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Approches de thérapies géniques pour des maladies neuromusculaires / Gene therapy approaches for neuromuscular disordersMoulay, Gilles 09 July 2010 (has links)
La thérapie génique de myopathies telles que la dystrophie musculaire de Duchenne nécessite une approche systémique afin de traiter l’ensemble de la musculature. Le vecteur AAV est actuellement le plus efficace pour transduire le muscle. Nous montrons que la biodistribution du vecteur AAV administré par voie veineuse peut être modifiée en utilisant diverses stratégies adjuvantes chez la souris saine. La pré-injection de polymères permet ainsi d’améliorer la transduction des muscles par le vecteur AAV, ou encore de baisser la réponse immune neutralisante induite par l’injection intraveineuse du vecteur. Nous abordons également l’impact de facteurs modulateurs exogènes ou endogènes – tels que la procédure d’administration ou certains facteurs sanguins – sur la transduction systémique de l’AAV. Dans une seconde approche, nous avons évalué le transfert de gènes dans le muscle dystrophique afin de sécréter dans la circulation sanguine une protéine transgénique fusionnant le récepteur soluble I du TNF-α avec le fragment constant d’une immunoglobuline (TNFR-Is/mIgG1). La comparaison des cinétiques de sécrétion obtenu après le transfert de gène dans le muscle de souris saines ou de souris dystrophiques mdx indique que le contexte inflammatoire du muscle dystrophique favorise une réponse immune contre le transgène. Nous montrons que l’expression et la sécrétion d’un variant murin peu immunogène du TNFR-Is/mIgG1 améliore la fonction musculaire de la souris mdx sans toutefois conférer un avantage sélectif aux fibres musculaires dystrophiques qui continuent leur cycle de nécrose et de régénération. / Gene therapy of myopathies such as Duchenne muscular dystrophy requires a systemic approach in order to treat the whole musculature. The AAV vector is currently the most efficient delivery system for muscle transduction. We show that the biodistribution of AAV administered intravenously can be modified using different adjuvant strategies in healthy mice. In particular, the pre-injection of polymers enables an improvement of muscle transduction by AAV, and can also decrease the neutralizing immune response induced by the intravenous injection of this vector. We also explored in this work the impact of exogenous and endogenous modulating factors – such as the administration procedure or some blood factors – on the AAV transduction capacity. In a second approach, we evaluated gene transfer in dystrophic muscles in order to secrete in the blood circulation a transgenic protein associating the soluble TNF-α receptor I and the Fc fragment of an immunoglobulin (TNFR-Is/mIgG1). The comparison of the kinetic of secretion after muscle gene transfer in healthy and dystrophic mice indicates that the inflammatory context of dystrophic muscle increases the immune response against the transgene. We also show that while the expression and secretion of a low immunogenic murine variant of TNFR-Is/mIgG1 improves the mdx muscle function, it does not confer a selective advantage to muscle fibers which still undergo cycles of necrosis and regeneration.
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An investigation into the effects of dystrophin on the lateral mobility of muscle membrane componentsDutton, Anna Louise January 1999 (has links)
Dystrophin is the product of the Duchenne Muscular Dystrophy gene locus, whose absence results in progressive skeletal muscle breakdown. Despite considerable work on the localisation of dystrophin and its associated complex, its role in muscle function remains unclear. In the light of the structural and mechanical instability of the dystrophic membrane, the idea was tested that dystrophin might impart membrane integrity and strength by anchoring membrane proteins and/or delineating the surface into specialised subcellular functional domains. Specifically, because dystrophin shows high sequence, structural and spatial similarities to the cytoskeletal protein spectrin; and because spectrin is proven to sterically restrict protein lateral diffusion through a subplasmalemmal network; the capacity of dystrophin to act as a 'molecular fence' to membrane diffusion was studied by comparing lateral mobility of membrane glycoproteins by fluorescence photobleach recovery in mdx and normal tissue. Secondly, as dystrophin has been proven to interact directly with proteins of the dystrophin associated glycoprotein complex in vivo, experiments addressed whether specific binding and immobilisation of the complex by dystrophin at the membrane was essential for function. Finally, given the homology of dystrophin and spectrin, the presence of dystrophin at the neuromuscular junction, and the importance of spectrins in immobilisation of voltage gated sodium channels in the nervous system, the role of dystrophin in regulating voltage gated sodium channel distribution at the neuromuscular junction was investigated. The results show that membrane glycoproteins were immobile in the presence and absence of dystrophin, suggesting dystrophin is not an essential molecular fence component. Alternatively, viability may have been the major influence on protein and lipid diffusion in these fibres and suggestions are made as to how this may be recognised and overcome for subsequent investigation. Three novel exon specific anti-dystrophin peptide antibodies were generated during the work that will be useful for studies into Duchenne muscular dystrophy in general, and dystrophin revertant fibres in particular.
