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The Role of Mesointerpeduncular Circuitry in AnxietyDegroot, Steven R. 14 May 2019 (has links)
Anxiety is an affective state defined by heightened arousal and unease in the absence of a clear and present fear-inducing stimulus. Chronic and inappropriate anxiety leads to anxiety disorders, the most common class of human mental disorder. Recent work suggests projections to the ventral tegmental area (VTA), are critical for anxiety behavior expression. However, the relationship between efferent VTA projections and anxiety is unclear. This thesis resolves anxiety circuitry connecting the dopaminergic (DAergic) VTA to the interpeduncular nucleus (IPN), coined the mesointerpeduncular circuit. I hypothesize the mesointerpeduncular circuit affects anxiety through the release of anxiogenic corticotropin releasing factor (CRF) during nicotine withdrawal and anxiolytic dopamine (DA) during drug naïve behavior. Electrophysiological and pharmacological data suggest CRF release from the DAergic VTA during nicotine withdrawal activates CRF receptor 1 (CRFR1) potentiating the glutamatergic activation of “Type 2” neurons and anxiety-like behavior in mice. However, in nicotine naïve conditions CRF production is negligible. Instead, in vivo DA release is anticorrelated with anxiety-like behaviors. Optogenetic stimulation and inhibition drives decreased and increased anxiety-like behaviors, respectively. Electrophysiological experiments reveal a complex interpeduncular microcircuit where D1-like DA receptor expressing “Type C” neurons in the caudal IPN (cIPN) regulate glutamatergic release in the ventral IPN (vIPN) through presynaptic GABA receptors. The result is propagation of the signal to excite “Type A” and inhibit “Type B” vIPN neurons. Finally, pharmacological activation or inhibition of interpeduncular D1-like DA receptors is sufficient to decrease and increase anxiety-like behaviors respectively. Thus, this circuit is important for modulating anxiety-like behavior.
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Estudos dos genes Tbx19 e Crhr1 em cães da raça poodle com hipercortisolismo ACTH-dependente / Study of Tbx19 and Crhr1 genes in Poodle dogs with ACTH-dependent hypercortisolismMarco, Viviani de 29 April 2010 (has links)
O hipercortisolismo ACTH-dependente (HAD), também chamado de doença de Cushing, é uma das endocrinopatias mais comumente diagnosticadas na espécie canina. A sintomatologia clínica ocorre, secundariamente, aos efeitos gliconeogênicos, catabólicos, antiinflamatórios e imunossupressores dos glicocorticóides sobre vários sistemas orgânicos. Há uma marcante predisposição da doença na raça poodle e casos familiais têm sido diagnosticados sugerindo uma causa genética. As alterações moleculares que levam ao desenvolvimento do HAD em cães permanecem indefinidas. Dentre os genes implicados no desenvolvimento dos corticotrofos e na regulação do eixo corticotrófico, destacam-se o Tbx19 e o Crhr1, respectivamente. O Tbx19 é um fator de transcrição obrigatório para a transcrição do gene da proopiomelanocortina (POMC) e para a diferenciação terminal dos corticotrofos. Como está presente, exclusivamente, em corticotrofos normais e adenomatosos, foi proposto seu envolvimento na secreção excessiva de ACTH na doença de Cushing. A presença de CRHR1 nos corticotrofinomas na espécie humana e canina levantou a hipótese da sua participação na tumorigênese hipofisária, promovendo uma estimulação celular prolongada, mesmo na ausência de hormônios hipotalâmicos. Um aumento da expressão do CRHR1 foi demonstrado nos tumores corticotróficos, apesar da secreção autônoma de ACTH e dos níveis portais suprimidos de CRH em pacientes humanos e caninos com doença de Cushing. Os objetivos do presente trabalho foram pesquisar a presença de mutações germinativas nas regiões codificadoras dos genes Tbx19 e Crhr1 em cães com HAD. Para tanto, estudamos 50 cães da raça poodle com hipercortisolismo ACTH-dependente (33 fêmeas e 17 machos), com idade média de 8,71 anos e 50 cães controle da mesma raça (32 fêmeas e 18 machos) com idade superior a 6 anos (média de 9,38 anos) e sem endocrinopatias. O DNA genômico foi extraído e amplificado através da reação de polimerização em cadeia (PCR), utilizando-se oligonucleotídeos (primers) específicos para os genes Tbx19 e Crhr1. Foi identificada