Global ETD Search

31	Etude du système dopaminergique inhibiteur de la fonction gonadotrope chez le poisson-zèbre / Study of the Dopaminergic Inhibitory System Controlling the Gonadotrope Function in Zebrafish Fontaine, Romain 18 December 2014 (has links) C’est chez un téléostéen qu’il a été démontré pour la première fois que le contrôle stimulateur de l’axe gonadotrope par la GnRH peut être contrebalancé par un contrôle inhibiteur assuré par la dopamine (DA). Ce contrôle dopaminergique inhibiteur a été retrouvé par la suite chez diverses espèces de vertébrés. Cependant l’importance fonctionnelle de cette voie inhibitrice de régulation varie beaucoup d’une espèce à l’autre. Pour approfondir nos connaissances sur ce système dopaminergique inhibiteur de la reproduction, nous avons utilisé le poisson zèbre (Danio rerio), un modèle de vertébrés pour lequel de nombreux outils moléculaires sont disponibles.Nous avons d’abord démontré qu’il existait bien un contrôle dopaminergique de la fonction gonadotrope dans cette espèce: en injectant un antagoniste dopaminergique en même temps qu’un analogue de la GnRH, nous avons pu stimuler l’expression de la LH dans l’hypophyse et réactiver les cycles de ponte chez des femelles âgées sexuellement régressées, un effet qui n’est pas produit par l’agoniste de la GnRH seul. Nous avons ensuite étudié le substrat neuroanatomique de cette action inhibitrice. Après avoir observé l’expression par les cellules à LH des sous-Types de récepteurs D2 qui existent chez le poisson-Zèbre, nous avons mis en évidence de nombreuses terminaisons dopaminergiques sur- ou à proximité- de ces cellules gonadotropes. Nous avons ensuite localisé, par des expériences de traçage rétrograde chez l’adulte, les corps cellulaires des neurones dopaminergiques qui émettent ces projections, dans la partie la plus antéro-Ventrale de l'aire préoptique. Nous avons appelé ces neurones hypophysiotropes: les neurones dopaminergiques préoptico-Hypophysaires (POHDA). Nous nous sommes aussi intéressés au développement des neurones POHDA. Grâce à des repères anatomiques précoces, nous avons pu les répérer précisément au sein de l’aire préoptique et suivre leur apparition sur des embryons de plus en plus jeunes. Nous avons ainsi mis en évidence que les tout premiers neurones POHDA n’apparaissent qu’à partir de 72 heures post-Fécondation (hpf), soit plus de 24 h après les neurones dopaminergiques du noyau suprachiasmatique (SCDA) voisin. Cette différenciation tardive explique probablement pourquoi les neurones POHDA ont jusque-Là été ignorés dans toutes les études de développement. En outre, nous avons montré que contrairement au nombre des neurones SCDA qui reste constant tout au long de la vie du poisson-Zèbre, celui des neurones POHDA continue d’augmenter tant que le poisson continue à grandir de manière allométrique, grâce à une neurogenèse continue. Enfin, nous avons examiné les profils d'expression de plusieurs gènes en relation avec la régionalisation du cerveau antérieur. Cette étude a permis de montrer que les réseaux génétiques impliqués dans le développement des populations SCDA et POHDA sont au moins en partie différents.Ces travaux démontrent pour la première fois l’existence d’un contrôle dopaminergique inhibiteur de la fonction gonadotrope chez le poisson-Zèbre. Ils décrivent l’anatomie de ce système dopaminergique chez l’adulte, sa mise en place au cours du développement et ses capacités de neurogenèse continue. Ils apportent chez le poisson-Zèbre des bases génétiques sur l’identité régionale de l’aire préoptique qui vont permettre d’aborder des études fonctionnelles sur le développement de ces neurones neuroendocrines mal connus. / It was first demonstrated in a teleost fish that the stimulatory control of the gonadotrope axis by GnRH can be counterbalanced by an inhibitory control exerted by dopamine (DA). Later on, this inhibitory dopaminergic control was found in various vertebrate species. However the functional importance of this regulatory pathway varies according to the species. To deepen our knowledge on this inhibitory dopaminergic system, we used the zebrafish (Danio rerio) as a model, in which numerous molecular tools are available.First we demonstrated that DA indeed plays a role in the neuroendocrine control of zebrafish reproduction. By injecting a dopamine receptor antagonist together with an agonist of the GnRH (GnRHa), we were able to stimulate LH expression in the pituitary, and to reactivate the spawning cycles in sexually regressed old females, an effect of which was not produced by the GnRHa alone.We then studied the neuroanatomical