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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.
131

Neural mechanism of play fighting – neural circuitry, vasopressin, and CRH – in juvenile golden hamsters

Cheng, Shao-Ying 19 October 2009 (has links)
Play fighting is common in juvenile mammals as a peri-pubertal form of agonistic behavior preceding adult aggressive behavior. In golden hamsters, play fighting peaks in early puberty around postnatal day 35 (P-35), and gradually matures into adult aggression in late puberty. Though extensively studied, the neural mechanisms underlying play fighting remains poorly understood. My dissertation focuses on identifying the neural circuitry and neural transmitter systems that mediate this behavior in juvenile golden hamsters. Based on behavioral similarities between the offensive components of play fighting and adult aggression, I predicted that the neural circuitries mediating both behaviors shared common components. This possibility was tested by quantifying the immunolabeling of c-Fos expression in juvenile hamsters after the consummation of play fighting. In support of my hypothesis, I found that areas previously associated with offensive aggression in adult hamsters, including the ventrolateral hypothalamus (VLH), the posterior dorsal part of the medial amygdala (MePD), and the bed nucleus of the stria terminalis (BST), also showed enhanced c-Fos expression after play fighting, which supported my hypothesis. Vasopressin (AVP) facilitates aggression in adult hamsters. Therefore, I hypothesized that AVP also activates play fighting. To test my hypothesis, juvenile male golden hamsters were tested for play fighting after they received central microinjections of an AVP V1A-receptor antagonist into the anterior hypothalamus (AH). Also, immunocytochemistry was performed to identify possible AVP neurons associated with this behavior. I found that the AVP antagonist selectively inhibited the attack components of play fighting in experimental animals. In addition, AVP cells in the nucleus circularis (NC) and the medial division of the supraoptic nucleus (mSON), which were associated with offensive aggression, also showed increased c-Fos activity after play fighting. Together, these results show that AVP facilitates offensive behaviors throughout hamster development, from play fighting in juveniles to aggression in adults. A recent study shows that oral administration of a CRH receptor antagonist inhibits aggression in adult hamsters. Therefore, I predicted that CRH plays a similar role in play fighting. To test my prediction, juvenile hamsters were tested for play fighting after central microinjections of a CRH receptor antagonist. I found that microinjections of the CRH receptor antagonist within the lateral septum (LS) resulted in an inhibition of several aspects of play fighting. The possible source of CRH affecting the behavior was tested through combined immunocytochemistry to CRH and c-Fos. I found CRH neurons in the diagonal band of Broca (DBB), an area with extensive connections with the LS, were particularly activated in association with play fighting. In conclusion, I find that shared neural elements participating in the “vertebrate social behavior neural network” are associated with both aggression and play fighting in hamsters. This circuitry is activated before the onset of puberty and is affected by rising levels of steroid hormones during the developmental period leading to adult behaviors. Within the circuitry, vasopressin release in the AH appears to control the activation of play fighting attacks. In contrast, CRH release in the LS affects a broader range of aspects of play fighting, including not just consummatory aspects of the behavior, but apparently also appetitive components in the form of contact duration. / text
132

Hypothalamic defaults after traumatic brain injury / Défauts hypothalamiques après traumatisme crânien

