Global ETD Search

71	Fonctions des triadines dans le muscle squelettique. Caractérisation de l'isoforme Trisk 32. Oddoux, Sarah 23 October 2009 (has links) (PDF) La triadine est une famille de protéines du muscle squelettique. Quatre isoformes de la triadine ont été clonées: Trisk 95, Trisk 51, Trisk 49 et Trisk 32. Ce sont des protéines transmembranaires du reticulum sarcoplasmique (RS). Trisk 95 et Trisk 51 sont localisées dans la triade où elles sont associées au récepteur de la ryanodine (RyR), un canal calcique. Trisk 49 et Trisk 32 sont localisées dans le RS longitudinal. Il a été montré que Trisk 95 régule les relâchements de Ca2+ du RyR. L'objectif de ce travail de thèse a été d'étudier les fonctions des triadines dans le muscle squelettique grâce à différentes approches et techniques complémentaires. Dans un premier temps, Trisk 95 et de Trisk 51 ont été étudiées par surexpression in vivo dans les muscles de souris. La caractérisation de ces muscles a permis de mettre en évidence l'association du RyR avec la cavéoline, une protéine de la membrane plasmique. Dans un second temps, la fonction de Trisk 32 a été étudiée dans le muscle squelettique. L'étude précise de sa localisation a permis de montrer qu'elle est localisée dans la triade, dans le RS longitudinal, et à proximité des mitochondries. Des expériences de co-immunoprécipitation ont révélé qu'elle est associée avec le RyR et avec le récepteur de l'IP3. De par ses partenaires, Trisk 32 semble jouer un rôle dans la régulation de nombreux mécanismes impliquant le Ca2+. Enfin, le gène de la triadine a été invalidé chez la souris. Cette souris KO triadine présente une faiblesse musculaire et des défauts dans l'ultrastructure de la triade. Ces résultats indiquent qu'en plus de sa fonction de régulation des relâchements de Ca2+ la triadine pourrait avoir un rôle structural. [SDV:BC] Life Sciences/Cellular Biology calséquestrine cavéoline complexe de relâchement du calcium couplage excitation-contraction muscle cardiaque muscle squelettique récepteur de l'IP3 récepteur de la ryanodine reticulum sarcoplasmique souris KO triade triadine tubule-transverse
72	Oscillatory Ca<sup>2+</sup> signaling in glucose-stimulated murine pancreatic β-cells : Modulation by amino acids, glucagon, caffeine and ryanodine Ahmed, Meftun January 2001 (has links) <p>Oscillations in cytoplasmic Ca<sup>2+</sup> concentration ([Ca<sup>2+</sup>]<sub>i</sub>) is the key signal in glucose-stimulated β-cells governing pulsatile insulin release. The glucose response of mouse β-cells is often manifested as slow oscillations and rapid transients of [Ca<sup>2+</sup>]<sub> i</sub>. In the present study, microfluorometric technique was used to evaluate the role of amino acids, glucagon, ryanodine and caffeine on the generation and maintenance of [Ca<sup>2+</sup>]<sub> i</sub> oscillations and transients in individual murine β-cells and isolated mouse pancreatic islets. The amino acids glycine, alanine and arginine, at around their physiological concentrations, transformed the glucose-induced slow oscillations of [Ca<sup>2+</sup>]<sub> i</sub> in isolated mouse β-cells into sustained elevation. Increased Ca<sup>2+</sup> entry promoted the reappearance of the slow [Ca<sup>2+</sup>]<sub> i</sub> oscillations. The [Ca<sup>2+</sup>]<sub> i</sub> oscillations were more resistant to amino acid transformation in intact islets, supporting the idea that cellular interactions are important for maintaining the oscillatory activity. Individual rat β-cells responded to glucose stimulation with slow [Ca<sup>2+</sup>]<sub> i</sub> oscillations due to periodic entry of Ca<sup>2+</sup> as well as with transients evoked by mobilization of intracellular stores. The [Ca<sup>2+</sup>]<sub> i</sub> oscillations in rat β-cells had a slightly lower frequency than those in mouse β-cells and were more easily transformed into sustained elevation in the presence of glucagon or caffeine. The transients of [Ca<sup>2+</sup>]<sub> i</sub> were more common in rat than in mouse β-cells and often appeared in synchrony also in cells lacking physical contact. Depolarization enhanced the generation of [Ca<sup>2+</sup>]<sub> i</sub> transients. In accordance with the idea that β-cells have functionally active ryanodine receptors, it was found that ryanodine sometimes restored oscillatory activity abolished by caffeine. However, the IP3 receptors are the major Ca<sup>2+</sup> release channels both in β-cells from rats and mice. Single β-cells from ob/ob mice did not differ from those of lean controls with regard to frequency, amplitudes and half-widths of the slow [Ca<sup>2+</sup>]<sub> i</sub> oscillations. Nevertheless, there was an excessive firing of [Ca<sup>2+</sup>]<sub> i</sub> transients in the β-cells from the ob/ob mice, which was suppressed by leptin at close to physiological concentrations. The enhanced firing of [Ca<sup>2+</sup>]<sub> i</sub> transients in ob/ob mouse β-cells may be due to the absence of leptin and mediated by activation of the phospholipase C signaling pathway.