basis of this inhibitory control. After observing the expression of the D2-DA receptors subtypes in LH cells, we highlighted numerous dopaminergic terminals on- or in the vicinity of- these cells. We then localized, by DiI retrograde tracing experiments in adult zebrafish, the dopaminergic cell bodies giving rise to these projections in the most antero-Ventral part of the preoptic area. We have called these hypophysiotropic neurons the preoptico-Hypophysial (POH) DA neurons.We next studied the development of POHDA neurons. Taking advantage of early anatomical landmarks, we followed the embryonic development of these cells. We showed that the first POHDA neurons arise at around 72 hours post fertilization (hpf), more than 24 hours later that the DA neurons in the neighbor suprachiasmatic nucleus (SCDA). This late differentiation would explain why POHDA neurons have not been studied in the developing embryo so far. We showed that contrary to the number of the SCDA neurons, which is constant all along the fish life, that of POHDA neurons increases proportionally to the growth of the fish due to continuous neurogenesis. Finally, we examined the expression profiles of developmental genes related to the regionalization of the anterior forebrain. We showed that the genetic networks involved in the development of POHDA and SCDA populations are at least partly different. To summarize, this work demonstrates for the first time the existence of a dopaminergic inhibitory control of gonadotrope function in zebrafish. It describes the anatomy of the preoptico-Hypophyseal dopaminergic system supporting these DA actions and the setting up of these neurons during embryonic development. We show that these neuroendocrine population displays neurogenesis even during adulthood. Our findings also provide the genetic bases for future functional studies on the development of POHDA, a poorly studied neuroendocrine DA population. Dopamine Neuroendocrine Reproduction Développement Poisson-zèbre Dopamine Neuroendocrine Reproduction Development Zebrafish
32	Expression of Neuroendocrine Markers in Normal and Neoplastic Tissue with an Emphasis on Ghrelin and Obestatin Grönberg, Malin January 2010 (has links) The aim of this thesis was to characterize the expression of the peptides ghrelin and obestatin, as well as other neuroendocrine markers in human normal tissues, in invasive breast cancer and a wide panel of neuroendocrine tumors (NETs). In normal tissues the expression of ghrelin and obestatin was mainly localized to the gastric mucosa, and in lesser extent in the remaining gastrointestinal tract, endocrine pancreas and mammary glands. Double immunofluorescence studies demonstrated that ghrelin and obestatin were co-localized in the same cells displaying the same cytoplasmic distribution. In normal breast tissue, ghrelin, obestatin, adrenomedullin, apelin and vesicular monoamine transporter 2 were specifically demonstrated in the luminal epithelial cells. Consecutive sections indicated that mammary epithelial cells could express several of these peptides. Secretogranin II and III were also detected in breast tissue, but their presence was restricted to the outer layer of myoepithelial cells, whereas chromogranin B immunoreactivity was found in both the epithelial and myoepithelial cells. Ghrelin and obestatin immunoreactivity was seen in invasive breast cancer, where the expression could be correlated to factors associated with prognosis. Furthermore, multivariate analysis indicated that ghrelin expression was a possible independent prognostic factor for prolonged recurrence-free and breast cancer-specific survival. In a panel of NETs and endocrine-related disorders it was revealed that ghrelin and obestatin immunoreactivity was primarily found in tumors originating from the respective normal tissues. The two proteins were detected in only a few cases and only occasional tumor cells were immunoreactive. In conclusion, ghrelin and obestatin are localized in the gastrointestinal tract, endocrine pancreas and mammary glands. This thesis has contributed to our understanding of the distribution of ghrelin and obestatin in both normal tissue and tumor cells. A potential role of ghrelin as a prognostic factor in invasive breast cancer has been identified and should be further explored. ghrelin obestatin neuroendocrine marker immunohistochemistry neuroendocrine tumors breast cancer mammary glands MEDICINE MEDICIN
33	Aspects on diagnosis and treatment of gastrointestinal neuroendocrine tumours Swärd, Christina, January 2010 (has links) Diss. (sammanfattning) Göteborg : Univ., 2010.
