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Peripheral Hormone Interactions with the Growth Hormone-Insulin-Like Growth Factor (GH-IGF) System in Rainbow TroutDickey, 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
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Regulação de receptores de IGF e PDGF na musculatura esquelética de camundongos com deficiência de neuraminidase 1 / Regulation of IGF and PDGF receptors in the skeletal muscle of neuraminidase 1 deficient miceNeves, Juliana de Carvalho 14 November 2018 (has links)
A neuraminidase 1 (Neu1) é a enzima que regula o catabolismo de sialoglicoconjugados nos lisossomos. A deficiência da Neu1 é a base da sialidose, doença grave associada a um amplo espectro de manifestações, incluindo hipotonia e fraqueza muscular. Camundongos com deficiência de Neu1 desenvolvem degeneração muscular caracterizada principalmente por atrofia, invasão das fibras musculares por fibroblastos e expansão da matriz extracelular. A Neu1 controla a proliferação de fibroblastos de pacientes por meio da desialilação dos receptores de PDGF e IGF. Além disso, há enzimas lisossomais que são moduladas pela Neu1, tais como as catepsinas, que são capazes de degradar componentes musculares e estariam excessivamente ou erroneamente ativas (sialiladas) em decorrência da deficiência de Neu1. O objetivo deste trabalho foi identificar se o fenótipo da musculatura esquelética de camundongos Neu1-/- poderia estar associado à atividade do IGF-1R, PDGFR e/ou à sialilação de catepsina B, através da análise histológica e proteica de músculos esqueléticos e fibroblastos de camundongos Neu1+/+ e Neu1-/- tratados com inibidores de IGF1-R e PDGFR. O estudo da expressão proteica de catepsina B foi realizado nos músculos tratados com os inibidores de IGF-1R e PDGFR, e nas frações citosólica e lisossomal de fibroblastos tratados com neuraminidase exógena. Em comparação com camundongos Neu1+/+, os músculos de animais Neu1-/- apresentam menor área de fibra, peso corporal, expressão de pAkt e maior expressão de catepsina B; e os fibroblastos Neu1-/- exibem maior proliferação e expressão de pAkt. A inibição do IGF-1R em camundongos Neu1-/- aumentou a área das fibras musculares, expressão de pAKt e diminuiu a expressão de catepsina B; em relação aos fibroblastos Neu1-/-, entretanto aumentou a proliferação celular com diminuição de pAkt. A inibição do PDGFR em músculos de camundongos Neu1-/- levou ao aumento da expressão de pAkt, da área das fibras, com diminuição de pERK e catepsina L, quando comparados com os controles Neu1-/-; a mesma inibição in vitro conduziu à diminuição da expressão de pAkt, pERK e proliferação. A catepsina B encontra-se bastante ativa na fração lisossomal e o tratamento com neuraminidase foi eficaz na correção de seu peso molecular e compartimentalização lisossomal. De forma geral, o fenótipo muscular de camundongos Neu1-/- parece estar relacionado com a atividade de IGF-1R e PDGFR, e a catepsina B hipersialilada é potencialmente deletéria para o músculo esquelético / Neuraminidase 1 (Neu1) is an enzyme that regulates the catabolism of sialoglycoconjugates in lysosomes. Neu1 deficiency is the basis of sialidosis, a severe disease associated with a broad spectrum of manifestations, including hypotonia and muscle weakness. Neu1 deficient mice develop muscular degeneration characterized by atrophy, invasion of muscle fibers by fibroblasts, and expansion of the extracellular matrix. Neu1 controls the proliferation of fibroblasts from patients through the desialylation of PDGF and IGF receptors. In addition, lysosomal enzymes are modulated by Neu1, such as cathepsins, which degrade muscle components and are excessively or erroneously active (sialylated) as a result of Neu1 deficiency. The aim of this study was to identify whether skeletal muscle phenotype of Neu1-/- mice may be associated with IGF-1R, PDGFR and/or sialylation of cathepsin B, through protein and histological analysis of skeletal muscles and fibroblast from Neu1+/+ and Neu1-/- mice treated with IGF-1R and PDGFR inhibitors. The study of cathepsin B protein expression was performed in skeletal muscles treated with IGF-1R and PDGFR inhibitors, and in the cytosolic and lysosomal fractions of fibroblasts treated with exogenous neuraminidase. Compared with Neu1+/+ animals, Neu1-/- muscles showed smaller muscle fiber area, body weight, pAkt expression and higher cathepsin B expression; and Neu1-/- fibroblasts exhibited increased proliferation and expression of pAkt. The inhibition of IGF-1R Neu1-/- mice increased the area of muscle fibers, expression of pAkt and decreased expression of cathepsin B; but, considering Neu1-/- fibroblasts, there was increased cell proliferation with reduction of pAkt. The inhibition of PDGFR in muscles of Neu1-/- mice led to increased expression of pAkt, muscle fiber area, with decreased expression of pERK and cathepsin L, when compared with the Neu1-/- controls; the same inhibition in vitro led to reduced expression of pAkt, pERK and cell proliferation. Cathepsin B presented high activity in the lysosomal fraction and the treatment with neuraminidase was effective in the correction of its molecular weight and lysosomal compartmentalization. In general, the muscular phenotype of Neu1-/- mice is possibly related to IGF-1R and PDGFR activity, and oversialylated cathepsin B is potentially deleterious for the skeletal muscle
