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11	Metabolic Alteration in Growth Hormone Receptor Knock Out (GHRKO) Mice Treatedwith Rapamycin Bell, Stephen Robert Clyde 10 September 2021 (has links) No description available. Biology Molecular Biology Nutrition Growth Hormone Rapamycin Growth Hormone Receptor Knockout Mouse Insulin Glucose Homeostasis mTOR IGF-1 Diabetes Adiponectin
12	Growth Hormone (GH) and the Cardiovascular System: Studies in Bovine GH Transgenic and Inducible, Cardiac-Specific GH Receptor Gene Disrupted Mice Jara, Adam 10 June 2014 (has links) No description available. Endocrinology Molecular Biology growth hormone GH bovine growth hormone bGH cardiovascular heart growth hormone receptor GHR GHRKO
13	Regulação gênica do crescimento muscular: efeitos da superexpressão do receptor do hormônio do crescimento (GHR) em um modelo de peixe transgênico Figueiredo, Márcio de Azevedo January 2011 (has links) Tese(doutorado)-Universidade Federal do Rio Grande, Programa de Pós-Graduação em Aqüicultura, Instituto de Oceanografia, 2011. / Submitted by Cristiane Silva (cristiane_gomides@hotmail.com) on 2012-06-23T16:27:42Z No. of bitstreams: 1 tese corrigida marcio figueiredo.pdf: 4782449 bytes, checksum: df5bb424fe5c9736a80fdc4a63db03a1 (MD5) / Approved for entry into archive by Bruna Vieira(bruninha_vieira@ibest.com.br) on 2012-07-27T20:22:46Z (GMT) No. of bitstreams: 1 tese corrigida marcio figueiredo.pdf: 4782449 bytes, checksum: df5bb424fe5c9736a80fdc4a63db03a1 (MD5) / Made available in DSpace on 2012-07-27T20:22:46Z (GMT). No. of bitstreams: 1 tese corrigida marcio figueiredo.pdf: 4782449 bytes, checksum: df5bb424fe5c9736a80fdc4a63db03a1 (MD5) Previous issue date: 2011 / A aquicultura tem crescido significativamente nas últimas décadas devido ao aumento da demanda de pescado no mundo e à estagnação do setor pesqueiro. Porém, este crescimento depende do desenvolvimento de novos pacotes tecnológicos que visem o aumento da produtividade. Uma alternativa é a manipulação genética (transgenia), sendo que o hormônio do crescimento (GH) tem sido o principal alvo das pesquisas com peixes transgênicos. Entretanto, está comprovado que o excesso de GH acarreta uma série de efeitos adversos devido a sua ação pleiotrópica. A ativação do eixo somatotrófico de forma tecido-específica e independente do excesso de hormônio circulante pode contornar estes problemas. Neste contexto, o objetivo desta tese foi superexpressar o gene do receptor do GH (GHR) no tecido muscular esquelético do zebrafish (Danio rerio) e estudar os efeitos desta manipulação sobre os mecanismos envolvidos na regulação gênica do crescimento muscular. A linhagem transgênica estável obtida expressa o GHR especificamente no tecido muscular 100 vezes mais do que os não transgênicos. Estes transgênicos não apresentaram aumento significativo no crescimento, provavelmente devido à queda na expressão do fator de crescimento tipo insulina I (IGF-I). Esta queda foi, provavelmente, relacionada à ação dos principais moduladores da sinalização do GH (SOCS1 e 3), os quais apresentaram-se aumentados nos transgênicos. Ainda, foi observada uma queda na expressão das principais proteínas musculares estruturais (Acta1, myhc4 e mylz2), o que explica a ausência de hipertrofia nos transgênicos. Por outro lado, o aumento na expressão dos principais fatores reguladores miogênicos (myod, myf5 e myog) explica a hiperplasia observada nas análises histológicas. Para verificar como a superexpressão do GHR ativou a transcrição dos fatores reguladores miogênicos (MRFs) e, por consequência a hiperplasia, foram estudados os possíveis mecanismos envolvidos neste processo. Dentre estes, tanto a via proliferativa (MEK/ERK) quanto à via relacionada com a síntese protéica (PI3K/Akt), não tiveram alteração na expressão de seus genes. Entretanto, foi observado aumento na expressão das proteínas de transporte para o núcleo (importinas 1, 3 e 1), podendo-se concluir que a ativação dos MRFs está relacionada ao transporte do GHR para o núcleo das células musculares. Desta forma, pode se concluir que hiperplasia e hipertrofia seguem duas vias de sinalização intracelular distintas, ambas desencadeadas pelo GH, mas reguladas por mecanismos diferentes. / Aquiculture practice has been significantly increasing during the last decades due to the fish rising demand and to fishery activity stagnation. However, such increase depends on new technological packages development aiming to productivity rises. Genetic manipulation is an alternative, once growth hormone (GH) has been the main target on transgenic fish researches. Nevertheless, it has been proved that GH excess leads to many adverse effects due to its pleiotropic action. The somatotropic axis activation in a tissue-specific manner