Osterstock, Guillaume 14 December 2012 (has links)
Les travaux de cette thèse ont porté sur le contrôle des neurones à GHRH dans des conditions physiologiques et pathologiques. Le but étant de caractériser les mécanismes cellulaires et moléculaires impliqués dans le fonctionnement ou dérégulations du réseau de neurones à GHRH. Ces neurones sont les principaux stimulateurs de la libération de l’hormone de croissance (GH). Nous avons d’abord montré que l’axe de la croissance et de l’appétit peuvent être régulés indépendamment au niveau de l’hypothamus. En effet, la ghréline, seule hormone produite par le tractus gastro-intestinal et connue pour stimuler la libération de GH en agissant principalement sur les neurones GHRH, stimule ces derniers de manière uniquement directe. Ces effets sont indépendants de ceux qu’elle exerce sur les neurones voisins à NPY, orexigéniques. De plus, la ghréline et les GHS (agonistes sélectifs du récepteur de la ghréline) ne changent pas le mode de décharge électrique des neurones à GHRH ni ne les synchronise. Enfin, ces effets ne présentent pas de dimorphisme sexuel. Dans un second temps, la somatostatine, principal inhibiteur de l’axe GH, induit un rythme d’activité électrique des neurones à GHRH médié par les récepteurs de sous-type SST1 et SST2. Ces effets sont donc temps-dépendants, et aussi sexuellement dimorphiques. Ils sont probablement impliqués dans la modulation de la pulsatilité ultradienne de la libération de GH. Enfin, après un traumatisme crânien, nous observons un déficit de la libération de GH qui apparaît tôt et est soutenu, comme ceux observés chez l’humain. Aucune inflammation ni changement histologique n’a été observe dans l’hypophyse. Cependant, l’inflammation, impliquant une réaction tanycytaire, microgliale, astrocytaire, est présente dans le noyau arqué et l’éminence médiane (EM), ou sont respectivement présents les corps cellulaires et terminaisons des neurones à GHRH. Ceci est lié à des changements morpho-fonctionnels de l’EM (augmentation perméabilité, rupture des barrières tanycytaires). Aucun changement n’a été observé dans le noyau périventriculaire, où sont localisés les neurones à somatostatine. Enfin, les propriétés électriques passives des neurones à GHRH ne sont pas modifiées. En conclusion, une dérégulation de leur activité au niveau des terminaisons nerveuses doit expliquer les défauts posttraumatiques de libération de GH. / The works of this thesis were interested in the control of the hypothalamic GHRH neurons in physiological and pathological conditions. The goal was to clarify the molecular and cellular mechanisms involved in the control or impairments of GHR neuronal network functions. These neurons are the main stimulators of the GH release. We first showed that the hypothalamic growth axis could be regulated independently from the feeding network. Indeed, GHRH neurons are directly stimulated by ghrelin, which is the only hormone produced by the gastrointestinal tract known to stimulate the GH release through acting mainly on GHRH neurons. These effects are independent from its orexigenic effects exerted on the neighbourings NPY neurons. In addition, ghrelin and GHS (synthetic ghrelin receptor agonists) don’t change neither the firing rate of GHRH neurons, nor synchronize them. These effects are not gender-dependant; by contrast, Somatostatin, the major GH axis inhibitor, generates a sexual dimorphic and rhythmic inhibition of the GHRH neurons electrical activity mediated by its SST1 and SST2 receptors subtypes. These effects are so time-dependant direct and indirect effects and can probably be involved in the generation of the ultradian rhythm of the GH release. After a traumatic brain injury, we found an early and sustained deficiency of the GH release, like those observed in human. No pathological changes are visible in the pituitary gland. Inflammation occurs at the arcuate nucleus, and mainly at the median eminence levels; it involves a strong astrocyte reaction, tanycytes, and microglial and (or) infiltrated immune cells activations. These changes elicit morpho-functional impairments of the median eminence, permeability and leakage of the tanycyte barrier between the blood, CSF and Arc; at the opposite, nothing occur at the periventricular level, where are located SST neurons. Neither the number of GHRH neurons, neither their passive electrophysiological properties changed. Impairments of the activities of the GHRH nerve terminals, maybe associated to impairments of their regulated activity, must explain a GH deficiency.
133

Disfunção na resposta imune no transtorno bipolar e risco de suicídio: associação entre níveis periféricos do hormônio liberador de corticotropina e da interleucina-1 / Immune dysfunction in bipolar disorder and suicide risk: Is there an association between peripheral corticotropin release hormone and interleukin-1?