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Effects of Lipin1 Deficiency & Restoration in the Dystrophic DiaphragmBrown, Alexandra 23 May 2022 (has links)
No description available.
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Immune Response to Primary Aerosol Infection with Francisella novicidaRoth, Kimberly M. 05 September 2008 (has links)
No description available.
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Characterisation and strategic treatment of dystrophic muscleLaws, Nicola January 2005 (has links)
The mdx mouse is widely used as a model for Duchenne Muscular Dystrophy, a fatal X-linked disease caused by a deficiency of the sub-sarcolemmal protein, dystrophin. This dissertation reports characterisation of the features of dystrophy in the mdx mouse, including parameters such as electrophysiological and contractile properties of dystrophic cardiac tissue, quantitative evaluation of kyphosis throughout the mdx lifespan, and contractile properties of respiratory and paraspinal muscles. Following these characterisation studies, the efficacy of antisense oligonucleotides (AOs) to induce alternative mRNA splicing in mdx skeletal muscles (diaphragm and paraspinal muscles) was evaluated. The left atria of younger (<6 weeks) and older (>15 months) mdx mice showed consistently lower basal forces and responsiveness to increased calcium, while action potential duration was significantly shorter in young mice (3 weeks) and older mice (9 and 12 months) (P<0.05). Cardiac fibrosis increased with age in mdx atria and ventricles and was elevated in young (6-8 weeks) and old (15 months) mdx compared to control mice (P<0.01). This study provided insights into DMD cardiomyopathy, and suggested that very young or old mdx mice provide the most useful models. Mdx mice show thoracolumbar kyphosis like boys with Duchenne Muscular Dystrophy. A novel radiographic index, the Kyphotic Index (KI), was developed and showed that mdx mice are significantly more kyphotic from 9 months of age, an effect maintained until 17 months (P<0.05). At 17 months, the paraspinal and respiratory muscles (latissimus dorsi, diaphragm and intercostal muscles) are significantly weaker and more fibrotic (P<0.05). Administration of AOs at four sites within the diaphragm at 4 and 5 months of age significantly increased twitch and tetanic forces compared to sham treated mdx (P<0.05). However, no difference in collagen was evident and dystrophin was not detected, possibly due to the low concentration of AO utilised. This study suggested that AOs can provide functional improvement in treated skeletal muscles. Monthly injections with AOs into the paraspinal muscles from 2 months to 18 months of age alleviated kyphosis, without significantly altering twitch and tetanic forces of latissimus dorsi, diaphragm and intercostal muscles. There was evidence of less fibrosis in diaphragm and latissimus dorsi muscles (P<0.05) and reduced central nucleation of the latissimus dorsi and intercostal muscles (P<0.05). Again, dystrophin was not detected by immunoblot. These studies indicate that very young and old mdx mice display previously uncharacterised dystrophic features, and are useful models for testing new therapies such as AOs. Low doses of AOs were shown to be safe and efficacious for long-term use, however there remains a need for testing higher concentrations and improved delivery strategies.