</p> Cell biology pancreatic β-cells islets of Langerhans glucose Ca2+ oscillations Ca2+ transients potassium ryanodine caffeine glucagon cAMP inositol 1 4 5-trisphosphate fura-2 glycine alanine arginine Ca2+ channels rats lean mice ob/ob mice leptin Cellbiologi Cell biology Cellbiologi
73	Oscillatory Ca2+ signaling in glucose-stimulated murine pancreatic β-cells : Modulation by amino acids, glucagon, caffeine and ryanodine Ahmed, Meftun January 2001 (has links) Oscillations in cytoplasmic Ca2+ concentration ([Ca2+]i) is the key signal in glucose-stimulated β-cells governing pulsatile insulin release. The glucose response of mouse β-cells is often manifested as slow oscillations and rapid transients of [Ca2+] i. In the present study, microfluorometric technique was used to evaluate the role of amino acids, glucagon, ryanodine and caffeine on the generation and maintenance of [Ca2+] i oscillations and transients in individual murine β-cells and isolated mouse pancreatic islets. The amino acids glycine, alanine and arginine, at around their physiological concentrations, transformed the glucose-induced slow oscillations of [Ca2+] i in isolated mouse β-cells into sustained elevation. Increased Ca2+ entry promoted the reappearance of the slow [Ca2+] i oscillations. The [Ca2+] i oscillations were more resistant to amino acid transformation in intact islets, supporting the idea that cellular interactions are important for maintaining the oscillatory activity. Individual rat β-cells responded to glucose stimulation with slow [Ca2+] i oscillations due to periodic entry of Ca2+ as well as with transients evoked by mobilization of intracellular stores. The [Ca2+] i oscillations in rat β-cells had a slightly lower frequency than those in mouse β-cells and were more easily transformed into sustained elevation in the presence of glucagon or caffeine. The transients of [Ca2+] i were more common in rat than in mouse β-cells and often appeared in synchrony also in cells lacking physical contact. Depolarization enhanced the generation of [Ca2+] i transients. In accordance with the idea that β-cells have functionally active ryanodine receptors, it was found that ryanodine sometimes restored oscillatory activity abolished by caffeine. However, the IP3 receptors are the major Ca2+ release channels both in β-cells from rats and mice. Single β-cells from ob/ob mice did not differ from those of lean controls with regard to frequency, amplitudes and half-widths of the slow [Ca2+] i oscillations. Nevertheless, there was an excessive firing of [Ca2+] i transients in the β-cells from the ob/ob mice, which was suppressed by leptin at close to physiological concentrations. The enhanced firing of [Ca2+] i transients in ob/ob mouse β-cells may be due to the absence of leptin and mediated by activation of the phospholipase C signaling pathway. Cell biology pancreatic β-cells islets of Langerhans glucose Ca2+ oscillations Ca2+ transients potassium ryanodine caffeine glucagon cAMP inositol 1 4 5-trisphosphate fura-2 glycine alanine arginine Ca2+ channels rats lean mice ob/ob mice leptin Cellbiologi Cell biology Cellbiologi
74	Inhibtion der Ca<sup>2+</sup>/Calmodulin-abhängigen Proteinkinase (CaMKII) verbessert die Kontratilität von terminal insuffizientem Myokard des Menschen / Inhibition of Ca<sup>2+</sup>/calmodulin-dependent protein kinase II (CaMKII) improves contractility in human end-stage failing myocardium Fluschnik, Nina 10 January 2012 (has links) No description available. 610 Medizin, Gesundheit Medicine Calmodulin-abhängige Proteinkinase II Ryanodinrezeptor Calcium Herzinsuffizienz Kontraktilität Sarcoplasmiatisches Retikulum -Ca2+leck calcium heart failure ryanodine receptor contractility Sarcoplasmic reticulum Ca2+ leak 44.00 44.85 Kardiologie Angiologie Nicht einsehbar
