / 0048 / 新制・論文博士 / 博士(医学) / 乙第13378号 / 論医博第2212号 / 新制||医||1047(附属図書館) / (主査)教授 井上 治久, 教授 髙橋 良輔, 教授 渡邉 大 / 学位規則第4条第2項該当 / Doctor of Medical Science / Kyoto University / DFAM
5

Low-Input Multi-Omic Studies of Brain Neuroscience Involved in Mental Diseases

Zhu, Bohan 13 September 2022 (has links)
Psychiatric disorders are believed to result from the combination of genetic predisposition and many environmental triggers. While the large number of disease-associated genetic variations have been recognized by previous genome-wide association studies (GWAS), the role of epigenetic mechanisms that mediate the effects of environmental factors on CNS gene activity in the etiology of most mental illnesses is still largely unclear. A growing body of evidence suggested that the abnormalities (changes in gene expression, formation of neural circuits, and behavior) involved in most psychiatric syndromes are preserved by epigenetic modifications identified in several specific brain regions. In this thesis, we developed the second generation of one of our microfluidic technologies (MOWChIP-seq) and used it to profile genome-wide histone modifications in three mental illness-related biological studies: the effect of psychedelics in mice, schizophrenia, and the effect of maternal immune activation in mice offspring. The second generation of MOWChIP-seq was designed to generate histone modification profiles from as few as 100 cells per assay with a throughput as high as eight assays in each run. Then, we applied the new MOWChIP-seq and SMART-seq2 to profile the histone modification H3K27ac and transcriptome, respectively, using NeuN+ neuronal nuclei from the mouse frontal cortex after a single dose of psychedelic administration. The epigenomic and transcriptomic changes induced by 2,5-Dimethoxy-4-iodoamphetamine (DOI), a subtype of psychedelics, in mouse neuronal nuclei at various time points suggest that the long-lasting effects of the psychedelic are more closely related to epigenomic alterations than the changes in transcriptomic patterns. Next, we comprehensively characterized epigenomic and transcriptomic features from the frontal cortex of 29 individuals with schizophrenia and 29 individually matched controls (gender and age). We found that schizophrenia subjects exhibited thousands of neuronal vs. glial epigenetic differences at regions that included several susceptibility genetic loci, such as NRXN1, RGS4 and GRIN3A. Finally, we investigated the epigenetic and transcriptomic alterations induced by the maternal immune activation (MIA) in mice offspring's frontal cortex. Pregnant mice were injected with influenza virus at GD 9.5 and the frontal cortex from mice pups (10 weeks old) were examined later. The results offered us some insights into the contribution of MIA to the etiology of some mental disorders, like schizophrenia and autism. / Doctor of Philosophy / While this field is still in its early stage, the epigenetic studies of mental disorders present promise to expand our understanding about how environmental stimulates, interacting with genetic factors, contribute to the etiology of various psychiatric syndromes, like major depression and schizophrenia. Previous clinical trials suggested that psychedelics may represent a promising long-lasting treatment for patients with depression and other psychiatric conditions. These research presented the therapeutic potential of psychedelic compounds for treating major depression and demonstrated the capability of psychedelics in increasing dendritic density and stimulating synapse formation. However, the molecular mechanism mediating the clinical effectiveness of psychedelics remain largely unexplored. Our study revealed that epigenomic-driven changes in synaptic plasticity sustain psychedelics' long-lasting antidepressant action. Another serious mental illness is schizophrenia, which could affect how an individual feels, thinks, and behaves. Like most other mental disorders, schizophrenia results from a combination of genetic and environmental causes. Epigenetic marks allow a dynamic impact of environmental factors, including antipsychotic medications, on the access to genes and regulatory elements. Despite this, no study so far has profiled cell-type-specific genome-wide histone modifications in postmortem brain samples from schizophrenia subjects or the effect of antipsychotic treatment on such epigenetic marks. Here we show the first comprehensive epigenomic characterization of the frontal cortex of 29 individuals with schizophrenia and 29 matched controls. The process of brain development is surprisingly sensitive to a lot of environmental insults. Epidemiological studies have recognized maternal immune activation as a risk factor that may change the normal developmental trajectory of the fetal brain and increase the odds of developing a range of psychiatric disorders, including schizophrenia and autism, in its lifetime. Given the prevalence of the coronavirus, uncovering the molecular mechanism underlie the phenotypic alterations has become more urgent than before, for both prevention and treatment.
6

Rôle de l’activation immune maternelle par le Streptocoque de groupe B dans la physiopathologie de l’autisme / Live group B Streptococcus-induced maternal immune activation: gender dichotomic chorioamnionitis and autistic-like traits in male offspring