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Efeitos do hormônio do crescimento (GH) na evolução da doença distrófica do modelo murino B6.Wk-Lama2dy-2J/J / Effects of growth hormone (GH) in the evolution of Dystrophy disease in model B6.Wk-Lama2dy-2J/JCarvalho, Maria Denise Fernandes 07 August 2009 (has links)
As distrofias musculares (DM) se caracterizam por degeneração progressiva e irreversível da musculatura esquelética. Dentre estas, a Distrofia Muscular de Duchenne (DMD), constitui doença letal ligada ao cromossomo X, caracterizada pela ausência de distrofina na membrana das fibras musculares, afetando um em cada 3.000 meninos nascidos vivos, sendo que a maioria será confinada à cadeira de rodas a partir dos 6 anos de idade e com sobrevida, sem cuidados especiais, em torno dos 25. Apesar do uso de técnicas modernas de diagnóstico, ainda não existe tratamento eficaz para essas doenças. Alguns trabalhos das décadas de 70 e 80 sugeriram que a inibição do hormônio do crescimento (GH) poderia retardar a evolução do processo distrófico de pacientes com DMD. Entretanto, como essas observações não foram comprovadas cientificamente até a presente data, neste trabalho estudamos os efeitos do excesso e da inibição do GH na evolução do quadro distrófico em modelo murino de distrofia muscular: i) administrou-se GH (10μg/ camundongo/dia, i.p., por 10 dias) em camundongos: a) distróficos dy/dy (B6.Wk-Lama2dy-2J/J) com fenótipo, resultando na aceleração dos sintomas da doença, traduzida pela piora das performances de 17% no teste de deambulação (TD), 64% no teste de sustentação (TS), 28% no teste da esteira (TE) e 55% no teste de força máxima (TFM), em relação aos distróficos que não tomaram GH; apenas no teste de resistência à inclinação (TRI) não houve diferença significativa; entretanto, cortes histológicos do músculo gastrocnêmico desses camundongos, não mostraram alterações significativas em relação aos distróficos que não tomaram a droga; quanto aos marcadores de degeneração e regeneração (MDR) na musculatura desses animais, o GH não alterou os níveis de Pax7, MyoD, Laminina e Desmina, mas aumentou de 90% os níveis de TGFβ-1, uma citocina inflamatória que induz fibrose; b) já nos camundongos normais, o GH, ao contrário dos resultados acima, aumentou as performances de 13% no TD e de 28% TS, e ligeiramente, de forma não significativa, em outros dois testes; cortes histológicos revelaram que o GH aumentou de 16,5% a área de secção transversal dos músculos desses animais, o que poderia explicar os resultados descritos acima; já os níveis dos MDR, incluindo o de TGFβ-1, estavam semelhantes aos dos animais controles; ii) desenvolveu-se um novo modelo experimental resultante de cruzamentos de camundongos geneticamente deficientes em GH (Ghrhrlit) com os distróficos dy/dy (B6.Wk-Lama2dy-2J/J), mostrando um retardo na evolução da doença: as performances dos anões distróficos em relação aos anões normais foram melhores que aquelas dos distróficos em relação aos animais normais, ou sejam, 14% maior TD, 71% maior no TS, 18% maior no TE, 5,5% maior no TRI e 102% maior no TFM; cortes histológicos mostraram que a área do interstício nos músculos dos anões distróficos foi 29% menor que a dos distróficos não anões; os níveis de TGFβ-1 nestes animais, foram os únicos entre aqueles dos MDR estudados, que encontravam-se diminuidos de 36% em relação àqueles dos distróficos não anões; iii) a inibição da liberação do GH pela octreatida, análogo da somatostatina, mostrou também uma relativa melhora ou uma estabilização na evolução do quadro distrófico, traduzido pelo aumento, após 60 dias de tratamento, das performances nos testes funcionais da musculatura em relação àquelas dos animais distróficos sem tratamento: foi 12% maior no TD enquanto os distróficos controles diminuíram em 14%; foi 27% maior no teste de Rota Rod, enquanto os distróficos controles diminuíram em 32%; mantiveram a mesma performance no TE, enquanto os distróficos controles pioraram em 23%, e foram 29% maiores no TS, e 43% no teste de força de preensão, enquanto os distróficos controles não melhoram as suas performances nestes testes. Esses resultados sugerem um efeito patológico do