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Regulação de receptores de IGF e PDGF na musculatura esquelética de camundongos com deficiência de neuraminidase 1 / Regulation of IGF and PDGF receptors in the skeletal muscle of neuraminidase 1 deficient miceJuliana de Carvalho Neves 14 November 2018 (has links)
A neuraminidase 1 (Neu1) é a enzima que regula o catabolismo de sialoglicoconjugados nos lisossomos. A deficiência da Neu1 é a base da sialidose, doença grave associada a um amplo espectro de manifestações, incluindo hipotonia e fraqueza muscular. Camundongos com deficiência de Neu1 desenvolvem degeneração muscular caracterizada principalmente por atrofia, invasão das fibras musculares por fibroblastos e expansão da matriz extracelular. A Neu1 controla a proliferação de fibroblastos de pacientes por meio da desialilação dos receptores de PDGF e IGF. Além disso, há enzimas lisossomais que são moduladas pela Neu1, tais como as catepsinas, que são capazes de degradar componentes musculares e estariam excessivamente ou erroneamente ativas (sialiladas) em decorrência da deficiência de Neu1. O objetivo deste trabalho foi identificar se o fenótipo da musculatura esquelética de camundongos Neu1-/- poderia estar associado à atividade do IGF-1R, PDGFR e/ou à sialilação de catepsina B, através da análise histológica e proteica de músculos esqueléticos e fibroblastos de camundongos Neu1+/+ e Neu1-/- tratados com inibidores de IGF1-R e PDGFR. O estudo da expressão proteica de catepsina B foi realizado nos músculos tratados com os inibidores de IGF-1R e PDGFR, e nas frações citosólica e lisossomal de fibroblastos tratados com neuraminidase exógena. Em comparação com camundongos Neu1+/+, os músculos de animais Neu1-/- apresentam menor área de fibra, peso corporal, expressão de pAkt e maior expressão de catepsina B; e os fibroblastos Neu1-/- exibem maior proliferação e expressão de pAkt. A inibição do IGF-1R em camundongos Neu1-/- aumentou a área das fibras musculares, expressão de pAKt e diminuiu a expressão de catepsina B; em relação aos fibroblastos Neu1-/-, entretanto aumentou a proliferação celular com diminuição de pAkt. A inibição do PDGFR em músculos de camundongos Neu1-/- levou ao aumento da expressão de pAkt, da área das fibras, com diminuição de pERK e catepsina L, quando comparados com os controles Neu1-/-; a mesma inibição in vitro conduziu à diminuição da expressão de pAkt, pERK e proliferação. A catepsina B encontra-se bastante ativa na fração lisossomal e o tratamento com neuraminidase foi eficaz na correção de seu peso molecular e compartimentalização lisossomal. De forma geral, o fenótipo muscular de camundongos Neu1-/- parece estar relacionado com a atividade de IGF-1R e PDGFR, e a catepsina B hipersialilada é potencialmente deletéria para o músculo esquelético / Neuraminidase 1 (Neu1) is an enzyme that regulates the catabolism of sialoglycoconjugates in lysosomes. Neu1 deficiency is the basis of sialidosis, a severe disease associated with a broad spectrum of manifestations, including hypotonia and muscle weakness. Neu1 deficient mice develop muscular degeneration characterized by atrophy, invasion of muscle fibers by fibroblasts, and expansion of the extracellular matrix. Neu1 controls the proliferation of fibroblasts from patients through the desialylation of PDGF and IGF receptors. In addition, lysosomal enzymes are modulated by Neu1, such as cathepsins, which degrade muscle components and are excessively or erroneously active (sialylated) as a result of Neu1 deficiency. The aim of this study was to identify whether skeletal muscle phenotype of Neu1-/- mice may be associated with IGF-1R, PDGFR and/or sialylation of cathepsin B, through protein and histological analysis of skeletal muscles and fibroblast from Neu1+/+ and Neu1-/- mice treated with IGF-1R and PDGFR inhibitors. The study of cathepsin B protein expression was performed in skeletal muscles treated with IGF-1R and PDGFR inhibitors, and in the cytosolic and lysosomal fractions of fibroblasts treated with exogenous neuraminidase. Compared with Neu1+/+ animals, Neu1-/- muscles showed smaller muscle fiber area, body weight, pAkt expression and higher cathepsin B expression; and Neu1-/- fibroblasts exhibited increased proliferation and expression of pAkt. The inhibition of IGF-1R Neu1-/- mice increased the area of muscle fibers, expression of pAkt and decreased expression of cathepsin B; but, considering Neu1-/- fibroblasts, there was increased cell proliferation with reduction of pAkt. The inhibition of PDGFR in muscles of Neu1-/- mice led to increased expression of pAkt, muscle fiber area, with decreased expression of pERK and cathepsin L, when compared with the Neu1-/- controls; the same inhibition in vitro led to reduced expression of pAkt, pERK and cell proliferation. Cathepsin B presented high activity in the lysosomal fraction and the treatment with neuraminidase was effective in the correction of its molecular weight and lysosomal compartmentalization. In general, the muscular phenotype of Neu1-/- mice is possibly related to IGF-1R and PDGFR activity, and oversialylated cathepsin B is potentially deleterious for the skeletal muscle
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