Monfrim, Xênia Martins 24 January 2014 (has links)
Made available in DSpace on 2016-03-22T17:27:35Z (GMT). No. of bitstreams: 1 xenia1.pdf: 708937 bytes, checksum: cc885d49bb2a8c9ada32a3218f9e37f3 (MD5) Previous issue date: 2014-01-24 / Objective: To investigate the relationship between peripheral levels of corticotropin releasing hormone (CRH) and interleukin-1 (IL-1) in BD individuals with and without suicide risk (SR) and controls. Methods: 120 young adults (40 controls, 40 BD subjects without SR and 40 BD subjects with SR) were enrolled from a population-based study carried out in the city of Pelotas, (Brazil). BD and SR were assessed with MINI 5.0 and peripheral markers were evaluated by ELISA. Results: Levels of CRH were significantly lower both in BD subjects without SR (p = 0.04) or with SR (p = 0.02) when compared to control. However, levels of IL-1 were increased in BD subjects with SR (p = 0.05) when compared to control. Socio-demographic and clinical variables, current mood episode and use of psychiatry medication were not associated with changes in these markers. No correlation was found between peripheral levels of CRH and IL-1 (p = 0.60) in the population or in BD with SR group (p = 0.88) Conclusions: These results suggest that peripheral mechanisms linking stress hormones and the immune system might be critical patterns involved in suicidal behavior associated with BD / Avaliar se existem alterações nos níveis periféricos do hormônio liberador de corticotropina (CRH) e na interleucina-1 (IL-1) em pacientes com transtorno bipolar, com ou sem risco de suicídio comparando com indivíduos sem transtornos de humor. 2.3.2. Objetivos específicos 1. Avaliar os níveis séricos de CRH e IL-1 em pacientes com diagnóstico de transtorno bipolar comparando com controles sem transtornos de humor; 2. Comparar os níveis séricos de CRH e IL-1 em pacientes com diagnóstico de transtorno bipolar com e sem risco de suicídio, e controles sem transtornos de humor; 3. Investigar se existe algum efeito da diferença de gênero, idade, atividade física, índice de massa corporal e fatores sócio- demográficos com os níveis de CRH e IL-1 em pacientes bipolares com e sem risco de suicídio e controles. 4. Verificar se existem alterações nos níveis periféricos de CRH e IL-1 durante os episódios atuais de humor dentro do transtorno bipolar. 5. Verificar se existem uma correlação entre os níveis periféricos de CRH e IL-1
134

Differential mRNA expression of gonadotropin-releasing hormone (GnRH) and GnRH receptor in normal and neoplastic rat prostates.