GH na musculatura distrófica, com seu excesso levando a uma piora da doença, possivelmente através do aumento dos níveis de TGFβ-1. A diminuição do GH, consequentemente, poderia levar a um retardo da evolução da doença. Estes estudos experimentais abrem perspectivas bastante promissoras para se testar inibição dos efeitos do GH na evolução das doenças distróficas humanas. / Muscular dystrophies (DM) are characterized by progressive and irrevertible degeneration of the skeleton muscles. Among them, Duchenne Muscular Dystrophy (DMD) consitutes lethal disease linked to chromossome X, distinguished by the absence of dystrophyn in the muscular fibers membrane, affecting one in each 3,000 boys born alive, who, most of them, will be confined to wheel chairs since the age of 6 and with life expectance, without special care, of 25 years. Despite modern diagnosis techniques, there is not an efficient treatment for these diseases. Some works from the 1970´s and 1980´s suggested that the inhibition of the growth hormone (GH) could retard the dystrophy process evolution in DMD patients. Nevertheless since this observation has not been proven scientifically, in the present work, the GH excess and inhibition effects on a murino model of muscular dystrophy, were studied: i) GH (10μg/mouse/day, i.p., for 10 days) was given to mice: a) dystrophic dy/dy (B6.Wk-Lama2dy-2J/J), with phenotype , resulting in the acceleration of the disease symptoms, confirmed by the performance worsening by 17% in the deambulation test (DT), 64% in the sustaining test (S), 28% in the mat test and 55% in the maximum strength test (MST), in relation to dystrophic mice which had not taken GH; only in the inclination resistance test (IRT) there was no significant difference; however, histological cuts of the gastrocnemius muscle of these mice did not show significant alterations, comparing to dystrophic mice which had not taken the drug: as to degeneration and regeneration markers (DRM) in these animals muscles, the GH did not alter Pax7, MyoD. Laminin and Desmin levels, although it increased by 90% the TGFβ-1 levels, an inflammatory cytokine, that induces fibrosis b) in normal mice, the GH, opposite to the results above, increased the performances by 13% in the DT and by 28% in the ST, and slightly, not significantly, in other two tests; histological cuts revealed that the GH increased by 16.5% the transversal section area of these animals muscles, what could explain the results described above; as to the MDR levels, including those of the TGFβ-1, they were similar to the control animals; ii) a new experimental model, resulting from the crossing of GH genetically deficient mice (Ghrthlit) with dystrophic dy/dy (B6.Wk-Lama2dy-2J/J), showing retardation in the disease evolution; the performances of the dystrophic dwarfs, compared to the normal dwarfs, were better than those of the dystrophic compared to normal animals, namely, 14% larger DT, 71% superior in the ST, 18% larger in the MT, 5.5% larger in the IRT and 102% superior in the MST; histological cuts showed that the interstice area in the dystrophic dwarfs muscles was 29% smaller than that of non-dwarfs dystrophic; the TGFβ-1 levels in these animals were the only MDR studied, which were found to be diminished by 36%, compared to those of the non-dwarfs dystrophic; the GH release inhibition by octreotide, somatostatin analogous, also showed a relative improvement or stabilization in the dystrophy evolution, demonstrated by the increase, ater 60 days treatment, of the performances in the muscle functional tests, compared to those of the dystrophic animals, without treatment: it was 12% larger in the DT, while the control dystrophic animals worsened by 32%; they maintained the same performance in the ST, and 43% in the seizing strength test, while the control dystrophic did not improve their performances in these tests. These results suggest a GH pathologic effect, possibly through the TGFβ-1 levels increase. The GH diminishing, consequently, could lead to the retardation in the disease evolution. These experimental studies open promissing perspectives to test the GH effects inhibition in human dystrophic diseases evolution.