34	Exposition développementale à l'éthinylestradiol et fonction de reproduction chez la souris : effets neuroendocrines et comportementaux / Developmental exposure to ethinylestradiol and reproductive function in mice : neuroendocrine and behavioral effects Derouiche, Lyes 02 February 2016 (has links) Les réseaux neuroendocrines qui contrôlent la reproduction sont mis en place pendant le développement sous l’action des stéroïdes sexuels endogènes. Toute perturbation de l’équilibre hormonal pendant ces phases critiques pourrait être à l’origine de troubles de la fonction de reproduction chez l’adulte. Ce travail vise à identifier l’impact d’une exposition développementale à un oestrogène de synthèse, l’éthinyloestradiol (EE2), sur les réseaux neuroendocrines et les conséquences physiologiques et comportementales chez l’adulte et sa descendance. Nos résultats ont montré que l’EE2 induit des perturbations des comportements sexuels chez les mâles et chez les femelles et une modification des réseaux hypothalamiques à GnRH et des neurones à calbindine qui contrôlent la physiologie et les comportements reproducteurs. Nous avons également montré que certains effets de l’EE2 sont transmis jusqu’à la quatrième génération, mettant ainsi en évidence le caractère transgénérationnel de ces perturbations. Ces résultats mettent en évidence la sensibilité des réseaux neuroendocrines aux perturbateurs endocriniens et la nécessité de prendre en compte ces paramètres dans l’évaluation de leurs effets sur la santé et la reproduction. / Neuroendocrine networks controlling reproductive function are established during development by the action of endogenous sex steroids. Any disturbance in the hormone balance during these critical phases may cause several disorders in reproductive function in adulthood. This work aims at identifing the consequences of a developmental exposure to the synthetic pharmaceutical estrogen ethinylestradiol (EE2) on the neuroendocrine and behavioral outcomes of the reproductive function in adult individuals and their offspring. Our findings showed that EE2 induced disturbances of sexual behaviors in males and females and modified the GnRH and the calbindin hypothalamic networks of exposed animals. We also showed that some effects of EE2 were transmitted up to the fourth generation, pointing out the transgenerational character of certain effects. All these results highlight the sensitivity of neuroendocrine networks to endocrine disruptors and the need to consider these parameters in assessing their effects on health and reproduction. Ethinyloestradiol Neuroendocrine Reproduction Perturbateurs endocriniens Dimorphisme sexuel Ethinylestradiol Neuroendocrine Reproduction Endocrine disruptors Sexual dimorphism
35	Identification d'un nouveau régulateur et d'une nouvelle fonction de la sénescence cellulaire / Identification of a new regulator and a new function of cellular senescence Ma, Xingjie 13 September 2018 (has links) La sénescence cellulaire, arrêt stable de la prolifération cellulaire, est accompagnée de la sécrétion de nombreux facteurs pro-inflammatoires (programme sécrétoire associé à la sénescence appelé SASP). La sénescence est induite par divers stimuli, et joue un rôle clé dans de multiples contextes physiopathologiques. Cependant, la régulation de la sénescence est encore mal comprise. Notre laboratoire a récemment identifié le récepteur inositol 1,4,5-trisphosphate de type 2 (ITPR2, canal calcique du ER) comme nouveau régulateur de la sénescence. L'expression du gène ITPR2 est réprimée dans la plupart des cancers, mais sa régulation transcriptionnelle est peu connue. Dans ce contexte, le premier objectif de ma thèse était de caractériser de nouveaux régulateurs de l’expression d’ITPR2. Par un criblage (siRNA) et une analyse Nanostring, nous avons identifié le récepteur nucléaire RXRA comme répresseur transcriptionnel d’ITPR2. Nous avons montré que dans les fibroblastes primaires humains, le knockdown de RXRA induit l’expression d’ITPR2 et de ce fait la signalisation calcique, la production d’espèces réactives de l’oxygène (ROS), le dommage de l’ADN et finalement la sénescence via l’activation de la voie p53-p21. Inversement, la surexpression constitutive de RXRA retarde la sénescence réplicative. Les molécules du SASP, induisant ou renforçant la sénescence, peuvent réguler la signalisation calcique. Le deuxième objectif de ma thèse était d’étudier le rôle du SASP et la participation de la signalisation calcique dans celui-ci. Nous avons observé que le SASP induit la sénescence cellulaire accompagnée d’une différenciation neuroendocrine (NED) dans des cellules de cancer du sein. Le SASP induit une accumulation de calcium dans le cytoplasme