Allard, Marie-Julie January 2015 (has links)
Résumé : Le streptocoque de groupe B (SGB) est une bactérie commensale présente dans le tractus génito-urinaire de 10 à 30 % des femmes enceintes en santé. Ce pathogène est responsable de chorioamnionite, associée aux naissances prématurées et aux dommages cérébraux du nouveau-né. Les infections durant la grossesse, la chorioamnionite et la prématurité sont associées au développement de troubles du spectre de l’autisme. Notre hypothèse est qu’une exposition subclinique au SGB induit une réponse inflammatoire maternofoetale, menant à des troubles neurodéveloppementaux et comportementaux de type autistique dans la progéniture. L’objectif principal est d’étudier, à l’aide d’un nouveau modèle animal (rat) préclinique, les impacts d’une exposition au SGB en période prénatale sur le développement cérébral de la progéniture. Les rates Lewis gestantes sont injectées au jour de gestation 19 avec une dose de SGB de sérotype Ia (108 UFC/100µl) ou de saline. La réponse inflammatoire placentaire est caractérisée par immunohistochimie. Des tests comportementaux sont effectués entre les jours postnataux 7 et 40 afin d’évaluer la communication, le comportement exploratoire, l’intégration sensorielle et les interactions sociales. Une chorioamnionite dichotomique selon le genre est observée dans les placentas exposés au SGB, via une infiltration de cellules polymorphonucléaires. Cette infiltration est significativement plus proéminente dans les placentas associés aux fœtus mâles que ceux des fœtus femelles. Les mâles exposés au SGB ont un amincissement de la substance blanche cérébrale adjacente aux ventricules latéraux élargis. La progéniture mâle exposée au SGB présente des anomalies comportementales associées aux traits cardinaux des troubles du spectre de l’autisme, soit des déficits au niveau de la communication, des interactions sociales, du traitement de l’information sensorielle ainsi qu’au niveau d’autres comorbidités classiques de l’autisme, comme l’hyperactivité. Ces données démontrent pour la première fois que l’activation immune maternelle induite par l’infection au SGB joue un rôle dans l’induction d’anomalies neurodéveloppementales récapitulant celles observées chez les patients autistes, incluant la dichotomie de genre et le phénotype neurocomportemental. Ces résultats fournissent de nouvelles évidences en faveur du rôle dans la physiopathologie de l’autisme d’un facteur environnemental commun, et modifiable, d’inflammation gestationnelle. / Abstract : Group B Streptococcus (GBS) is a commensal bacterium present in the vagina of 10 to 30% of healthy pregnant women. GBS is responsible for chorioamnionitis, which can cause preterm birth and cerebral injuries in the newborn most often in the absence of maternofetal pathogen translocation. Maternal infection, chorioamnionitis and preterm birth are associated to autism spectrum disorders (ASD) in the progeny. Our hypothesis is that GBS-induced gestational infection induces a maternofetal inflammatory response leading to neurodevelopmental impairments and ASD-like behaviour in the offspring. Our goal was to study, with a new preclinical animal model, the impacts of GBS-induced gestational inflammation on the neurodevelopmental features in the offspring. We characterized GBS-induced placental and neurobehavioural outcomes. Dams were exposed at gestational day 19 to live GBS or saline. The placental inflammatory response was studied by immunohistochemistry. Behavioural tests were performed between postnatal days 7 and 40 to assess communication, exploratory abilities, sensory integration and social interactions. GBS-exposed placentas displayed chorioamnionitis featured by infiltration of polymorphonuclear cells, which was significantly more prominent in males than in females. GBS-exposed males showed a reduced thickness of periventricular white matter. Male offspring exposed to GBS had early onset of cardinal ASD-like traits affecting social interaction, communication (ultrasonic vocalizations), treatment of sensory information (prepulse inhibition), preference toward mother cue (nest-seeking), and some other classic ASD comorbidities such as hyperactivity (open field). Overall, these data show for the first time that maternal immune activation due to live GBS plays a key role in the induction of neurodevelopmental abnormalities recapitulating those of human ASD, including gender dichotomy and neurobehavioural phenotype. These results provide new evidence in favor of the role of a common and modifiable infectious/inflammatory environmental factor in human ASD pathophysiology.
7

Animal Models of Prophylaxis and Prevention of Schizophrenia: Prenatal Seasonal Influenza Vaccine and Postnatal Valproate