and independent on the circulating hormone excess may bypass these problems. Following these ideas, the present thesis objective was overexpressing GH receptor’s gene (GHR), in zebrafish (Danio rerio) skeletal muscular tissue, and studying such manipulation effects over the mechanisms involved in muscular growth gene regulation. The stable transgenic lineage obtained expresses GHR, specifically in muscular tissue, 100 times more than non-transgenic. These transgenic did not present significant growth, possibly due to a gene expression fall in insulin-like growth factor I (IGF-I). The mentioned fall is, probably, related to GH main signaling modulators (SOCS1 and 3) action, which were increased in transgenic. Also, a gene expression fall from the main structural muscle proteins (Acta1, myhc4 and mylz2) was observed, explaining the transgenic hypertrophy absence. However, the main myogenic regulatory factors (myod, myf5 and myog) expression rising explains the observed hyperplasia in histological analysis. Intending to verify how GHR overexpression has activated the myogenic regulatory factors (MRFs) transcription and, consequently, the hyperplasia, the mechanisms possibly involved in this process were studied. Among these, even the proliferative pathway (MEK/ERK) or the pathway related to protein synthesis (PI3K/Akt), did not presented gene expression altering. However, a gene expression rise in transporting proteins into nucleus (importins 1, 3 and 1) was observed, which may be understood as a correlation between MRFs activation and GHR transport into muscular cell’s nucleus. Therefore, it may be understood that hyperplasia and hypertrophy follow two distinct intracellular signaling pathways, both triggered by GH, but regulated by different mechanisms. These data may be important for aquiculture new transgenic lineages development. Receptor do hormônio do crescimento Zebrafish Danio rerio Importina Fatores reguladores miogênicos Proteína vermelho fluorescente Growth hormone receptor Importin Myogenic regulatory factors Fluorescent red protein
14	Abundant expression of the membrane-anchored protease-regulator RECK in the anterior pituitary gland and its implication in the growth hormone/insulin-like growth factor 1 axis in mice / 細胞膜アンカー型プロテアーゼ制御因子RECKのマウス下垂体前葉における豊富な発現と成長ホルモン/インスリン様成長因子系における役割 Ogawa, Shuichiro 27 July 2020 (has links) 京都大学 / 0048 / 新制・論文博士 / 博士(医学) / 乙第13362号 / 論医博第2204号 / 新制\|\|医\|\|1045(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授稲垣暢也, 教授渡邉大, 教授影山龍一郎 / 学位規則第4条第2項該当 / Doctor of Medical Science / Kyoto University / DFAM RECK Somatotroph Growth hormone Insulin-like growth factor 1 Growth hormone secretagogue receptor Growth hormone receptor 490
15	Peripheral Hormone Interactions with the Growth Hormone-Insulin-Like Growth Factor (GH-IGF) System in Rainbow Trout Dickey, Lindsey Ann January 2019 (has links) The growth of vertebrates is primarily regulated by the growth hormone-insulin-like growth factor (GH-IGF) system, but not in isolation. The central question of this dissertation was how do other hormones peripheral to the GH-IGF system interact with the system, including feedbacks by GH and IGF themselves on various tissues in rainbow trout (Oncorhynchus mykiss)? The representative hormones selected were thyroxine, cortisol, and the sex steroids testosterone and estrogen, along with GH and IGF. These hormones were chosen because they are known to affect overall growth and development during specific life events, but exactly what target genes and what mechanisms are involved are only at the early stages of being delineated in fish. Liver and gill tissues were selected as representative tissues to assess the in vitro effects on growth-related genes of the GH-IGF system. A total of more than thirty experiments were conducted, including time- and concentration-response, inhibitory studies, hormone combination studies, and radio-receptor binding assays. Hormones were applied to whole tissue cultures and real-time quantitative-PCR was used to measure hormonal effects on GHR, IGF, and IGFR1 genes. Microsomal preparations were treated with selected hormones and radio-labeled GH or IGF. A gamma counter was used to measure receptor-ligand activity. GH and IGF were found to possess autocrine and/or paracrine actions in self-regulating target growth genes. Thyroxine had no direct effects on targeted growth genes but may interact with other molecules or hormones to elicit its effects on growth and development. Cortisol directly influenced target growth genes in a tissue-specific and isoform-specific manner. Finally, sex steroids differentially regulated the growth genes: estradiol inhibited growth genes while testosterone directly stimulated growth genes. These findings contribute to understanding how hormones peripheral to the GH-IGF system interact with the growth system. / National Science Foundation grant IOS 0920116 to Dr. Mark Sheridan growth hormone receptor insulin-like growth factor-1 insulin-like growth factor-2 insulin-like growth factor receptor rainbow trout