uma nova variante alélica tanto no Tbx19 como no Crhr1, ambas não descritas na literatura. No gene Tbx19, a variante p. S343G foi encontrada em dois cães não aparentados, mas também em dois controles normais, sugerindo tratar-se de um novo polimorfismo. Já a variante p. V97M do Crhr1 foi encontrada, em heterozigose em um animal com HAD, porém não foi observada em cem alelos normais. O códon 97 está localizado no domínio extracelular aminoterminal do gene Crhr1, de extrema importância para a ligação com alta afinidade ao ligante. O estudo molecular da estrutura quartenária da proteína mutada, seguido da avaliação da energia de ligação da superfície de contato entre o hormônio e o receptor revelou um rearranjo estrutural com alteração da superfície de contato entre o CRH e o seu receptor CRHR1, resultando em uma energia de ligação 17% superior à do receptor selvagem. Em conclusão, esse estudo não identificou alterações no gene Tbx19 associadas ao hipercortisolismo ACTH-dependente canino, mas por outro lado, identificou pela primeira vez, uma mutação ativadora no Crhr1, provavelmente responsável pelo hipercortisolismo ACTH-dependente em um cão da raça poodle. / The ACTH-dependent hypercortisolism (ADH), also called Cushing\'s disease, is one of the most commonly diagnosed endocrine diseases in dogs. The symptoms occur due to glucocorticoids excess leading to gluconeogenic, catabolic, anti-inflammatory and immunosuppressive effects in multiple organs and systems. There is a high incidence of Cushing\'s disease in Poodles and familial disease has been identified suggesting a genetic involvement. The molecular changes that lead to the development of ACTH-dependent hypercortisolism in dogs remain undefined. Among genes implicated in corticotroph development and in corticotropic axis regulation, we would like to point out Tbx19 and Crhr1, respectively. Tbx19 gene is a transcription factor required for transcription of the proopiomelanocortin gene and for terminal differentiation of the corticotroph. Inactivating mutations in that gene are associated with human isolated ACTH deficiency. Since Tbx19 is present exclusively in normal and adenomatous corticotroph cells, its involvement in the secretion of ACTH in Cushing\'s disease was proposed. The presence of CRHR1 in corticotrophinomas in humans and dogs raised the possibility of its involvement in pituitary tumorigenesis, promoting prolonged cell stimulation, even in the absence of hypothalamic hormones. An increased expression of the CRHR1 mRNA was demonstrated in human and canine ACTH-secreting pituitary adenomas, despite the autonomous ACTH secretion and the low portal levels of CRH. The aim of this study was to investigate Tbx19 and Crhr1 coding region mutations in Poodle dogs with ACTH-dependent hypercortisolism. We studied 50 Poodle dogs with ADH (33 females and 17 males) with a mean age of 8.71 years and 50 control dogs of the same breed (32 females and 18 males) older than 6 years (mean 9.38 years) and without endocrinopathies. Genomic DNA was extracted from peripheral blood, amplified by the polymerase chain reaction (PCR) using specific intronic primers and submitted to automatic sequence. We identified a new allelic variant in the Tbx19 and Crhr1 coding regions. The allelic variant p. S343G in the Tbx19 gene was found in two unrelated dogs, but also in two normal controls, suggesting that this is a new polymorphism. The Crhr1 allelic variant p. V97M was found in heterozygosity in one animal with ACTH-dependent hypercortisolism, but was not observed in one hundred normal alleles. The codon 97 is located in the extracellular amino terminal domain of the Crhr1 and is extremely important for high affinity ligand binding. The molecular analysis of the quaternary structure of normal and mutated proteins, followed by evaluation of the binding energy of the contact surface between the hormone and the receptor showed a structural rearrangement of the mutated protein by changing the contact surface between the CRH and its receptor CRHR1, resulting in a binding energy 17% higher than the wild type. In conclusion, this study did not identify Tbx19 mutations associated with canine ACTH-dependent hypercortisolism, but on the other hand, we first identified a Crhr1 gain-of-function mutation probably responsible for ACTH-dependent hypercortisolism in a Poodle dog of our cohort.