75	CaMKII-dependent regulation of ion channels and its role in cardiac arrhythmias / CaMKII-abhängige Regulation von Ionenkanälen und ihre Rolle bei kardialen Arrhythmien Dybkova, Nataliya 03 July 2008 (has links) No description available. 500 Naturwissenschaften allgemein Mathematics and Computer Science Arrhythmien CaMKII Calcium elektromechanische Kopplung Na Kanal Ryanodin-Rezeptor arrhythmias CaMKII calcium excitation-contraction coupling Na channel ryanodine receptor 42.13 Molekularbiologie 42.12 Biophysik WA 000: Biologie
76	Efeitos da alimentação/digestão e do jejum prolongado sobre a função cardíaca de cascavéis, Crotalus durissus terrificus Paula, Gabrielle Silveira de 14 September 2012 (has links) Made available in DSpace on 2016-06-02T19:22:58Z (GMT). No. of bitstreams: 1 5111.pdf: 6171719 bytes, checksum: 0356f236abaa5b549156bc72fde00f70 (MD5) Previous issue date: 2012-09-14 / Universidade Federal de Minas Gerais / Some snakes have the ability to survive long periods without food and are capable to ingest large meal size. The ingestion of proportionally large preys triggers an expressive increase on the oxidative metabolic demand (SDA Specific Dinamic Action) which can become several times higher than the resting metabolic rate. The two described extreme situations might lead to cardiac changes to adapt structure and function in order to afford these two opposite physiological demands. During long food deprivation (Phase III), the depletion of the body structure may affect the heart muscle. That should be reverted to the SDA and prevent an overload on cardiovascular system. The standard cardiac function of South-american Rattlesnake, Crotalus durissus terrificus, was described as well as the changes caused by long term food deprivation and SDA. The importance of sodium-calcium exchanger (NCX), functionality of sarcoplasmic reticulum, extracellular calcium dependence and the effect of adrenergic stimulation were tested in adult animals at 30°C, under three different metabolic states: postabsorptive, SDA peak and food deprivation. The ventricular mass does not change after food deprivation and SDA. The force of contraction was higher in the base of the heart if compared to the apex, but there is no difference among the experimental groups and it is probably reflex of the fiber orientation in each region of the ventricle. The sarcoplasmatic reticulum is functional in all groups, but the dependence of reticular calcium is lower during starvation compared to the other groups. Muscle contraction is mostly supported by the extracellular Ca2+. The NCX have minor contribution to force generation (20%) but has a major role pumping calcium out of the cell (faster than SERCA). The increase in extracellular Ca2+ concentration during digestion can augment twitch force and would represent a contractile advantage to support the increased cardiac work without the development of hypertrophy. The adrenergic stimulation produced sustained increase in Fc for a wide range of stimulation frequencies in all the tested groups. / O coração possui a importante capacidade de se remodelar diante de alterações nas demandas funcionais. Serpentes apresentam a capacidade de ingestão de grandes presas e a capacidade de sobreviver a grandes períodos de privação alimentar. A ingestão de grandes massas de alimento demanda uma elevação metabólica e leva a uma compensação na massa ventricular e um aumento na força de contração do miocárdio, evitando uma sobrecarga no sistema cardiovascular. Durante o jejum ocorre depleção da estrutura corpórea podendo também atingir o músculo cardíaco. Para descrever a função cardíaca da Cascavél Sul-americana, Crotalus durissus terrificus, e as possíveis alterações diante dos extremos metabólicos, foi testada a importância do trocador Na+/Ca2+ (NCX), a funcionalidade do retículo sarcoplasmático (RS), a dependência do Ca2+ extracelular e o efeito da estimulação adrenérgica em animais adultos à temperatura constante de 30°C em período pós-absortivo, pico de SDA e após jejum prolongado. Observou-se que a massa ventricular se mantém estável mesmo durante os extremos metabólicos. Há uma diferença na geração de tensão entre as tiras da base e ápice ventriculares, presente nos 3 grupos alimentares e que pode se dar em função da orientação das fibras nas duas regiões do ventrículo. O teste com rianodina