January 1998 (has links)
by Lau Hoi Lun. / Thesis (M.Phil.)--Chinese University of Hong Kong, 1998. / Includes bibliographical references (leaves 83-96). / Abstract also in Chinese. / Abstract --- p.i / Acknowledgements --- p.iv / Abbreviations --- p.v / Table of contents --- p.vi / Chapter Chapter 1 --- Introduction / Chapter 1.1 --- Endocrine control of normal and abnormal growth of prostate --- p.1 / Chapter 1.1.1 --- Androgen regulation of prostate gland --- p.1 / Chapter 1.1.2 --- Estrogen regulation of prostate gland --- p.4 / Chapter 1.2 --- Gonadotropin-releasing hormone plays a central role in reproduction --- p.6 / Chapter 1.2.1 --- GnRH gene --- p.7 / Chapter 1.2.2 --- GnRH receptor --- p.9 / Chapter 1.3 --- Therapeutic strategies using GnRH analogs to treat prostate cancer --- p.12 / Chapter 1.4 --- Expression of GnRH or its receptor in reproductive tissues --- p.12 / Chapter 1.4.1 --- Expression of GnRH in reproductive --- p.13 / Chapter 1.4.2 --- Expression of GnRH and its receptor in pituitary and reproductive tissues --- p.13 / Chapter 1.5 --- Animal models for the study of prostate cancer --- p.15 / Chapter 1.5.1 --- Nobel rat inducible model --- p.15 / Chapter 1.5.2 --- Androgen dependent rat Dunning prostatic tumor --- p.16 / Chapter 1.5.3 --- Androgen-independent prostatic carcinoma line of Noble rat --- p.18 / Chapter 1.6 --- Aim of study --- p.18 / Chapter Chapter 2 --- Materials and Methods / Chapter 2.1 --- Origin and supply of Nobel rat --- p.20 / Chapter 2.2 --- Induction of dysplasia in Nobel rat prostate gland by long-term treatment with steroids --- p.20 / Chapter 2.2.1 --- Chemicals --- p.20 / Chapter 2.2.2 --- Preparation of steroid hormone-filled Silastic tubings --- p.20 / Chapter 2.2.3 --- Surgical implantation of Silastic® tubings --- p.21 / Chapter 2.2.4 --- Protocols of hormonal treatments --- p.21 / Chapter 2.3 --- Androgen- dependent Dunning rat prostatic adenocarcinoma --- p.22 / Chapter 2.4 --- Androgen- independent prostatic carcinoma line (ALT) of Noble rat --- p.22 / Chapter 2.5 --- Detection of mRNA expression of gonadotropin- releasing hormone (GnRH) in normal and neoplastic rat prostates --- p.23 / Chapter 2.5.1 --- Preparation of tissue for total RNA extraction --- p.23 / Chapter 2.5.2 --- Total RNA extraction --- p.24 / Chapter 2.5.3 --- Reverse-transcription Polymerase Chain Reaction (RT-PCR) --- p.25 / Chapter 2.5.4 --- Purification of DNA fragments from agarose gels --- p.27 / Chapter 2.5.5 --- Subcloning of DNA into vector --- p.27 / Chapter 2.5.6 --- Nucleotide sequencing --- p.30 / Chapter 2.5.7 --- Southern blot analysis --- p.32 / Chapter 2.5.7.1 --- Southern blotting --- p.32 / Chapter 2.5.7.2 --- Preparation of α-32P-dCTP labelled GnRH probe --- p.32 / Chapter 2.5.7.3 --- Hybridization --- p.33 / Chapter 2.6 --- Detection of mRNA expression of gonadotropin-releasing hormone receptor (GnRH-R) in normal and neoplastic rat prostates --- p.34 / Chapter 2.6.1 --- Cloning of GnRH-R cDNA and synthesis of its probe --- p.34 / Chapter 2.6.2 --- Detection of GnRH receptor mRNA expression in normal and dysplastic Nobel rat prostates by Southern blot --- p.36 / Chapter 2.6.3 --- Detection of GnRH receptor mRNA expression in Dunning tumor --- p.37 / Chapter 2.6.4 --- Detection of the GnRH receptor mRNA expression in AIT tumor by RT-PCR --- p.37 / Chapter Chapter 3 --- Results / Chapter 3.1 --- Detection of mRNA expression of gonadotropin-releasing hormone (GnRH) in normal and neoplastic rat prostates --- p.38 / Chapter 3.1.1 --- Reverse -transcription Polymerase Chain Reaction (RT-PCR) --- p.38 / Chapter 3.1.2 --- Purification of DNA fragments amplified by PCR from the agarose gel --- p.38 / Chapter 3.1.3 --- Subcloning of DNA into vector --- p.39 / Chapter 3.1.4 --- Nucleotide sequencing --- p.39 / Chapter 3.1.5 --- Southern-blot analysis --- p.39 / Chapter 3.2 --- Detection of gonadotropin-releasing hormone receptor mRNA expression in normal and neoplastic rat prostates --- p.40 / Chapter 3.2.1 --- Cloning of gonadotropin-releasing hormone receptor (GnRH) cDNA and synthesis of probe from the normal Noble rat pituitary gland --- p.40 / Chapter 3.2.2 --- Detection of GnRH receptor mRNA expression in normal and dysplastic Nobel rat prostates --- p.42 / Chapter 3.2.3 --- Detection of GnRH receptor mRNA expression in rat Dunning tumor by PCR --- p.43 / Chapter 3.2.4 --- Detection of GnRH receptor mRNA expression in AIT tumor --- p.43 / Chapter Chapter 4 --- Discussion / Chapter 4.1 --- Detection of mRNA expression of gonadotropin-releasing releasing hormone(GnRH) in normal and neoplastic rat prostates --- p.69 / Chapter 4.1.1 --- Expression of GnRH mRNA in normal Nobel rat prostate gland --- p.69 / Chapter 4.1.2 --- Expression of GnRH mRNA in dysplastic Nobel rat prostate --- p.71 / Chapter 4.1.3 --- Expression of GnRH mRNA in androgen-dependent rat Dunning prostatic tumor --- p.72 / Chapter 4.1.4 --- Expression of GnRH mRNA in AIT tumor --- p.74 / Chapter 4.2 --- Detection of GnRH receptor in normal and dysplastic rat prostates --- p.75 / Chapter 4.2.1 --- Negative expression of GnRH receptor in normal and dysplastic Nobel in rat prostates --- p.75 / Chapter 4.2.2 --- Positive expression of GnRH receptor mRNA in rat Dunning tumor --- p.77 / Chapter 4.2.3 --- Negative expression of GnRH receptor mRNA in ALT tumor --- p.78 / Chapter Chapter 5 --- Summary and Conclusions --- p.80 / References --- p.83
135