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Modifying function and fibrosis of cardiac and skeletal muscle from mdx micevan Erp, Christel January 2005 (has links)
Duchenne Muscular Dystrophy (DMD) is a fatal condition occurring in approximately 1 in 3500 male births and is due to the lack of a protein called dystrophin. Initially DMD was considered a skeletal myopathy, but the pathology and consequences of cardiomyopathy are being increasingly recognised. Fibrosis, resulting from continual cycles of degeneration of the muscle tissues followed by inadequate regeneration of the muscles, is progressive in both cardiac and skeletal dystrophic muscle. In the heart fibrosis interferes with contractility and rhythm whereas it affects contractile function and causes contractures in skeletal muscles. This study utilised the mdx mouse which exhibits a pathological loss of muscle fibres and fibrosis characteristic of DMD, to examine a range of mechanisms that can influence muscle function and fibrosis. Ageing and workload both appear to contribute to the development of dystrophic features in cardiac and skeletal muscle of the mdx mouse. Therefore the effect of eccentric exercise on cardiac and skeletal muscle was examined in older mdx mice. Mice ran in 30 minute sessions for five months, 5 days per week. Downhill treadmill running did not exacerbate the contractile function or fibrosis of the mdx heart or the EDL, SOL or diaphragm muscles suggesting that cytokines influence function and fibrosis to a greater extent than workload alone. The role of the cytokine TGF-beta was examined by treating mdx mice with the TGF-beta antagonist pirfenidone at 0.4, 0.8 or 1.2 per cent in drinking water for six months. Pirfenidone improved cardiac contractility (P<0.01) and coronary flow (P<0.05), to levels comparable to control mice, despite no reduction in cardiac fibrosis. Pirfenidone did not reduce fibrosis or improve function in skeletal muscle. A deficiency of neuronal nitric oxide synthase (nNOS) in DMD and mdx mice causes a lowered production of nitric oxide indicating that the substrate of nNOS, l-arginine, may be beneficial to cardiac and skeletal muscle function in mdx mice. Oral l-arginine (5 mg/g bw) improved cardiac contractility, coronary flow and reduced cardiac fibrosis (P<0.05) without improving skeletal muscle function or fibrosis. In contrast, 10 mg/g bw l-arginine improved cardiac function and coronary flow (P<0.01), despite also elevating cardiac collagen. This increment in collagen was prevented by co-administration of prednisone. The experiments described in this dissertation reveal for the first time that pharmacological treatments in mdx mice can improve cardiac structure and function. Further elucidation of the optimum time and doses of such treatments may result in future pharmacological treatments to improve cardiac function and fibrosis in DMD.
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Efeitos do hormônio do crescimento (GH) na evolução da doença distrófica do modelo murino B6.Wk-Lama2dy-2J/J / Effects of growth hormone (GH) in the evolution of Dystrophy disease in model B6.Wk-Lama2dy-2J/JMaria Denise Fernandes Carvalho 07 August 2009 (has links)