qui paraît être impliquée dans la régulation de la NED. Une analyse de données d’échantillons de tumeurs du sein humaines et observé que les échantillons positifs pour la NED présentent des marques de sénescence / Cellular senescence is a stable proliferation arrest accompanied with senescence-associated secretory phenotype (SASP). Senescence is induced by diverse stimuli such as telomere shortening and oncogene activation and plays key roles in many physiopathological contexts like embryonic development, cancer and aging. However the molecular mechanisms regulating senescence remain partially understood. Our laboratory recently identified a new senescence regulator: the inositol 1,4,5-trisphosphate receptor type 2 (ITPR2), an ER calcium release channel. ITPR2 is repressed in many cancers, but its transcriptional regulation is barely known. Therefore, the first aim of my thesis was to characterize new ITPR2 regulators. Through siRNA screen and Nanostring analysis, we identified the nuclear receptor RXRA as a transcriptional repressor of ITPR2. We found that in primary human fibroblasts, RXRA knockdown induces ITPR2 expression and thereby calcium signaling, reactive oxygen species (ROS) production, DNA damage and ultimately senescence through p53-p21 axis. Conversely, RXRA overexpression delays replicative senescence. SASP has been described to induce/reinforce senescence, and most of the SASP factors are able to regulate calcium signaling through their receptors. The second aim of my thesis was to investigate the role of the SASP and the participation of calcium signaling in it. We observed that the SASP induces senescence accompanied with a neuroendocrine differentiation (NED) in some breast cancer cells. Interestingly, SASP triggers calcium accumulation in the cytoplasm which seems to be involved in the regulation of NED. We then analyzed human breast tumor datasets and observed that NED-positive samples display some senescence marks: functional p53, low proliferation level and Sprouty 2 expression. Altogether, my work identified RXRA as a new senescence regulator and showed calcium signaling is involved in SASP-induced NED in breast cancer cells Sénescence Signalisation calcique RXRA SASP Différenciation neuroendocrine Senescence Calcium signaling RXRA SASP Neuroendocrine differentiation 570
36	Neural regulation of the pulmonary neuroendocrine system induce mucus overproduction Barrios, Juliana Beverly 12 June 2018 (has links) The major goal of my study is to understand how the nervous system regulates lung function and disease pathophysiology. Asthma, which is a chronic allergic disease in the lung, has been associated with deregulated airway innervation. The two cell types in the lung that are innervated are airway smooth muscle cells and pulmonary neuroendocrine cells (PNECs). Given that asthma often starts in early childhood, prior research established a neonatal mouse model of allergen exposure to facilitate functional studies of nerves in the development of asthma. Our previous findings showed that allergen exposure to developing, postnatal lungs upregulated levels of neurotrophin 4 (NT4), and caused airway hyperinnervation associated with persistent mucus overproduction. In this work, I describe a novel role of the pulmonary neuroendocrine system in promoting mucus overproduction in early life through deregulated GABAergic signaling. PNECs are the only innervated epithelial cells and express a variety of neuropeptides and bioactive amines. However, how neural innervation affects PNEC secretion and function in disease is not known. Here, I demonstrated that PNECs were the only source of gamma-Aminobutyric acid (GABA) in airways and that GABA hypersecretion from PNECs was required for mucus overproduction following early life allergen exposure. Further, mice lacking NT4 were protected from allergen-induced PNEC hyperinnervation, GABA hypersecretion, and thus mucus overproduction, all which could be rescued with addition of GABA. These findings link PNECs and allergen-induced mucus overproduction through NT4-dependent innervation. Notably, like mice, infant nonhuman primates exhibit PNEC hyperinnervation following early life exposure to ozone and allergens. In addition, I demonstrate that GABA acts in concert with interleukin-13 to induce the proliferation of mucus-producing goblet cells in human airway epithelium cell cultures. Lastly, building upon our previous observations that mast cells contributed to the elevated NT4 levels after allergen exposure, I initiated a research project that investigates the function of a discrete, resident mast cell in: NT4 expression, PNEC innervation, and mucus overproduction. Together, my findings address a novel fundamental role of the neuroendocrine system biology in animal models of asthma. Targeting the nerve–PNEC axis may be a valid treatment strategy for mucus overproduction in asthma. / 2020-06-12T00:00:00Z Molecular biology Allergen Asthma Childhood Nerve Neurotrophins Pulmonary neuroendocrine system