Conséquences pharmacologiques et fonctionnelles de l'hétérodimérisation des récepteurs V1B et CRF1 / Functional correlates of V1B/CRF1 receptor heterodimerization

Mion, Julie 28 October 2013 (has links)
La vasopressine (AVP) et la corticolibérine (CRF) agissent de manière synergique lors de la réponse aux stimuli stressants. Elles régulent de manière concertée la sécrétion d'adrénocorticotrophine hypophysaire et la libération de catécholamines surrénalienne. Dans ces deux structures, les isoformes de récepteurs présents sont les récepteurs V1B et CRF1. Nous avons démontré que deux mécanismes moléculaires sous-tendent la synergie fonctionnelle de l'AVP et du CRF : un croisement des voies de seconds messagers propres à chacun des récepteurs d'une part, et une modification de leurs propriétés pharmacologiques résultant de leur interaction (hétérodimérisation) d'autre part. Pour valider ce dernier mécanisme, nous avons recherché des formes naturelles ou mutées de récepteurs à l'AVP et au CRF conservant leurs propriétés de couplage aux protéines G, mais incapables d'hétérodimériser, et avons analysé les conséquences de cette rupture d'hétérodimérisation sur leur aptitude à agir en synergie. Grâce à une approche de mutagénèse dirigée, nous avons commencé à résoudre la question des portions de récepteurs engagées dans l'hétérodimérisation. Les résultats obtenus apportent les premières évidences permettant de comprendre la synergie AVP/CRF au niveau moléculaire, et particulièrement le rôle de l'hétérodimérisation. L'hétérodimère V1B/CRF1 pourrait être impliqué dans le stress et ses états pathologiques que sont l'anxiété et la dépression. Nous montrons que les récepteurs V1B et CRF1 sont co-exprimés dans les neurones de certaines structures cérébrales régulant ces phénomènes comportementaux. Démontrer l'existence de l'hétérodimère V1B/CRF1 dans des tissus natifs sera la prochaine étape de ce travail. Si elle est validée, le complexe V1B/CRF1 pourra être considéré comme une cible pharmacologique de première importance dans le traitement de l'anxiété et de la dépression. Travail soutenu par l'Institut de Recherches SERVIER et la Fondation pour la Recherche Médicale. / Vasopressin (AVP) and Corticotropin-Releasing Factor (CRF) are involved in the stress response, mainly by regulating ACTH secretion from the pituitary and by increasing catecholamine and corticosteroids secretion from the adrenal medulla. In these two structures, AVP and CRF have been shown to act in synergism via V1B and CRF1 receptors. Recently, our group demonstrated that such synergism operates via both second messenger crosstalk and putative mechanism involving receptors heterodimerization. To further validate this last original mechanism, we monitored the influence of receptor heterodimerization selectivity and of receptor heterodimerization disruption on functional synergism. We also deciphered receptor dimers interface by synthesizing receptor mutants that do not heterodimerize anymore.These results give clues to the comprehension of AVP/CRF synergism at the molecular level and trigger the potential role of receptors heterodimerization in stress-related behaviours. Indeed both V1B and CRF1 are also co-expressed in neurons of relevant brain area. Establishing the physical association of V1B/CRF1 as heterodimers in native tissue, the next step of our project, would be of considerable importance.Work supported by SERVIER (France) an d the FRM.
136

Estudo do gene do receptor de GnRH (GNRHR) no hipogonadismo hipogonadotrófico isolado normósmico e atraso constitucional do crescimento e desenvolvimento / Study of GNRHR gene in isolated hypogonadotropic hypogonadism and constitutional delay of growth and puberty