As distrofias musculares (DM) se caracterizam por degeneração progressiva e irreversível da musculatura esquelética. Dentre estas, a Distrofia Muscular de Duchenne (DMD), constitui doença letal ligada ao cromossomo X, caracterizada pela ausência de distrofina na membrana das fibras musculares, afetando um em cada 3.000 meninos nascidos vivos, sendo que a maioria será confinada à cadeira de rodas a partir dos 6 anos de idade e com sobrevida, sem cuidados especiais, em torno dos 25. Apesar do uso de técnicas modernas de diagnóstico, ainda não existe tratamento eficaz para essas doenças. Alguns trabalhos das décadas de 70 e 80 sugeriram que a inibição do hormônio do crescimento (GH) poderia retardar a evolução do processo distrófico de pacientes com DMD. Entretanto, como essas observações não foram comprovadas cientificamente até a presente data, neste trabalho estudamos os efeitos do excesso e da inibição do GH na evolução do quadro distrófico em modelo murino de distrofia muscular: i) administrou-se GH (10μg/ camundongo/dia, i.p., por 10 dias) em camundongos: a) distróficos dy/dy (B6.Wk-Lama2dy-2J/J) com fenótipo, resultando na aceleração dos sintomas da doença, traduzida pela piora das performances de 17% no teste de deambulação (TD), 64% no teste de sustentação (TS), 28% no teste da esteira (TE) e 55% no teste de força máxima (TFM), em relação aos distróficos que não tomaram GH; apenas no teste de resistência à inclinação (TRI) não houve diferença significativa; entretanto, cortes histológicos do músculo gastrocnêmico desses camundongos, não mostraram alterações significativas em relação aos distróficos que não tomaram a droga; quanto aos marcadores de degeneração e regeneração (MDR) na musculatura desses animais, o GH não alterou os níveis de Pax7, MyoD, Laminina e Desmina, mas aumentou de 90% os níveis de TGFβ-1, uma citocina inflamatória que induz fibrose; b) já nos camundongos normais, o GH, ao contrário dos resultados acima, aumentou as performances de 13% no TD e de 28% TS, e ligeiramente, de forma não significativa, em outros dois testes; cortes histológicos revelaram que o GH aumentou de 16,5% a área de secção transversal dos músculos desses animais, o que poderia explicar os resultados descritos acima; já os níveis dos MDR, incluindo o de TGFβ-1, estavam semelhantes aos dos animais controles; ii) desenvolveu-se um novo modelo experimental resultante de cruzamentos de camundongos geneticamente deficientes em GH (Ghrhrlit) com os distróficos dy/dy (B6.Wk-Lama2dy-2J/J), mostrando um retardo na evolução da doença: as performances dos anões distróficos em relação aos anões normais foram melhores que aquelas dos distróficos em relação aos animais normais, ou sejam, 14% maior TD, 71% maior no TS, 18% maior no TE, 5,5% maior no TRI e 102% maior no TFM; cortes histológicos mostraram que a área do interstício nos músculos dos anões distróficos foi 29% menor que a dos distróficos não anões; os níveis de TGFβ-1 nestes animais, foram os únicos entre aqueles dos MDR estudados, que encontravam-se diminuidos de 36% em relação àqueles dos distróficos não anões; iii) a inibição da liberação do GH pela octreatida, análogo da somatostatina, mostrou também uma relativa melhora ou uma estabilização na evolução do quadro distrófico, traduzido pelo aumento, após 60 dias de tratamento, das performances nos testes funcionais da musculatura em relação àquelas dos animais distróficos sem tratamento: foi 12% maior no TD enquanto os distróficos controles diminuíram em 14%; foi 27% maior no teste de Rota Rod, enquanto os distróficos controles diminuíram em 32%; mantiveram a mesma performance no TE, enquanto os distróficos controles pioraram em 23%, e foram 29% maiores no TS, e 43% no teste de força de preensão, enquanto os distróficos controles não melhoram as suas performances nestes testes. Esses resultados sugerem um efeito patológico do GH na musculatura distrófica, com seu excesso levando a uma piora da doença, possivelmente através do aumento dos níveis de TGFβ-1. A diminuição do GH, consequentemente, poderia levar a um retardo da evolução da doença. Estes estudos experimentais abrem perspectivas bastante promissoras para se testar inibição dos efeitos do GH na evolução das doenças distróficas humanas. / Muscular dystrophies (DM) are characterized by progressive