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Estudo da expressão do receptor da vasopressina (AVPR1B), do receptor do hormônio liberador de corticotrofina (CRHR1) e do receptor dos secretagogos de GH (GHSR-1a) em pacientes portadores de síndrome de Cushing ACTH-dependente: correlação clínico-molecular / Study of mRNA expression of the receptors for vasopressin (AVPR1B), corticotropin releasing hormone (CRHR1) and GH secretagogues (GHSR-1a) in patients with ACTH-dependent Cushing\'s syndrome: clinical-molecular correlationMachado, Marcio Carlos 25 August 2006 (has links)
INTRODUÇÃO: O diagnóstico diferencial da síndrome de Cushing (SC) ACTH-dependente é um dos maiores desafios da endocrinologia, devido ao comportamento clínico e laboratorial semelhante de alguns tumores carcinóides com a doença de Cushing (DC). Assim, testes dinâmicos de secreção de ACTH e cortisol têm sido utilizados com o objetivo de identificar respostas que sejam preditivas e específicas no diagnóstico diferencial. O padrão dessas respostas é atribuído à superexpressão de receptores; entretanto, poucos estudos foram realizados para comprovar tal associação. O objetivo deste estudo foi verificar se a secreção de ACTH e cortisol em resposta aos testes do CRH humano (hCRH), da desmopressina, e do peptídeo liberador do GH (GHRP-6) é dependente da magnitude de expressão dos seus respectivos receptores (CRHR1, AVPR1B e GHSR-1a) em amostras de tumores de pacientes portadores da SC ACTH-dependente. CASUÍSTICA E MÉTODOS: Entre 2002 e 2004, foram avaliados 22 pacientes (20 com DC e dois com Secreção Ectópica de ACTH [SEA], carcinóide de pulmão e timo), idade mediana de 32 anos (15-54 anos), sendo 18 do sexo feminino e quatro do sexo masculino, provenientes da Disciplina de Endocrinologia e Metabologia da Faculdade de Medicina da Universidade de São Paulo. Os pacientes foram submetidos aos testes do hCRH (100 µg), desmopressina (10 µg) e GHRP-6 (1 µg/kg) com dosagens de ACTH e cortisol e também de GH no caso do GHRP-6. Vinte e um indivíduos controles, pareados por sexo e idade, foram submetidos ao teste do GHRP-6. Durante o ato operatório, fragmentos de tumor foram coletados para posterior extração do RNA total. O estudo da expressão foi feito por meio de PCR quantitativo em tempo real dos genes CRHR1, AVPR1B e GHSR-1a em relação ao GAPDH. Fragmentos de tecidos normais (hipófise, pulmão e timo) procedentes de necropsias foram utilizados como controles. RESULTADOS: Observamos maior expressão de GHSR-1a nos pacientes responsivos ao GHRP-6, tanto naqueles com DC quanto no paciente com carcinóide pulmonar. Não houve maior expressão dos receptores CRHR1 e AVPR1B nos pacientes com DC responsivos aos respectivos testes, observando-se, no entanto, uma forte associação entre respostas in vivo e a expressão desses receptores nos pacientes com SEA. As concentrações de ACTH e cortisol induzidas pela administração de GHRP-6 foram mais elevadas nos pacientes com DC quando comparados aos controles, havendo, no entanto, superposição entre as respostas. Observamos também elevação dos níveis séricos de GH nos indivíduos controles e, em menor intensidade, nos pacientes com DC. CONCLUSÕES: Houve maior expressão do receptor GHSR-1a em pacientes com SC ACTH-dependente responsivos ao GHRP-6, estabelecendo-se uma relação direta entre a expressão do receptor e a resposta in vivo ao secretagogo, tanto em pacientes com DC quanto nos portadores de SEA. Uma associação entre a expressão dos receptores CRHR1 e AVPR1B com a resposta in vivo aos respectivos secretagogos foi observada nos pacientes com SEA e não nos pacientes com DC. Tendo em vista a resposta ao GHRP-6 em paciente com SEA, limita-se o uso desse peptídeo no diagnóstico diferencial da SC ACTH-dependente. / INTRODUCTION: The differential diagnosis of ACTH-dependent Cushing\'s syndrome (CS) is one of the major challenges in endocrinology, especially in view of the similar clinical and laboratorial behavior between some carcinoid tumors and Cushing\'s disease (CD). Hence, dynamic tests of ACTH and cortisol release have been carried out with the aim to identify predictive and specific responses for this differential diagnosis. The pattern of the responses has been attributed to receptors overexpression, yet few studies have been undertaken to confirm such association. The aim of the present study was to verify whether ACTH and cortisol release in response to human CRH (hCRH), desmopressin, and GH releasing peptide (GHRP-6) depends on the magnitude