16	Developing Methods to Validate Tissue Specific Growth Hormone Receptor Knockout Mouse Models Sigman, Meredith Jane January 2011 (has links) No description available. Molecular Biology Biology Microbiology Growth Hormone Growth Hormone Receptor GHR Knockout Mouse Models GHR Protein Western Blot Analysis Polymerase Chain Reaction PCR
17	Growth Hormone Receptor in Melanoma: A Unique Approach to Therapy Basu, Reetobrata 21 September 2016 (has links) No description available. Molecular Biology Endocrinology Oncology Biology Biochemistry melanoma growth hormone growth hormone receptor drug resistance GH GHR cancer drug resistance melanogenesis MITF EMT ABC transporters RNAi chemotherapy
18	Identification of Genes with Altered Gene Expression in the Adipose Tissue of Mouse Models of Varied Growth Hormone Signaling Swaminathan, Svetha 01 May 2008 (has links) No description available. Biology Biomedical Research Cellular Biology Molecular Biology Nutrition growth hormone adipose tissue growth hormone receptor knockout mice bovine growth hormone transgenic mice microarrays real-time reverse transcriptase PCR
19	Tratamento com hormônio de crescimento (GH) em crianças com deficiência de GH: importância das dosagens de IGF-I e IGFBP3 na individualização da dose de GH / Growth hormone (GH) treatment of children with GH deficiency: importance of IGF-I and IGFBP3 measurements on recombinant GH dose individualization Marchisotti, Frederico Guimarães 14 December 2007 (has links) Atualmente, a maioria dos endocrinologistas pediátricos usa uma dose fixa de GH, calculada por quilo de peso ou área de superfície corporal, para todos os pacientes. Algumas crianças com DGH, tratadas com as doses atuais, não atingem uma estatura normal e outras não atingem a estatura-alvo geneticamente prevista pela altura dos pais. Além disso, algumas crianças com DGH desenvolvem características acromegalóides após o uso por longo prazo da medicação. A existência de um marcador preciso e eficiente seria útil para a individualização da dose de rGH. Esse marcador deveria ser mensurado em um período de tempo menor que a velocidade de crescimento (VC). Neste estudo usamos as concentrações de IGF-I como esse marcador. Durante 12 meses, acompanhamos trinta crianças portadoras de DGH grave, em tratamento prévio por cerca de quatro anos, divididas em dois grupos de 15, para comparar o tratamento com a dose de rGH baseada no peso versus o tratamento com a dose de rGH ajustada pelas concentrações de IGF-I para mantê-las em uma faixa alvo (entre 0 a +2 DP). Foi possível manter concentrações de IGF-I dentro de valores predeterminados pelo ajuste da dose de rGH em 13 dos 15 pacientes, mas a VC não foi diferente entre os grupos (6,8±2,6 vs. 6,9±2,7 cm/ano; p=NS); porém, quando considerados apenas os pacientes prépúberes que mantiveram concentrações de IGF-I entre 0 e +2DP em pelo menos 75% das dosagens, sua velocidade de crescimento foi maior em comparação com as crianças que mantiveram concentrações de IGF-I abaixo de 0DP em 50% ou mais das dosagens (8,8±1,8 vs. 6,3±2,9 cm/ano; p<0,05). Em paralelo, comparamos as concentrações de IGF-I de diferentes genótipos do exon 3 do receptor de GH (GHR), nessas trinta crianças, durante o tratamento. Duas das mais comuns isoformas em seres humanos são geradas pela retenção (full length GHR - GHRfl) e exclusão do exon 3 (exon 3 deleted GHR - GHRd3). A influência desse polimorfismo na resposta ao tratamento com rGH em pacientes com DGH tem sido alvo de controvérsia. No presente estudo, apesar de receberem a mesma dose de rGH (41±10 vs. 41±8 ug/kg d; p=NS), pacientes carreando ao menos um alelo-d3 GHR, como grupo, tiveram maiores níveis de IGF-I que aqueles homozigotos para o alelo GHR full-length (0,9±0,9 vs. -0,3±1,2 DP; p<0,05) , indicando uma melhor sensibilidade ao GH para o primeiro genótipo. A VC não foi diferente entre os grupos GHRd3 vs. GHRfl (7,3±1,9 vs. 6,4±3,1cm/ano; p=NS). / Currently, most pediatric endocrinologists use a fixed rGH dose calculated according to the weight or body surface area for all patients. Some children with GHD, treated with the present doses, do not achieve normal height, and some, even reaching normal height, do not achieve the genetic target height determined by their parents\' heights. At the same time, some children with GHD develop acromegalic characteristics after long-term treatment with rGH. The existence of a specific and effective marker to individualize rGH dose would be useful to control