Doucet, Jean-Sebastien 21 November 2012 (has links)
Schizophrenia is a mental illness with early adult onset. Prophylactic treatments would be clinically important and therefore we investigated the effect of two interventions: influenza vaccination of pregnant mothers and valproate treatment during late adolescence. Maternal immune response during pregnancy is thought to adversely affect brain development. We sought to assess whether immune activation by influenza vaccine could itself cause behavioural abnormalities in a mouse model. Our data suggest that further work is needed to make firm conclusions about the behavioural effects of the influenza vaccine. The second part of this thesis describes an analysis of valproate treatment on cortical neuron morphology in Disc1 L100P mice, a model for schizophrenia. Valproate was previously shown to prevent the onset of abnormal behaviours in Disc1 L100P mice. Contrary to expectations, valproate decreased apical spine density and the number of dendritic processes rather than reversing the dendritic deficits seen in Disc1 L100P mice.
8

Animal Models of Prophylaxis and Prevention of Schizophrenia: Prenatal Seasonal Influenza Vaccine and Postnatal Valproate

Doucet, Jean-Sebastien 21 November 2012 (has links)
Schizophrenia is a mental illness with early adult onset. Prophylactic treatments would be clinically important and therefore we investigated the effect of two interventions: influenza vaccination of pregnant mothers and valproate treatment during late adolescence. Maternal immune response during pregnancy is thought to adversely affect brain development. We sought to assess whether immune activation by influenza vaccine could itself cause behavioural abnormalities in a mouse model. Our data suggest that further work is needed to make firm conclusions about the behavioural effects of the influenza vaccine. The second part of this thesis describes an analysis of valproate treatment on cortical neuron morphology in Disc1 L100P mice, a model for schizophrenia. Valproate was previously shown to prevent the onset of abnormal behaviours in Disc1 L100P mice. Contrary to expectations, valproate decreased apical spine density and the number of dendritic processes rather than reversing the dendritic deficits seen in Disc1 L100P mice.
9

A ativação imune materna e os efeitos sobre a imunidade, neuroinflamação e desenvolvimento da encefalomielite autoimune experimental na prole de camundongos / Maternal immune activation and the effects on immunity, neuroinflammation and development of experimental autoimmune encephalomyelitis in the offspring

Zager, Adriano 15 October 2013 (has links)
Experiências vivenciadas durante o período pré-natal são determinantes para a saúde do feto. A ocorrência de infecções maternas e a consequente ativação do sistema imune da mãe ocasionam uma série de alterações estruturais e funcionais no cérebro da prole, podendo predispor o indivíduo a transtornos psiquiátricos na vida pós-natal, como esquizofrenia e autismo. No entanto, estudos que investigam as alterações imunes na prole ainda são escassos na literatura. Dessa forma, o objetivo do presente estudo foi avaliar, na prole, o impacto da ativação imune materna sobre a atividade imune periférica, a resposta imune-inflamatória no sistema nervoso central (SNC), e sobre o desenvolvimento da encefalomielite autoimune experimental (EAE), o modelo murino de Esclerose Múltipla. Camundongos fêmeas prenhes receberam uma administração de salina ou lipopolissacarídeo (LPS) ao final da gestação (dia gestacional 17) e, quando adulta, a prole foi submetida a 3 experimentos principais, analisando: (1) produção de citocinas, atividade de células da periferia e desenvolvimento da hipersensibilidade do tipo tardia; (2) produção de mediadores inflamatórios por células residentes do SNC e; (3) desenvolvimento dos sintomas clínicos e da resposta imune no decorrer da EAE. Nossos resultados mostraram que a ativação imune materna provocou na prole alterações imunes periféricas, como aumento da produção de Interleucina(IL)- 12 e exacerbação da resposta de hipersensibilidade do tipo tardia; potencialização da produção das citocinas IL-1β e IL-6 em cultura primária de células residentes do SNC e; piora na severidade dos sintomas clínicos causados pela EAE, que coincide com aumento do infiltrado de linfócitos e macrófagos no SNC e ativação imuneinflamatória das células da glia. Tomados em seu conjunto, os dados do presente trabalho sugerem que condições inflamatórias durante a gestação, particularmente durante o final da gestação, podem predispor o feto a distúrbios autoimunes e neurodegenerativos na vida adulta. / Prenatal period experiences are crucial for the fetal health. The occurrence of maternal infections and subsequent maternal immune system activation cause a number of structural and functional changes in the brain of the offspring that may predispose individuals to psychiatric disorders in post-natal life, such as schizophrenia and autism. However, studies investigating offspring´s immune alterations are still scarce in the literature. The aim of this study was to evaluate, in mice offspring taken from LPS-treated dams, the impact of maternal immune activation on peripheral immune cell activity, central nervous system (CNS) inflammatory response, and development of experimental autoimmune encephalomyelitis (EAE), the murine model of multiple sclerosis. Pregnant female mice received a dose of either saline or lipopolysaccharide (LPS) during late gestation (gestational day 17), and offspring were used in three experiments to analyze: (1) cytokine production and activity by peripheral immune cells and development of delayed type hypersensitivity, (2) production of inflammatory mediators by resident CNS cells and, (3) development of clinical symptoms and immune response during the course of EAE. Our results showed that maternal immune activation resulted in immune alterations in the offspring, such as increased peripheral production of interleukin (IL) -12 and exacerbated response of delayedtype hypersensitivity; enhancement of IL-1β and IL-6 productions in primary CNS resident cells culture and; increased severity of EAE clinical symptoms, which is positively correlated with the increased lymphocytes and macrophages infiltration within the CNS and also with the immune-inflammatory activation of glial cells. Taken together, the data from this study suggest that inflammatory conditions during pregnancy, especially during the late pregnancy, may predispose the fetus to autoimmune and neurodegenerative disorders in adulthood.
10