of expression of their respective receptors (CRHR1, AVPR1B e GHSR-1a) in samples of tumors from patients with ACTH-dependent CS. PATIENTS AND METHODS: Twenty two patients (20 with CD and 2 with Ectopic ACTH Syndrome [EAS], lung and thymus carcinoid tumors) from the Division of Endocrinology and Metabolism of University of Sao Paulo School of Medicine, median age of 32 years (15-54 years), being 18 females and 4 males, were evaluated between 2002 and 2004. The patients were submitted to dynamic tests with hCRH (100 µg), desmopressin (10 µg) and GHRP-6 (1 µg/kg), with measurement of ACTH and cortisol levels, and also of GH in the case of GHRP-6 stimulation. Twenty one age and sex-matched controls were submitted to the GHRP-6 test. During surgery, tumor fragments were collected and subsequently processed for total mRNA extraction. Gene expression of CRHR1, AVPR1B and GHSR-1a relative to GAPDH was quantitated by real-time qPCR. Tissue samples of normal pituitary, lung and thymus from necropsy were used as controls. RESULTS: Greater expression of GHSR-1a was observed in patients responsive to the GHRP-6 test, both in those with CD and in the one with pulmonary carcinoid tumor. No enhanced expression of receptors CRHR1 and AVPR1B was found in CD patients responsive to the respective dynamic tests, yet there was a strong association between the in vivo responses and the expression of those receptors in the two patients with EAS. GHRP-6 -induced ACTH and cortisol release was more marked in patients with CD as compared with control individuals, but there was overlap of the responses. GH stimulation was observed in control individuals and, to a lesser extent, in patients with CD. CONCLUSIONS: There was greater expression of GHSR-1a in patients with ACTH-dependent CS who responded to GHRP-6, establishing a direct association between receptor gene expression and the in vivo response to the secretagogue in both CD patients and those with EAS. An association between expression of CRHR1 and AVPR1B and the in vivo response to the respective secretagogues was found in patients with EAS but not in those with CD. In view of the response to GHRP-6 in a patient with EAS, we considered the use of this peptide in the differential diagnosis of ACTH-dependent CS of limited value.
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Estudos dos genes Tbx19 e Crhr1 em cães da raça poodle com hipercortisolismo ACTH-dependente / Study of Tbx19 and Crhr1 genes in Poodle dogs with ACTH-dependent hypercortisolismViviani de Marco 29 April 2010 (has links)
O hipercortisolismo ACTH-dependente (HAD), também chamado de doença de Cushing, é uma das endocrinopatias mais comumente diagnosticadas na espécie canina. A sintomatologia clínica ocorre, secundariamente, aos efeitos gliconeogênicos, catabólicos, antiinflamatórios e imunossupressores dos glicocorticóides sobre vários sistemas orgânicos. Há uma marcante predisposição da doença na raça poodle e casos familiais têm sido diagnosticados sugerindo uma causa genética. As alterações moleculares que levam ao desenvolvimento do HAD em cães permanecem indefinidas. Dentre os genes implicados no desenvolvimento dos corticotrofos e na regulação do eixo corticotrófico, destacam-se o Tbx19 e o Crhr1, respectivamente. O Tbx19 é um fator de transcrição obrigatório para a transcrição do gene da proopiomelanocortina (POMC) e para a diferenciação terminal dos corticotrofos. Como está presente, exclusivamente, em corticotrofos normais e adenomatosos, foi proposto seu envolvimento na secreção excessiva de ACTH na doença de Cushing. A presença de CRHR1 nos corticotrofinomas na espécie humana e canina levantou a hipótese da sua participação na tumorigênese hipofisária, promovendo uma estimulação celular prolongada, mesmo na ausência de hormônios hipotalâmicos. Um aumento da expressão do CRHR1 foi demonstrado nos tumores corticotróficos, apesar da secreção autônoma de ACTH e dos níveis portais suprimidos de CRH em pacientes humanos e caninos com doença de Cushing. Os objetivos do presente trabalho foram pesquisar a presença de mutações germinativas nas regiões codificadoras dos genes Tbx19 e Crhr1 em cães com HAD. Para tanto, estudamos 50 cães da raça poodle com hipercortisolismo ACTH-dependente (33 fêmeas e 17 machos), com idade média de 8,71 anos e 50 cães controle da mesma raça (32 fêmeas e 18 machos) com idade superior a 6 anos (média de 9,38 anos) e sem endocrinopatias. O DNA genômico foi extraído e amplificado através da reação de