Deus, Daiane Beneduzzi de 19 November 2013 (has links)
Mutações inativadoras do receptor de GnRH (GNRHR) são a causa genética mais frequente de hipogonadismo hipogonadotrófico isolado (HHI) normósmico. Os genes envolvidos da patogênese do HHI, incluindo o GNRHR, estão associados a um amplo espectro fenotípico, variando de HHI parcial a completo. O atraso constitucional do crescimento e desenvovimento (ACCD) poderia constituir uma variante fenotípica leve do HHI. Neste estudo avaliamos a frequência de mutações no gene GNRHR em pacientes com HHI normósmico e ACCD, bem como correlacionamos o genótipo/fenótipo nesses pacientes. Além disso, avaliamos o efeito fundador de uma mutação do GNRHR (p.R139H) frequente na população brasileira com HHI normósmico. Para esse estudo, selecionamos 116 pacientes com HHI normósmico e 51 com ACCD. Um grupo de 130 indivíduos com desenvolvimento puberal normal foi utilizado como controle. A região codificadora do gene GNRHR foi amplificada por PCR e sequenciada. Análises in silico e in vitro foram realizadas nas duas novas variantes (p.V134G e p.Y283H). Três marcadores de microssatélites (D4S409, D4S2387, D4S3018) foram amplificados e analisados nos pacientes portadores da mutação p.R139H, familiares e controles. No grupo de HHI normósmico, nove mutações (p.N10K,p.Q11K, p.Q106R, p.R139H, p.C200Y, p.R262Q, p.Y284C, p.Y283H, p.V134G) foram identificadas em onze pacientes (9,5%). Entre as mutações identificadas no GNRHR, duas foram descritas pela primeira vez no estudo atual: p.Y283H e p.V134G, cuja análise in vitro demonstrou inativação completa do receptor. Em geral, uma boa correlação genótipo-fenótipo foi observada. Pacientes portadores de mutações inativadoras apresentavam HHI completo e mutações com perda parcial de função causavam HHI parcial, incluindo dois pacientes que evoluíram com reversão do hipogonadismo após reposição androgênica. Por outro lado, não houve diferença fenotípica entre os casos com e sem mutação do GNRHR. Análise de ancestralidade genética da mutação p.R139H demonstrou que todos os casos brasileiros apresentaram o mesmo haplótipo, sugerindo que a mutação p.R139H possui um ancestral comum na população brasileira. Por outro lado o caso familial proveniente da Polônia apresentou apenas um marcador em comum com as famílias brasileiras e estudos mais abrangentes seriam necessários para determinar a origem da mutação p.R139H em indivíduos não Brasileiros. Na casuística de ACCD apenas a mutação p.Q106R foi identificada no gene GNRHR em heterozigose em um paciente. Em conclusão, o GNRHR foi o gene mais comumente afetado, apresentando uma boa correlação genótipo-fenótipo, e deve ser o primeiro candidato para análise genética em HHI normósmico. Os resultados sugerem que a mutação p.R139H possui um ancestral comum na população brasileira. Mutações no GNRHR parecem não estar envolvidas na patogênese do ACCD / GnRH receptor (GNRHR) inactivating mutations are the most common genetic cause of normosmic IHH. The genes involved in the IHH, including GNRHR, have been associated with a large phenotypic spectrum, varying from partial to complete IHH. Constitutional delay of growth and puberty (CDGP) might represent a mild phenotypic variant of IHH. In this study we investigated novel variants and characterized the frequency and phenotype-genotype correlation of GNRHR mutations in normosmic IHH and CDGP patients. Additionally, we determined de cause of the recurrence of GNRHR p.R139H mutation in patients with normosmic IHH. We studied 116 patients with normosmic IHH and 51 with CDGP. The control group was composed by 130 adults with normal pubertal development. The coding region of GNRHR was amplified and automatically sequenced. The two novel variants identified (p.Y283H, p.V134G) were submitted to in silico and in vitro analysis. Three microsatellite markers (D4S409, D4S2387, D4S3018) were amplified by PCR and analyzed in the patients with the p.R139H mutation. In the CDGP group, the previously described mutation p.Q106R was identified in the heterozygous state in one boy. The p.Q106R mutation has been identified in heterozygous state in individuals with normal pubertal development and does not appear be involved on the CDGP phenotype in this patient. In the normosmic IHH group, nine variants were identified (p.N10K, p.Q11K, p.Q106R, p.R139H, p.C200Y, p.R262Q, p.Y284C, p.Y283H, p.V134G) in eleven patients (9.5%). In vitro analysis of the novel variants p.Y283H and the p.V134G demonstrated that both of them cause complete loss of function of the receptor. The founder effect study revealed that all the p.R139H affected Brazilian patients presented the same haplotype, suggesting that the this mutation has a common ancestor in the Brazilian population. Nevertheless the affected Polish family presented a different haplotype, with only one marker in common with the Brazilian families and further studies would be necessary to determine the origin of the p.R139H mutation in the European population. In conclusion this study demonstrated that GNRHR was the most commonly affected gene in normosmic IHH, with a good genotype-phenotype correlation, and should be the first candidate gene for genetic screening in this condition. The results of the founder effect study suggested that the p.R139H mutation has a common ancestor in the Brazilian population. Finally, mutations in the GNRHR do not appear to be involved in the pathogenesis of CDGP
137