37	Neuroendocrine Stress Response after Burn Trauma Lindahl, Andreas January 2013 (has links) Some aspects of the stress response during acute intensive care for severe burns are described and quantified by measuring hormonal and neuroendocrine patterns and relating these to organ function in the short term. This includes an assessment of whether there are markers for the severity of stress that are better than conventional descriptors of the severity of a burn in predicting failing organ function. P-CgA after a major burn injury is an independent and better predictor of organ dysfunction assessed as SOFA score than the traditionally used TBSA% burned. The results also suggest that the extent of neuroendocrine activation is related to organ dysfunction, and this motivates a more extensive effort to evaluate P-CgA as a prognostic marker with respect to mortality and long-term outcome. P-NT-proBNP exhibited a complex pattern with considerable inter-individual and day-to-day variations. Values of P-NT-proBNP were related to size of burn, water accumulation and systemic inflammatory response. A considerable covariation with trauma response and SOFA scores was observed in day by day analyses, but with weight change only on day 2. Maximum P-NT-proBNP showed a stronger correlation with SOFA score on day 14, with mortality, and with LOS, than did age and TBSA% burned. High values were also independent predictors of all subsequent SOFA scores up to two weeks after injury. P-NT-proBNP and NT-proANP reflect and predict organ function after burn injury similarly, notwithstanding a significantly larger intra-individual variability for P-NT-proBNP. P-NT-proBNP, but not NT-proANP, reflects the systemic inflammatory trauma response. Free cortisol concentration was related to the size of burns, as was the circadian cortisol rhythm. This effect of burn size was, at least in part, related to its effect on organ function. This thesis points to the fact that the stress response is richly interwoven, and cannot be adequately assessed by one biomarker only. All biomarkers studied here can be viewed as representing efferent limbs of the stress reaction, and they would need to be supplemented by biomarkers representing individual physiologic responses that follow the stress signaling. Burn Injuries Neuroendocrine Intensive Care Cortisol Chromogranin A Natriuretic peptides
38	Mechanisms for endocrine disrupting chemical action on sexual differentiation of the rat brain Dickerson, Sarah Michelle 09 February 2011 (has links) Endocrine disrupting chemicals (EDCs) are a class of environmental toxicants, of both natural and synthetic origin, that interfere with normal endocrine function. Exposure to EDCs during susceptible periods of development, particularly embryogenesis, can result in profound neurological and reproductive deficits. While the impact of developmental exposure to EDCs on reproductive function and behavior has been much studied, the underlying mechanisms responsible for these observed effects are not well understood. The goal of the research detailed in this dissertation is to elucidate the cellular and molecular targets by which a representative class of EDCs, polychlorinated biphenyls (PCBs), disrupts normal reproductive neuroendocrine function. My specific hypothesis is that PCBs cause changes in sexually dimorphic brain regions underlying sex-specific reproductive physiology and behavior through the perturbation of normal developmental apoptosis, with long-term consequences for reproductive success. The studies detailed herein focus on three areas which contribute to an understanding of the effects of PCBs on neuroendocrine reproductive function: (1) the in vitro effects of PCBs on a neuroendocrine cell line, (2) developmental effects of PCBs on the gestationally exposed F1 generation, and (3) the physiological consequences of these developmental alterations for adult reproductive function. In the first section of this dissertation, the neurotoxic and endocrine disrupting effects of PCBs on a representative developing neuroendocrine cell model, the GT1-7 GnRH cell line, are investigated in time- and dose-response experiments. Treatment and dose-dependent effects are observed for GnRH peptide concentrations, cell viability, apoptotic and necrotic cell death, and caspase activation. In general, GnRH peptide levels are suppressed by high doses and longer durations