A ativação imune materna e os efeitos sobre a imunidade, neuroinflamação e desenvolvimento da encefalomielite autoimune experimental na prole de camundongos / Maternal immune activation and the effects on immunity, neuroinflammation and development of experimental autoimmune encephalomyelitis in the offspring

Adriano Zager 15 October 2013 (has links)
Experiências vivenciadas durante o período pré-natal são determinantes para a saúde do feto. A ocorrência de infecções maternas e a consequente ativação do sistema imune da mãe ocasionam uma série de alterações estruturais e funcionais no cérebro da prole, podendo predispor o indivíduo a transtornos psiquiátricos na vida pós-natal, como esquizofrenia e autismo. No entanto, estudos que investigam as alterações imunes na prole ainda são escassos na literatura. Dessa forma, o objetivo do presente estudo foi avaliar, na prole, o impacto da ativação imune materna sobre a atividade imune periférica, a resposta imune-inflamatória no sistema nervoso central (SNC), e sobre o desenvolvimento da encefalomielite autoimune experimental (EAE), o modelo murino de Esclerose Múltipla. Camundongos fêmeas prenhes receberam uma administração de salina ou lipopolissacarídeo (LPS) ao final da gestação (dia gestacional 17) e, quando adulta, a prole foi submetida a 3 experimentos principais, analisando: (1) produção de citocinas, atividade de células da periferia e desenvolvimento da hipersensibilidade do tipo tardia; (2) produção de mediadores inflamatórios por células residentes do SNC e; (3) desenvolvimento dos sintomas clínicos e da resposta imune no decorrer da EAE. Nossos resultados mostraram que a ativação imune materna provocou na prole alterações imunes periféricas, como aumento da produção de Interleucina(IL)- 12 e exacerbação da resposta de hipersensibilidade do tipo tardia; potencialização da produção das citocinas IL-1β e IL-6 em cultura primária de células residentes do SNC e; piora na severidade dos sintomas clínicos causados pela EAE, que coincide com aumento do infiltrado de linfócitos e macrófagos no SNC e ativação imuneinflamatória das células da glia. Tomados em seu conjunto, os dados do presente trabalho sugerem que condições inflamatórias durante a gestação, particularmente durante o final da gestação, podem predispor o feto a distúrbios autoimunes e neurodegenerativos na vida adulta. / Prenatal period experiences are crucial for the fetal health. The occurrence of maternal infections and subsequent maternal immune system activation cause a number of structural and functional changes in the brain of the offspring that may predispose individuals to psychiatric disorders in post-natal life, such as schizophrenia and autism. However, studies investigating offspring´s immune alterations are still scarce in the literature. The aim of this study was to evaluate, in mice offspring taken from LPS-treated dams, the impact of maternal immune activation on peripheral immune cell activity, central nervous system (CNS) inflammatory response, and development of experimental autoimmune encephalomyelitis (EAE), the murine model of multiple sclerosis. Pregnant female mice received a dose of either saline or lipopolysaccharide (LPS) during late gestation (gestational day 17), and offspring were used in three experiments to analyze: (1) cytokine production and activity by peripheral immune cells and development of delayed type hypersensitivity, (2) production of inflammatory mediators by resident CNS cells and, (3) development of clinical symptoms and immune response during the course of EAE. Our results showed that maternal immune activation resulted in immune alterations in the offspring, such as increased peripheral production of interleukin (IL) -12 and exacerbated response of delayedtype hypersensitivity; enhancement of IL-1β and IL-6 productions in primary CNS resident cells culture and; increased severity of EAE clinical symptoms, which is positively correlated with the increased lymphocytes and macrophages infiltration within the CNS and also with the immune-inflammatory activation of glial cells. Taken together, the data from this study suggest that inflammatory conditions during pregnancy, especially during the late pregnancy, may predispose the fetus to autoimmune and neurodegenerative disorders in adulthood.

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