mostrou que o RS é funcional nos 3 grupos porém a dependência do cálcio proveniente do RS é menor após o jejum prolongado quando comparado aos demais grupos. O cálcio extracelular é o principal responsável pela contração do miócito cardíaco e o NCX, que fornece uma pequena parte de cálcio para a contração, é o principal bombeador de cálcio para fora da célula e é mais rápido do que a Ca2+- ATPase do RS. O meio extracelular é a principal fonte de cálcio ativador da contração sendo que o aumento de cálcio circulante disponível para a contração nos animais durante a digestão ofereceria uma vantagem contrátil para este grupo sem necessidade de hipertrofia. A adrenalina produziu um aumento substancial na Fc capaz e ser mantido por diferentes frequências de estimulação nos 3 grupos testados. Fisiologia Rianodina Retículo sarcoplasmático Trocador sódio-cálcio Função cardíaca Crotalus durissus terrificus Tensão isométrica NCX Cardiac function Crotalus durissus terrificus Sarcoplasmic reticulum Isometric tension Ryanodine NCX CIENCIAS BIOLOGICAS::FISIOLOGIA
77	Estudo clínico, histológico e molecular da miopatia centronuclear / A clinical, histological and molecular study of centronuclear myopathy Osório Lopes Abath Neto 02 October 2014 (has links) Introdução: A miopatia centronuclear é uma doença muscular congênita com apresentação clínica heterogênea, caracterizada histologicamente pela proeminência de fibras musculares com núcleos centralizados. Três formas são reconhecidas: neonatal grave, com herança ligada ao X e envolvimento do gene MTM1; autossômica dominante, com início geralmente tardio e curso mais leve, associada a mutações no gene DNM2; e autossômica recessiva, com gravidade intermediária entre as outras formas e envolvimento dos genes BIN1, RYR1 ou TTN. Apesar da identificação dos principais genes responsáveis pela doença, os métodos usuais de diagnóstico genético não encontram mutações em cerca da metade dos casos. Objetivo: O objetivo deste estudo foi a caracterização clínica, histológica e molecular de pacientes brasileiros portadores de miopatia centronuclear. Métodos: Laudos de dois bancos de biópsia muscular foram usados para identificar pacientes com diagnóstico de miopatia centronuclear nos últimos dez anos. As lâminas das biópsias foram revisadas e analisadas, e as famílias correspondentes convocadas para aplicação de protocolo clínico e coleta de sangue periférico para extração de DNA genômico. As famílias foram estudadas para os genes conhecidos por sequenciamento Sanger, MLPA, painel de genes implicados em doenças neuromusculares ou sequenciamento de exoma. Resultados: Foram convocados 24 pacientes provenientes de 21 famílias, em 16 das quais foi possível estabelecer o diagnóstico molecular. As 7 famílias com a forma neonatal grave constituíam um grupo homogêneo clínica e histologicamente, e mutações novas e conhecidas foram encontradas no gene MTM1 em 6 destas. Dois meninos deste grupo, com evolução estável, tiveram óbito súbito por choque hipovolêmico subsequente a rompimento de cisto hepático. O gene MTM1 também foi implicado em uma menina portadora manifestante, com quadro mais leve, na forma de uma macrodeleção em heterozigose, detectada por MPLA. Duas famílias em cuja histologia foram encontradas fibras com aspecto em \"roda de carroça\" apresentaram mutações no gene DNM2, uma das quais, p.Phe372Cys, nunca havia sido descrita. Em 7 famílias, o gene RYR1 foi o responsável, em todas sob a forma de heterozigose composta, com 14 mutações, das quais 13 novas, encontradas ao longo de todo o gene. Este grupo, apesar de heterogêneo clinicamente, apresentou em comum a presença de falhas focais na atividade oxidativa das fibras musculares na maioria dos indivíduos. O gene TTN está provavelmente implicado em uma família com um único afetado, no qual o sequenciamento de exoma mostrou mutação nula em heterozigose composta. Nesta coorte de pacientes brasileiros, não houve famílias com alterações no gene BIN1, e três famílias seguem sem diagnóstico molecular, com prováveis novos genes implicados. Conclusões: Os achados clínicos e histológicos de pacientes brasileiros com miopatia centronuclear seguem os padrões descritos na literatura, e em conjunto podem direcionar o estudo molecular adequado. Nesta coorte de pacientes, o gene RYR1, estudado por sequenciamento de alto débito de exoma, foi o mais frequentemente acometido, sugerindo que sua