Growth hormone secretagogue receptors: cell signalling and receptor oligomerization. / CUHK electronic theses & dissertations collection

January 2005 (has links)
In a HEK 293 cell line stably expressing seabream GHS-R1a (sbGHS-R1a), we found that a synthetic growth hormone secretagogue (GHS) increased [ 3H]-inositol phosphate production, clearly indicating coupling of this receptor to Gq/11-proteins. Using Western blotting, we found that GHS could also stimulate extracellular signal-regulated kinases 1 and 2 (ERK1/2), and that this response was inhibited by the MEK inhibitor U0126. For both the [3H]-inositol phosphate and ERK1/2 assays, the presence of the GHS-R antagonist D-Lys(3)-GHRP-6 significantly inhibited the GHS-stimulated activities, and in addition inhibited basal activities by 50% and 40%, respectively. These results showed that sbGHS-R1a is a constitutively active receptor and the antagonist D-Lys(3)-GHRP-6 is an inverse agonist. We also proposed that the expression of sbGHS-Rs was involved in the regulation of cell apoptosis. / Oligomerization of the human GHS-Rs (hGHS-Rs) was explored by transient transfection of the hGHS-Rs in HEK 293 cells followed by co-immunoprecipitation of differentially epitope-tagged forms of the receptors and bioluminescence resonance energy transfer 2 (BRET2) studies. (Abstract shortened by UMI.) / The concept that G protein-coupled receptors (GPCRs) exist and potentially function as dimers and/or higher oligomers has progressed from hypothesis to being widely accepted recently. Oligomerization of GPCRs has been increasingly noted in the regulation of the biological activity of the receptors. The growth hormone secretagogue receptor 1a (GHS-R1a) is a GPCR which principally regulates the pulsatile release of growth hormone from the pituitary gland. The GHS-R exists in two forms: GHS-R1a being a constitutively-active GPCR with 7 transmembrane (TM) domains, and GHS-R1b being a truncated version of type 1a but having only 5 TM domains. The endogenous agonist for GHS-R1a is ghrelin which exerts a wide range of physiological actions, but the function of GHS-R1b is still unclear. Since the tissue distribution patterns of the two isoforms of GHS-R are different, the objective of the present study is to explore the mechanisms of cell signalling of GHS-R1a and to determine the extent and importance of interactions between these two receptor isoforms. / Leung Po Ki. / "July 2005." / Adviser: Helen Wise. / Source: Dissertation Abstracts International, Volume: 67-07, Section: B, page: 3728. / Thesis (Ph.D.)--Chinese University of Hong Kong, 2005. / Includes bibliographical references (p. 189-210). / Electronic reproduction. Hong Kong : Chinese University of Hong Kong, [2012] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Electronic reproduction. [Ann Arbor, MI] : ProQuest Information and Learning, [200-] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / School code: 1307.
138

Hormonal correlates of coloration and sexual change in the hermaphroditic grouper, Epinephelus adscensionis