polimerização em cadeia (PCR), utilizando-se oligonucleotídeos (primers) específicos para os genes Tbx19 e Crhr1. Foi identificada uma nova variante alélica tanto no Tbx19 como no Crhr1, ambas não descritas na literatura. No gene Tbx19, a variante p. S343G foi encontrada em dois cães não aparentados, mas também em dois controles normais, sugerindo tratar-se de um novo polimorfismo. Já a variante p. V97M do Crhr1 foi encontrada, em heterozigose em um animal com HAD, porém não foi observada em cem alelos normais. O códon 97 está localizado no domínio extracelular aminoterminal do gene Crhr1, de extrema importância para a ligação com alta afinidade ao ligante. O estudo molecular da estrutura quartenária da proteína mutada, seguido da avaliação da energia de ligação da superfície de contato entre o hormônio e o receptor revelou um rearranjo estrutural com alteração da superfície de contato entre o CRH e o seu receptor CRHR1, resultando em uma energia de ligação 17% superior à do receptor selvagem. Em conclusão, esse estudo não identificou alterações no gene Tbx19 associadas ao hipercortisolismo ACTH-dependente canino, mas por outro lado, identificou pela primeira vez, uma mutação ativadora no Crhr1, provavelmente responsável pelo hipercortisolismo ACTH-dependente em um cão da raça poodle. / The ACTH-dependent hypercortisolism (ADH), also called Cushing\'s disease, is one of the most commonly diagnosed endocrine diseases in dogs. The symptoms occur due to glucocorticoids excess leading to gluconeogenic, catabolic, anti-inflammatory and immunosuppressive effects in multiple organs and systems. There is a high incidence of Cushing\'s disease in Poodles and familial disease has been identified suggesting a genetic involvement. The molecular changes that lead to the development of ACTH-dependent hypercortisolism in dogs remain undefined. Among genes implicated in corticotroph development and in corticotropic axis regulation, we would like to point out Tbx19 and Crhr1, respectively. Tbx19 gene is a transcription factor required for transcription of the proopiomelanocortin gene and for terminal differentiation of the corticotroph. Inactivating mutations in that gene are associated with human isolated ACTH deficiency. Since Tbx19 is present exclusively in normal and adenomatous corticotroph cells, its involvement in the secretion of ACTH in Cushing\'s disease was proposed. The presence of CRHR1 in corticotrophinomas in humans and dogs raised the possibility of its involvement in pituitary tumorigenesis, promoting prolonged cell stimulation, even in the absence of hypothalamic hormones. An increased expression of the CRHR1 mRNA was demonstrated in human and canine ACTH-secreting pituitary adenomas, despite the autonomous ACTH secretion and the low portal levels of CRH. The aim of this study was to investigate Tbx19 and Crhr1 coding region mutations in Poodle dogs with ACTH-dependent hypercortisolism. We studied 50 Poodle dogs with ADH (33 females and 17 males) with a mean age of 8.71 years and 50 control dogs of the same breed (32 females and 18 males) older than 6 years (mean 9.38 years) and without endocrinopathies. Genomic DNA was extracted from peripheral blood, amplified by the polymerase chain reaction (PCR) using specific intronic primers and submitted to automatic sequence. We identified a new allelic variant in the Tbx19 and Crhr1 coding regions. The allelic variant p. S343G in the Tbx19 gene was found in two unrelated dogs, but also in two normal controls, suggesting that this is a new polymorphism. The Crhr1 allelic variant p. V97M was found in heterozygosity in one animal with ACTH-dependent hypercortisolism, but was not observed in one hundred normal alleles. The codon 97 is located in the extracellular amino terminal domain of the Crhr1 and is extremely important for high affinity ligand binding. The molecular analysis of the quaternary structure of normal and mutated proteins, followed by evaluation of the binding energy of the contact surface between the hormone and the receptor showed a structural rearrangement of the mutated protein by changing the contact surface between the CRH and its receptor CRHR1, resulting in a binding energy 17% higher than the wild type. In conclusion, this study did not identify Tbx19 mutations associated with canine ACTH-dependent hypercortisolism, but on the other hand, we first identified a Crhr1 gain-of-function mutation probably responsible for ACTH-dependent hypercortisolism in a Poodle dog of our cohort.