and irrevertible degeneration of the skeleton muscles. Among them, Duchenne Muscular Dystrophy (DMD) consitutes lethal disease linked to chromossome X, distinguished by the absence of dystrophyn in the muscular fibers membrane, affecting one in each 3,000 boys born alive, who, most of them, will be confined to wheel chairs since the age of 6 and with life expectance, without special care, of 25 years. Despite modern diagnosis techniques, there is not an efficient treatment for these diseases. Some works from the 1970´s and 1980´s suggested that the inhibition of the growth hormone (GH) could retard the dystrophy process evolution in DMD patients. Nevertheless since this observation has not been proven scientifically, in the present work, the GH excess and inhibition effects on a murino model of muscular dystrophy, were studied: i) GH (10μg/mouse/day, i.p., for 10 days) was given to mice: a) dystrophic dy/dy (B6.Wk-Lama2dy-2J/J), with phenotype , resulting in the acceleration of the disease symptoms, confirmed by the performance worsening by 17% in the deambulation test (DT), 64% in the sustaining test (S), 28% in the mat test and 55% in the maximum strength test (MST), in relation to dystrophic mice which had not taken GH; only in the inclination resistance test (IRT) there was no significant difference; however, histological cuts of the gastrocnemius muscle of these mice did not show significant alterations, comparing to dystrophic mice which had not taken the drug: as to degeneration and regeneration markers (DRM) in these animals muscles, the GH did not alter Pax7, MyoD. Laminin and Desmin levels, although it increased by 90% the TGFβ-1 levels, an inflammatory cytokine, that induces fibrosis b) in normal mice, the GH, opposite to the results above, increased the performances by 13% in the DT and by 28% in the ST, and slightly, not significantly, in other two tests; histological cuts revealed that the GH increased by 16.5% the transversal section area of these animals muscles, what could explain the results described above; as to the MDR levels, including those of the TGFβ-1, they were similar to the control animals; ii) a new experimental model, resulting from the crossing of GH genetically deficient mice (Ghrthlit) with dystrophic dy/dy (B6.Wk-Lama2dy-2J/J), showing retardation in the disease evolution; the performances of the dystrophic dwarfs, compared to the normal dwarfs, were better than those of the dystrophic compared to normal animals, namely, 14% larger DT, 71% superior in the ST, 18% larger in the MT, 5.5% larger in the IRT and 102% superior in the MST; histological cuts showed that the interstice area in the dystrophic dwarfs muscles was 29% smaller than that of non-dwarfs dystrophic; the TGFβ-1 levels in these animals were the only MDR studied, which were found to be diminished by 36%, compared to those of the non-dwarfs dystrophic; the GH release inhibition by octreotide, somatostatin analogous, also showed a relative improvement or stabilization in the dystrophy evolution, demonstrated by the increase, ater 60 days treatment, of the performances in the muscle functional tests, compared to those of the dystrophic animals, without treatment: it was 12% larger in the DT, while the control dystrophic animals worsened by 32%; they maintained the same performance in the ST, and 43% in the seizing strength test, while the control dystrophic did not improve their performances in these tests. These results suggest a GH pathologic effect, possibly through the TGFβ-1 levels increase. The GH diminishing, consequently, could lead to the retardation in the disease evolution. These experimental studies open promissing perspectives to test the GH effects inhibition in human dystrophic diseases evolution.