of PCBs, and elevated at low doses and shorter time points. The suppression of GnRH peptide levels was partially reversed in cultures co-treated with the estrogen receptor antagonist ICI 182,780. All PCBs tested reduced viability and increased both apoptotic and necrotic cell death. The second section of this dissertation examines whether prenatal PCB exposure alters normal neuroendocrine development in the F1 generation, including sexual differentiation of the brain. Disruption of hypothalamic development is detectable as early as the day after birth (postnatal day (P) 1), as indicated by abnormal programmed cell death, and alterations in neuroendocrine gene and protein expression. The third section discusses the physiological impact of developmental PCB exposure on reproductive maturation and adult neuroendocrine function. Pubertal onset is advanced and estrous cyclicity irregular in PCB endocrine-disrupted females. Furthermore, sexual differentiation of female neuroendocrine systems is masculinized/defeminized. Collectively, these results suggest that the disrupted sexual differentiation of the POA can be detected as early as the day after birth, effects that may underlie the adult reproductive phenotype. / text Endocrine disruption Sexual differentiation Neuroendocrine development Polychlorinated biphenyls Hypothalamus
39	Consequences of Negative Energy Balance on Avian Reproductive Physiology: Endocrine and Metabolic Mediators January 2018 (has links) abstract: Reproduction is energetically costly and seasonal breeding has evolved to capitalize on predictable increases in food availability. The synchronization of breeding with periods of peak food availability is especially important for small birds, most of which do not store an extensive amount of energy. The annual change in photoperiod is the primary environmental cue regulating reproductive development, but must be integrated with supplementary cues relating to local energetic conditions. Photoperiodic regulation of the reproductive neuroendocrine system is well described in seasonally breeding birds, but the mechanisms that these animals use to integrate supplementary cues remain unclear. I hypothesized that (a) environmental cues that negatively affect energy balance inhibit reproductive development by acting at multiple levels along the reproductive endocrine axis including the hypothalamus (b) that the availability of metabolic fuels conveys alterations in energy balance to the reproductive system. I investigated these hypotheses in male house finches, Haemorhous mexicanus, caught in the wild and brought into captivity. I first experimentally reduced body condition through food restriction and found that gonadal development and function are inhibited and these changes are associated with changes in hypothalamic gonadotropin-releasing hormone (GnRH). I then investigated this neuroendocrine integration and found that finches maintain reproductive flexibility through modifying the release of accumulated GnRH stores in response to energetic conditions. Lastly, I investigated the role of metabolic fuels in coordinating reproductive responses under two different models of negative energy balance, decreased energy intake (food restriction) and increased energy expenditure (high temperatures). Exposure to high temperatures lowered body condition and reduced food intake. Reproductive development was inhibited under both energy challenges, and occurred with decreased gonadal gene expression of enzymes involved in steroid synthesis. Minor changes in fuel utilization occurred under food restriction but not high temperatures. My results support the hypothesis that negative energy balance inhibits reproductive development through multilevel effects on the hypothalamus and gonads. These studies are among the first to demonstrate a negative effect of high temperatures on reproductive development in a wild bird. Overall, the above findings provide important foundations for investigations into adaptive responses of breeding in energetically variable environments. / Dissertation/Thesis / Doctoral Dissertation Biology 2018 Endocrinology Physiology Neurosciences Avian Endocrine Food restriction Metabolism Neuroendocrine Reproduction
40	Rb and p53 Execute Distinct Roles in the Development of Pancreatic Neuroendocrine Tumors / Rbとp53は、膵神経内分泌腫瘍形成において異なる役割を果たす Yamauchi, Yuki 24 May 2021 (has links) 京都大学 / 新制・論文博士 / 博士(医学) / 乙第13418号 / 論医博第2226号 / 新制\|\|医\|\|1052(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授羽賀博典, 教授長船健二, 教授伊藤貴浩 / 学位規則第4条第2項該当 / Doctor of Medical Science / Kyoto University / DFAM pancreas neuroendocrine tumor Rb p53 mTOR pathway 490

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