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Barrier function of the Follicle-Associated Epithelium in Stress and Crohn's diseaseKeita, Åsa January 2007 (has links)
Crohns sjukdom är en kronisk inflammatorisk tarmsjukdom av okänd orsak. Det tidigaste tecknet på Crohns sjukdom är mikroskopiska sår i det s.k. follikelassocierade epitelet (FAE) som täcker ansamlingar av immunceller i tarmen. FAE är specialiserat för att fånga innehåll från tarmen och transportera det till underliggande immunvävnad. Denna funktion är viktig för att inducera skyddande immunsvar, men den utgör också en ingångsväg för sjukdomsalstrande bakterier. Crohns sjukdom är associerat med ett kraftigt ökat immunsvar mot bakterier, och sjukdomsförloppet kan ändras av stress. Det övergripande syftet med avhandlingen var att studera effekterna av stress på FAE samt att undersöka rollen av FAE vid utvecklingen av tarminflammation, särskilt vid Crohns sjukdom. Inledningsvis studerades effekterna av psykologisk stress på FAE. Stressade råttor uppvisade ökad genomsläpplighet av bakterier efter stress, och passagen var högre i FAE än i vanligt epitel. Efterföljande experiment visade att stressförändringarna i slemhinnan regleras via kortikotropinfrisättande hormon och mastceller. Vidare visade det sig att vasoaktiv intestinal peptid kunde efterlikna stressens effekter på genomsläppligheten, och att detta kunde förhindras genom att blockera mastcellerna. Studier av tunntarmsslemhinna från patienter med icke-inflammatorisk tarmsjukdom och friska kontroller visade en högre passage av bakterier i FAE än i vanligt epitel. Hos patienter med Crohns sjukdom var bakteriepassagen genom FAE betydligt ökad jämfört med kontroller. Resultaten från detta avhandlingsarbete visar att stress kan förändra upptaget av bakterier från tarmen via FAE, med mekanismer som innefattar kortikotropinfrisättande hormon och mastceller. Detta har gett nya kunskaper kring regleringen av slemhinnebarriären. Vidare presenterar denna avhandling nya insikter i sjukdomsuppkomsten vid Crohns sjukdom genom att påvisa en tidigare okänd defekt i barriärfunktionen i FAE. / The earliest observable signs of Crohn’s disease are microscopic erosions in the follicle-associated epithelium (FAE) covering the Peyer’s patches. The FAE, which contains M cells, is specialised in sampling of luminal content and delivery to underlying immune cells. This sampling is crucial for induction of protective immune responses, but it also provides a route of entry for microorganisms into the mucosa. Crohn’s disease is associated with an increased immune response to bacteria, and the disease course can be altered by stress. The overall aim of this thesis was to study the effects of stress on the FAE and elucidate the role of FAE in the development of intestinal inflammation, specifically Crohn’s disease. Initially, rats were submitted to acute and chronic water avoidance stress to study the effects of psychological stress on the FAE. Stressed rats showed enhanced antigen and bacterial passage, and the passage was higher in FAE than in regular villus epithelium (VE). Further, stress gave rise to ultrastructural changes. Subsequent experiments revealed the stress-induced increase in permeability to be regulated by corticotropin-releasing hormone and mast cells. Furthermore, vasoactive intestinal peptide (VIP) mimicked the stress effects on permeability, and the VIP effects were inhibited by a mast cell stabiliser. Human studies of ileal mucosa from patients with non-inflammatory disease and healthy controls showed a higher antigen and bacterial passage in FAE than in VE. In patients with Crohn’s disease, the bacterial passage across the FAE was significantly increased compared to non-inflammatory and inflammatory controls (ulcerative colitis). Furthermore, there was an enhanced uptake of bacteria into dendritic cells, and augmented TNF-α release in Crohn’s disease mucosa. Taken together this thesis shows that stress can modulate the uptake of luminal antigens and bacteria via the FAE, through mechanisms involving CRH and mast cells. It further shows that human ileal FAE is functionally distinct from VE, and that Crohn’s disease patients exhibit enhanced FAE permeability compared to inflammatory and non-inflammatory controls. This thesis presents novel insights into regulation of the FAE barrier, as well as into the pathophysiology of Crohn’s disease by demonstrating a previously unrecognised defect of the FAE barrier function in ileal Crohn’s disease.