implicação na miopatia centronuclear vem sendo subestimada. Novas mutações encontradas nos genes MTM1, DNM2 e RYR1 contribuíram para confirmar regiões de patogenicidade e ampliar o espectro de alterações nestes genes / Introduction: Centronuclear myopathy is a heterogeneous congenital muscle disease, characterized by the prominence of centralized nuclei in muscle fibers. Three disease forms are recognized: a severe neonatal, X-linked form caused by mutations in the MTM1 gene; an autosomal dominant, late-onset milder form, associated to the DNM2 gene; and an autosomal recessive form, with intermediate severity, so far with the BIN1, RYR1 or TTN genes implicated. In spite of the identification of these genes, usual molecular diagnostic methods don\'t yield a molecular diagnosis in about half of cases. Objetives: The aim of this work was to study clinical, histological, and molecular aspects of centronuclear myopathy Brazilian patients. Methods: Reports taken from two muscle biopsy banks were used to identify centronuclear myopathy patients in the last ten years. Biopsy slides were reviewed and analyzed, and corresponding families recruited to apply a clinical protocol and to draw peripheral blood to extract genomic DNA. Families were studied for known genes via Sanger sequencing, MLPA, panel of genes implicated in neuromuscular diseases, or exome sequencing. Results: Twentyfour patients out of 21 families were recruited, and in 16 families molecular diagnosis was established. The 7 families with the severe neonatal form amounted to a clinically and histologically homogeneous group, and mutations, both known and novel, were found in the MTM1 gene in 6 of these. Two boys of this group, with a stable course, died suddenly of hypovolemic shock due to a hepatic cyst rupture. The MTM1 gene was also implicated in the case of a mild manifesting carrier girl with a heterozygous macrodeletion detected via MLPA. Two families whose histology contained fibers with a \"spoke of wheels\" aspect had mutations in the DNM2 gene, one of which, p.Phe372Cys, had never been described. In 7 families, the RYR1 gene was the culprit, in all of them in a compound heterozygous state, with 14 mutations, 13 of which novel, found throughout the length of the gene. This group, despite clinically heterogeneous, had in common the presence of focal disruptions in the oxidative activity of muscle fibers in the majority of individuals. The TTN gene is probably implicated in a family with a single affected, whose exome sequencing showed compound heterozygous null mutations. In this cohort of Brazilian patients, no family was found to have alterations in the BIN1 gene, and three families remain without molecular diagnosis, with probable new implicated genes. Conclusions: Clinical and histological findings of Brazilian patients with centronuclear myopathy follow patterns already described in the literature, and taken as a whole can direct the adequate molecular study. In this patient cohort, the RYR1 gene, sequenced though hight-throughput techniques, was the most frequently involved, suggesting that its implication in centronuclear myopathy is underestimated. Novel mutations found in the MTM1, DNM2 and RYR1 genes contributed to confirm pathogenic regions and expand the spectrum of alterations in these genes Biópsia Dinamina II Exoma Hipotonia muscular Miopatia centronuclear Biopsy Dynamin II Exome Highthroughput nucleotide sequencing Muscle hypotonia Myopathies structural congenital
78	Les mécanismes synaptiques et intrinsèques qui sous-tendent l’activité des cellules réticulospinales (RS) en réponse à une stimulation sensorielle de type cutané chez la lamproie Fénelon, Karine 11 1900 (has links) Chez diverses espèces animales, les informations sensorielles peuvent déclencher la locomotion. Ceci nécessite l’intégration des informations sensorielles par le système nerveux central. Chez la lamproie, les réseaux locomoteurs spinaux sont activés et contrôlés par les cellules réticulospinales (RS), système descendant le plus important. Ces cellules reçoivent des informations variées provenant notamment de la périphérie. Une fois activées par une brève stimulation cutanée d’intensité suffisante, les cellules RS produisent des dépolarisations soutenues de durées variées impliquant des propriétés intrinsèques calcium-dépendantes et associées à l’induction de la nage de fuite. Au cours de ce