therapy of children with GHD. This marker ideally should be obtained in a shorter time interval than the growth velocity (GV). In the present study, we measured insulin-like growth factor (IGF-I) as this marker. During one year, we followed 30 children with severe GHD, treated previously with rGH for an average of 4yrs, divided in two groups of 15, to compare weight-based versus IGF-I-based rGH dosing to reach IGF-I levels between a target range (0 and +2 SDS). It was feasible to maintain IGF-I levels in this predetermined range by adjusting the rGH dose in 13 of 15 patients, but growth velocity was not different in groups with weight-based or IGF-I based rGH dose (6.8±2.6 vs. 6.9±2.7cm/y; p=NS); however, in prepubertal children who reached predetermined target IGF-I levels in 75% of the measurements GV was higher than in those who did not (8.8±1.8 vs. 6.3±2.9 cm/y; p<0.05). In parallel, we compared IGF-I levels of different GH receptor (GHR) exon 3 genotypes in these 30 children during treatment. Two of the more common GHR isoforms in humans are generated by retention (full length GHR - GHRfl) and by exclusion of exon 3 (exon 3 deleted GHR - GHRd3). The influence of this polymorphism on the response to rGH treatment in patients with GH deficiency has been controversial. In the present study, despite receiving similar rGH doses (41±10 vs. 41±8 ug/kg d; p=NS), patients carrying at least one GHR d3-allele, as a group, had higher IGF-I levels than those homozygous for the GHR full-length allele (0.9±0.9 vs. -0.3±1.2 SDS; p<0.05), indicating a greater GH sensitivity with the former genotype. GV was not different between groups GHRd3 vs. GHRfl (7.3±1.9 vs. 6.4±3.1cm/y; p=NS). Child Criança Fator de crescimento insulin-like Growth hormone receptor Growth hormone/deficiency Growth hormone/treatment Hipopituitarismo Hormônio de crescimento/ tratamento Hormônio de crescimento/deficiência Hypopituitarism Insulin-like growth factor Receptor do hormônio de crescimento
20	Evolution of Vertebrate Endocrine and Neuronal Gene Families : Focus on Pituitary and Retina Ocampo Daza, Daniel January 2013 (has links) The duplication of genes followed by selection is perhaps the most prominent way in which molecular biological systems gain multiplicity, diversity and functional complexity in evolution. Whole genome duplications (WGDs) therefore have the potential of generating an extraordinary amount of evolutionary innovation. It is now accepted that the vertebrate lineage has gone through two rounds of WGD in its early stages, after the divergence of invertebrate chordates and before the emergence of jawed vertebrates. These basal vertebrate WGDs are called 2R for two rounds of whole genome duplication. An additional WGD called 3R occurred early in the evolution of teleost fishes, before the radiation of this species-rich group. This thesis describes the evolution of several endocrine and neuronal gene families in relation to the vertebrate WGDs, through a comparative genomic approach including both phylogenetic analyses and chromosomal location data across a wide range of vertebrate taxa. These results show that numerous endocrine gene families have expanded in 2R and in several cases also in 3R. These include the gene families of oxytocin and vasopressin receptors (OT/VP-R), somatostatin receptors (SSTR) and insulin-like growth factor binding proteins (IGFBP). For the OT/VP-R and SSTR families, previously undescribed subtypes were identified. The protein hormone family that includes growth hormone (GH), prolactin (PRL) and somatolactin (SL) acquired a new PRL gene in 2R, however the origins of GH, PRL and SL likely predate 2R. The corresponding family of receptors diversified during different time periods through a combination of local duplications and 3R. Neuronal gene families of the visual system have also expanded in 2R and 3R. The results presented here demonstrate that the vertebrate repertoire of visual opsin genes arose in 2R as part of chromosomal blocks that also include the OT/VP-R genes. The gene families including the transducin alpha, beta and gamma subunits also arose in 2R, hinting at the importance of these events in the diversification and specialization of phototransduction cascades for rods and cones. Thus, the whole genome duplications have been important contributors to the evolution of both vision and endocrine regulation in the vertebrates. phylogenetics evolution molecular evolution gene family evolution genome duplication gene duplication oxytocin receptor vasopressin receptor visual opsin transducin growth hormone prolactin somatolactin growth hormone receptor prolactin receptor somatostatin receptor SSTR IGFBP evolution molekylär evolution fylogeni

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