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Estudo da expressão do receptor da vasopressina (AVPR1B), do receptor do hormônio liberador de corticotrofina (CRHR1) e do receptor dos secretagogos de GH (GHSR-1a) em pacientes portadores de síndrome de Cushing ACTH-dependente: correlação clínico-molecular / Study of mRNA expression of the receptors for vasopressin (AVPR1B), corticotropin releasing hormone (CRHR1) and GH secretagogues (GHSR-1a) in patients with ACTH-dependent Cushing\'s syndrome: clinical-molecular correlationMarcio Carlos Machado 25 August 2006 (has links)
INTRODUÇÃO: O diagnóstico diferencial da síndrome de Cushing (SC) ACTH-dependente é um dos maiores desafios da endocrinologia, devido ao comportamento clínico e laboratorial semelhante de alguns tumores carcinóides com a doença de Cushing (DC). Assim, testes dinâmicos de secreção de ACTH e cortisol têm sido utilizados com o objetivo de identificar respostas que sejam preditivas e específicas no diagnóstico diferencial. O padrão dessas respostas é atribuído à superexpressão de receptores; entretanto, poucos estudos foram realizados para comprovar tal associação. O objetivo deste estudo foi verificar se a secreção de ACTH e cortisol em resposta aos testes do CRH humano (hCRH), da desmopressina, e do peptídeo liberador do GH (GHRP-6) é dependente da magnitude de expressão dos seus respectivos receptores (CRHR1, AVPR1B e GHSR-1a) em amostras de tumores de pacientes portadores da SC ACTH-dependente. CASUÍSTICA E MÉTODOS: Entre 2002 e 2004, foram avaliados 22 pacientes (20 com DC e dois com Secreção Ectópica de ACTH [SEA], carcinóide de pulmão e timo), idade mediana de 32 anos (15-54 anos), sendo 18 do sexo feminino e quatro do sexo masculino, provenientes da Disciplina de Endocrinologia e Metabologia da Faculdade de Medicina da Universidade de São Paulo. Os pacientes foram submetidos aos testes do hCRH (100 µg), desmopressina (10 µg) e GHRP-6 (1 µg/kg) com dosagens de ACTH e cortisol e também de GH no caso do GHRP-6. Vinte e um indivíduos controles, pareados por sexo e idade, foram submetidos ao teste do GHRP-6. Durante o ato operatório, fragmentos de tumor foram coletados para posterior extração do RNA total. O estudo da expressão foi feito por meio de PCR quantitativo em tempo real dos genes CRHR1, AVPR1B e GHSR-1a em relação ao GAPDH. Fragmentos de tecidos normais (hipófise, pulmão e timo) procedentes de necropsias foram utilizados como controles. RESULTADOS: Observamos maior expressão de GHSR-1a nos pacientes responsivos ao GHRP-6, tanto naqueles com DC quanto no paciente com carcinóide pulmonar. Não houve maior expressão dos receptores CRHR1 e AVPR1B nos pacientes com DC responsivos aos respectivos testes, observando-se, no entanto, uma forte associação entre respostas in vivo e a expressão desses receptores nos pacientes com SEA. As concentrações de ACTH e cortisol induzidas pela administração de GHRP-6 foram mais elevadas nos pacientes com DC quando comparados aos controles, havendo, no entanto, superposição entre as respostas. Observamos também elevação dos níveis séricos de GH nos indivíduos controles e, em menor intensidade, nos pacientes com DC. CONCLUSÕES: Houve maior expressão do receptor GHSR-1a em pacientes com SC ACTH-dependente responsivos ao GHRP-6, estabelecendo-se uma relação direta entre a expressão do receptor e a resposta in vivo ao secretagogo, tanto em pacientes com DC quanto nos portadores de SEA. Uma associação entre a expressão dos receptores CRHR1 e AVPR1B com a resposta in vivo aos respectivos secretagogos foi observada nos pacientes com SEA e não nos pacientes com DC. Tendo em vista a resposta ao GHRP-6 em paciente com SEA, limita-se o uso desse peptídeo no diagnóstico diferencial da SC ACTH-dependente. / INTRODUCTION: The differential diagnosis of ACTH-dependent Cushing\'s syndrome (CS) is one of the major challenges in endocrinology, especially in view of the similar clinical and laboratorial behavior between some carcinoid tumors and Cushing\'s disease (CD). Hence, dynamic tests of ACTH and cortisol release have been carried out with the aim to identify predictive and specific responses for this differential diagnosis. The pattern of