doctorat, nous avons voulu savoir si les afférences synaptiques ont une influence sur la durée des dépolarisations soutenues et si l’ensemble des cellules RS partagent des propriétés d’intégration similaires, impliquant possiblement les réserves de calcium internes. Dans un premier temps, nous montrons pour la première fois qu’en plus de dépendre des propriétés intrinsèques des cellules réticulospinales, les dépolarisations soutenues dépendent des afférences excitatrices glutamatergiques, incluant les afférences spinales, pour perdurer pendant de longues périodes de temps. Les afférences cutanées ne participent pas au maintien des dépolarisations soutenues et les afférences inhibitrices glycinergique et GABAergiques ne sont pas suffisantes pour les arrêter. Dans un deuxième temps, nous montrons que suite à une stimulation cutanée, l’ensemble des cellules RS localisées dans les quatre noyaux réticulés possèdent un patron d’activation similaire et elles peuvent toutes produire des dépolarisations soutenues dont le maintien ne dépend pas des réserves de calcium internes. Enfin, les résultats obtenus durant ce doctorat ont permis de mieux comprendre les mécanismes cellulaires par lesquels l’ensemble des cellules RS intègrent une brève information sensorielle et la transforment en une réponse soutenue associée à une commande motrice. / In various animal species, sensory information can initiate locomotion. This relies on the integration of sensory inputs by the central nervous system. In lampreys, the spinal locomotor networks are activated and controlled by the reticulospinal cells (RS) which constitute the main descending system. In turn, RS cells receive information coming from various synaptic inputs such as the sensory afferents. Once activated by a brief cutaneous stimulation of sufficient strength, RS cells display sustained depolarizations of various durations that rely on calcium-dependant intrinsic properties and lead to the onset of escape swimming. During the course of this Ph.D, we aimed at determining whether synaptic inputs can modulate the duration of the sustained depolarizations and if the different populations of RS cells share the same integrative properties, possibly involving the internal calcium stores. First, our results show for the first time that excitatory glutamatergic inputs, including ascending spinal feedback, contribute to prolong the sustained depolarizations for long periods of time. Cutaneous inputs do not contribute to maintain the sustained depolarizations and inhibitory glycinergic and GABAergic inputs are not sufficient to stop them. Second, we show that in response to cutaneous stimulation, the RS located in the four reticular nuclei display a similar activation pattern and can all produce sustained depolarizations which do not depend on internal calcium release to be maintained. Finally, the results obtained during this Ph.D allowed us to better understand the cellular mechanisms by which the RS cells integrate and transform a brief sensory information into a sustained response associated with a motor command. intégration sensorimotrice locomotion cellules réticulospinales dépolarisation soutenue potentiel de plateau stimulation cutanée tronc cérébral nerf trijumeau cellules sensorielles de relais glutamate CNQX AP-5 glycine strychnine caféine ryanodine imagerie calcique lamproie Sensorimotor integration locomotion reticulospinal cells sensory relay cells brainstem cutaneous stimulation trigeminal nerve sustained depolarization plateau potential glutamate CNQX AP-5 glycine strychnine caffeine ryanodine calcium imaging lamprey
79	Les mécanismes synaptiques et intrinsèques qui sous-tendent l’activité des cellules réticulospinales (RS) en réponse à une stimulation sensorielle de type cutané chez la lamproie Fénelon, Karine 11 1900 (has links) Chez diverses espèces animales, les informations sensorielles peuvent déclencher la locomotion. Ceci nécessite l’intégration des informations sensorielles par le système nerveux central. Chez la lamproie, les réseaux locomoteurs spinaux sont activés et contrôlés par les cellules réticulospinales (RS), système descendant le plus important. Ces cellules reçoivent des informations variées provenant notamment de la périphérie. Une fois activées par une brève stimulation cutanée d’intensité suffisante, les cellules RS produisent des dépolarisations soutenues de durées variées