Kline, Richard Joseph, 1970- 11 February 2011 (has links)
Hermaphroditism, associated with territoriality and dominance behavior, is common in the marine environment. Male sex-specific coloration patterns and behavior are particularly evident in species where males are territorial and guard harems of females such as wrasses and groupers. Protogynous hermaphrodites that change sex from female to male are good models to study sexual behavior and related changes in the brain due to their abilities to reorganize their sexual phenotype as adults. Two hormones produced in the brain and implicated in the process of sex-specific behavior and reproductive development are arginine vasotocin (AVT) and gonadotropin releasing hormone (GnRH). While a wealth of data exists regarding these hormone systems separately, little is known about linkage between these two systems. Especially there is no data tracking these two systems together in any protogynous fish. This study was conducted to test the hypothesis that coordinated interactions between AVT and GnRH facilitate the process of behavioral and gonadal sex change in the rock hind Epinephelus adscensionis. Four topics were addressed to investigate the relationship between behavior and reproduction: i) rock hind sex change, sexual characteristics and conditions causing sex change to occur in captivity were detailed as a basis for examining the AVT system and GnRH during this process, ii) the distribution of a vasotocin V1a type receptor identified in rock hind brain was examined for the first time in a fish species using a custom designed antibody then the receptor protein was co-localized with GnRH producing cells within the brain to confirm that a pathway exists for AVT action on GnRH, iii) levels of AVT, AVT receptors, and GnRH messenger RNA (mRNA) were compared between male and female rock hind phenotypes, and iv) female rock hind at early stages of sex change were compared for brain mRNA expression of AVT, AVT receptors, and GnRH to determine the order of hormonal change during the process of sexual inversion in this species. This study provides a better understanding of the relationship between sex-specific behavior and reproductive development via AVT and GnRH systems that are conserved in all vertebrates. / text
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Direct Steroidal Regulation and Inhibitory Mode of Action of Gonadotropin-inhibitory Hormone (GnIH or RFRP-3) in Immortalized Hypothalamic Cell Models

Gojska, Nicole 18 June 2014 (has links)
Fertility is dependent on the precisely orchestrated communication of an array of effectors within the reproductive axis, all of which impinge on gonadotropin-releasing hormone (GnRH) neurons. A novel reproductive inhibitor was identified in avian species and growing evidence suggests that the functional mammalian homologue, RFamide-related peptide-3 (RFRP-3 or GnIH) can inhibit GnRH neuronal activity and gonadotropin release. To date, the regulation and effects of RFRP-3 at the hypothalamic level are poorly understood. We established an Rfrp-expressing neuronal cell model to investigate the mechanisms of transcriptional regulation of the genes for RFRP and the RFRP receptor, GPR147 by dexamethasone and estradiol. We show that the RFRP system is a direct target for stress-associated transcriptional regulation. Further, employing a novel GnRH-secreting cell line, we report that GnRH neurons express Gpr147 and RFRP-3 represses the transcription of GnRH. These data further our understanding of the level and regulatory effects at which RFRP-3 modulates reproduction.
140

Direct Steroidal Regulation and Inhibitory Mode of Action of Gonadotropin-inhibitory Hormone (GnIH or RFRP-3) in Immortalized Hypothalamic Cell Models

Gojska, Nicole 18 June 2014 (has links)
Fertility is dependent on the precisely orchestrated communication of an array of effectors within the reproductive axis, all of which impinge on gonadotropin-releasing hormone (GnRH) neurons. A novel reproductive inhibitor was identified in avian species and growing evidence suggests that the functional mammalian homologue, RFamide-related peptide-3 (RFRP-3 or GnIH) can inhibit GnRH neuronal activity and gonadotropin release. To date, the regulation and effects of RFRP-3 at the hypothalamic level are poorly understood. We established an Rfrp-expressing neuronal cell model to investigate the mechanisms of transcriptional regulation of the genes for RFRP and the RFRP receptor, GPR147 by dexamethasone and estradiol. We show that the RFRP system is a direct target for stress-associated transcriptional regulation. Further, employing a novel GnRH-secreting cell line, we report that GnRH neurons express Gpr147 and RFRP-3 represses the transcription of GnRH. These data further our understanding of the level and regulatory effects at which RFRP-3 modulates reproduction.

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