the responses has been attributed to receptors overexpression, yet few studies have been undertaken to confirm such association. The aim of the present study was to verify whether ACTH and cortisol release in response to human CRH (hCRH), desmopressin, and GH releasing peptide (GHRP-6) depends on the magnitude of expression of their respective receptors (CRHR1, AVPR1B e GHSR-1a) in samples of tumors from patients with ACTH-dependent CS. PATIENTS AND METHODS: Twenty two patients (20 with CD and 2 with Ectopic ACTH Syndrome [EAS], lung and thymus carcinoid tumors) from the Division of Endocrinology and Metabolism of University of Sao Paulo School of Medicine, median age of 32 years (15-54 years), being 18 females and 4 males, were evaluated between 2002 and 2004. The patients were submitted to dynamic tests with hCRH (100 µg), desmopressin (10 µg) and GHRP-6 (1 µg/kg), with measurement of ACTH and cortisol levels, and also of GH in the case of GHRP-6 stimulation. Twenty one age and sex-matched controls were submitted to the GHRP-6 test. During surgery, tumor fragments were collected and subsequently processed for total mRNA extraction. Gene expression of CRHR1, AVPR1B and GHSR-1a relative to GAPDH was quantitated by real-time qPCR. Tissue samples of normal pituitary, lung and thymus from necropsy were used as controls. RESULTS: Greater expression of GHSR-1a was observed in patients responsive to the GHRP-6 test, both in those with CD and in the one with pulmonary carcinoid tumor. No enhanced expression of receptors CRHR1 and AVPR1B was found in CD patients responsive to the respective dynamic tests, yet there was a strong association between the in vivo responses and the expression of those receptors in the two patients with EAS. GHRP-6 -induced ACTH and cortisol release was more marked in patients with CD as compared with control individuals, but there was overlap of the responses. GH stimulation was observed in control individuals and, to a lesser extent, in patients with CD. CONCLUSIONS: There was greater expression of GHSR-1a in patients with ACTH-dependent CS who responded to GHRP-6, establishing a direct association between receptor gene expression and the in vivo response to the secretagogue in both CD patients and those with EAS. An association between expression of CRHR1 and AVPR1B and the in vivo response to the respective secretagogues was found in patients with EAS but not in those with CD. In view of the response to GHRP-6 in a patient with EAS, we considered the use of this peptide in the differential diagnosis of ACTH-dependent CS of limited value.
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Endokrinní a metabolické aspekty vybraných spánkový ch poruch / Endocrine and Metabolic Aspects of Various Sleep DisordersVimmerová-Lattová, Zuzana January 2013 (has links)
Endocrine and Metabolic Aspects of Various Sleep Disorders MUDr. Zuzana Vimmerová Lattová Abstract: Recent epidemiological and experimental data suggest a negative influence of shortened or disturbed night sleep on glucose tolerance. However, no comparative studies of glucose metabolism have been conducted in clinical sleep disorders. Dysfunction of the HPA axis may play a causative role in some sleep disorders and in other sleep disorders it may be secondary to the sleep disorder. Moreover, dysfunction of the HPA axis is regarded as a possible causative factor for the impaired glucose sensitivity associated with disturbed sleep. However, data on HPA system activity in sleep disorders are sparse and conflicting. We studied 25 obstructive sleep apnea (OSA) patients, 18 restless legs syndrome (RLS) patients, 21 patients with primary insomnia and compared them to 33 healthy controls. We performed oral glucose tolerance test and assessed additional parameters of glucose metabolism. The dynamic response of the HPA system was assessed by the DEX-CRH-test which combines suppression (dexamethasone) and stimulation (CRH) of the stress hormone system. Compared to controls, increased rates of impaired glucose tolerance were found in OSA (OR: 4.9) and RLS (OR: 4.7), but not in primary insomnia. In addition, HbA1c...
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