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The Effect of Endothelin-1 on the expression of CDK Inhibitors p21 & p27 in Bovine Corneal Endothelial CellsBollu, Lakshmi Reddy 01 July 2009 (has links)
Mammalian corneal endothelial cells are considered to be non-proliferative due to the arrest of cells at the G1 phase of the cell cycle. The purpose of this study was to determine whether the down regulation of cyclin dependant kinase inhibitors (p21cip1 and p27kip1) levels by Endothelin-1 (ET-1), would overcome the G1 phase arrest and promote cell cycle progression and proliferation in cultured BCECs (Bovine corneal endothelial cells). BCECs were isolated from bovine corneas and cultured in DMEM supplemented with 10% serum. 5-Bromo 2-deoxy Uridine (BrdU) incorporation was determined in serum starved cultures in 24-well plates as a measure of cell proliferation. Confluent serum starved cells grown in T-25 flasks were treated with 100nM Endothelin-1 in DMEM. The control cells were left untreated in serum free medium. Total cellular protein was isolated using RIPA buffer and quantified according to the Peterson modification of the Lowry method. The level of expression of p21cip1 and p27kip1 proteins relative to β-actin was determined by western blotting technique. Immuno fluorescent localization of p27kip1 was performed using polyclonal anti-p27kip1 and anti-p21cip1 antibodies in confluent and growing cells. An increase in cell proliferation was observed in sub-confluent cultures with Endothelin-1 treatment. This evidence was supported by an increase (~18%) in BrdU incorporation in response to Endothelin-1. Densitometry analysis of immunoblots revealed an increase in the expression of p27kip1 in confluent cell cultures when compared to sub-confluent, dividing cells. p21cip1 was almost undetectable in sub-confluent, actively dividing cultures. Immuno fluorescent analysis revealed that the nuclear staining of p27kip1 was apparently decreased with ET-1 treatment. In conclusion, Endothelin-1 treatment resulted in decrease in p27kip1 and p21cip1 expression in confluent cultures that was greatest at 30 hr of post incubation with Endothelin-1. Endothelin-1 appears to promote cell proliferation. Expression of p27kip1 and p21cip1 was greatly reduced in actively dividing BCECs. Endothelin-1 treatment down-regulated these cyclin dependent kinase inhibitors and may promote cell cycle progression via this mechanism.
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Fitat: estudis sobre la seva activitat biològica i els efectes sobre la prevenció de les calcificacions patològiquesPerelló Bestard, Joan 19 April 2005 (has links)
En aquesta Tesi Doctoral es pretén seguir aprofundint en l'estudi de l'activitat biològica del fitat, molècula que està demostrant unes inusitades, i fins fa poc desconegudes, propietats com inhibidor del desenvolupament de calcificaciones patològiques.En primer lloc, es presenten tres metodologies analítiques per a la determinació simple y sensible del myo-inositol i del fitat a nivells fisiològics.Posteriorment, es dedica un capítol a l'estudi de l'absorció oral i tòpica del fitat, avaluant després els seus efectes sobre la prevenció de calcificaciones distròfiques subepitelials.Finalment, es demostra que el fitat administrat oralment en una dosi elevada i a llarg termini no provoca problemes de biodisponibilitat i per altra banda, s'estudien els efectes de diferents sals de fitat sobre la disminució de la calciúria, demostrant-se que aquests efectes depenen bàsicament del tipus de sal emprada, essent el fitat potàssic el que provoca una disminució més important del calci urinari. / En esta Tesis Doctoral se pretende seguir profundizando en el estudio de la actividad biológica del fitato, molécula que está demostrando unas inusitadas, y hasta hace poco desconocidas, propiedades como inhibidor del desarrollo de calcificaciones patológicas.En primer lugar, se presentan tres metodologías analíticas para la determinación simple y sensible del myo-inositol y del fitato a niveles fisiológicos.Posteriormente, se dedica un capítulo al estudio de la absorción oral y tópica del fitato, evaluando después sus efectos sobre la prevención de calcificaciones distróficas subepiteliales.Finalmente, se demuestra que el fitato administrado oralmente en una dosis elevada y a largo plazo no causa problemas de biodisponibilidad y por otra parte, se estudian los efectos de diferentes sales de fitato sobre la dismunución de la calciuria, demostrándose que éstos dependen básicamente del tipo de sal utilizada, siendo el fitato potásico el que provoca una disminución más importante del calcio urinario. / The purpose of this Doctoral Thesis is to complete the knowledge of the biological activity of phytate, which is a molecule that has recently demonstrated unknown properties as an inhibitor of pathological calcifications. First of all, three analytical methodologies are presented for the simple and sensitive determination of myo-inositol and phytate at physiological levels. Next, oral and topic absorption of phytate are studied, evaluating its effects on the prevention of subepithelial dystrophic calcifications. Finally, it is demonstrated in a long-term study that oral phytate at high doses does not provoke bioavailability problems and, on the other hand, the effects of different phytate salts on urinary calcium reduction are studied, being potassium phytate the most effective salt.
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