impliquant des propriétés intrinsèques calcium-dépendantes et associées à l’induction de la nage de fuite. Au cours de ce doctorat, nous avons voulu savoir si les afférences synaptiques ont une influence sur la durée des dépolarisations soutenues et si l’ensemble des cellules RS partagent des propriétés d’intégration similaires, impliquant possiblement les réserves de calcium internes. Dans un premier temps, nous montrons pour la première fois qu’en plus de dépendre des propriétés intrinsèques des cellules réticulospinales, les dépolarisations soutenues dépendent des afférences excitatrices glutamatergiques, incluant les afférences spinales, pour perdurer pendant de longues périodes de temps. Les afférences cutanées ne participent pas au maintien des dépolarisations soutenues et les afférences inhibitrices glycinergique et GABAergiques ne sont pas suffisantes pour les arrêter. Dans un deuxième temps, nous montrons que suite à une stimulation cutanée, l’ensemble des cellules RS localisées dans les quatre noyaux réticulés possèdent un patron d’activation similaire et elles peuvent toutes produire des dépolarisations soutenues dont le maintien ne dépend pas des réserves de calcium internes. Enfin, les résultats obtenus durant ce doctorat ont permis de mieux comprendre les mécanismes cellulaires par lesquels l’ensemble des cellules RS intègrent une brève information sensorielle et la transforment en une réponse soutenue associée à une commande motrice. / In various animal species, sensory information can initiate locomotion. This relies on the integration of sensory inputs by the central nervous system. In lampreys, the spinal locomotor networks are activated and controlled by the reticulospinal cells (RS) which constitute the main descending system. In turn, RS cells receive information coming from various synaptic inputs such as the sensory afferents. Once activated by a brief cutaneous stimulation of sufficient strength, RS cells display sustained depolarizations of various durations that rely on calcium-dependant intrinsic properties and lead to the onset of escape swimming. During the course of this Ph.D, we aimed at determining whether synaptic inputs can modulate the duration of the sustained depolarizations and if the different populations of RS cells share the same integrative properties, possibly involving the internal calcium stores. First, our results show for the first time that excitatory glutamatergic inputs, including ascending spinal feedback, contribute to prolong the sustained depolarizations for long periods of time. Cutaneous inputs do not contribute to maintain the sustained depolarizations and inhibitory glycinergic and GABAergic inputs are not sufficient to stop them. Second, we show that in response to cutaneous stimulation, the RS located in the four reticular nuclei display a similar activation pattern and can all produce sustained depolarizations which do not depend on internal calcium release to be maintained. Finally, the results obtained during this Ph.D allowed us to better understand the cellular mechanisms by which the RS cells integrate and transform a brief sensory information into a sustained response associated with a motor command. intégration sensorimotrice locomotion cellules réticulospinales dépolarisation soutenue potentiel de plateau stimulation cutanée tronc cérébral nerf trijumeau cellules sensorielles de relais glutamate CNQX AP-5 glycine strychnine caféine ryanodine imagerie calcique lamproie Sensorimotor integration locomotion reticulospinal cells sensory relay cells brainstem cutaneous stimulation trigeminal nerve sustained depolarization plateau potential glutamate CNQX AP-5 glycine strychnine caffeine ryanodine calcium imaging lamprey
80	Adenovirus-mediated gene transfer of FK506-binding proteins FKBP12.6 and FKBP12 in failing and non-failing rabbit ventricular myocytes / Adenoviraler Gentransfer von FK506-bindenden Proteinen in insuffizienten und normalen Kaninchen ventrikulärer Myozyten Zibrova, Darya 25 June 2004 (has links) No description available. 570 Biowissenschaften, Biologie Mathematics and Computer Science FK506-bindendes Protein Ryanodin Rezeptor Kalziumfreisetzung sarkoplasmatisches Retikulum Kalziumzyklus Herzinsuffizienz adenoviraler Gentransfer FK506-binding protein ryanodine receptor Ca<sup>2+</sup>-release sarcoplasmic reticulum Ca<sup>2+</sup>-cycling heart failure adenoviral gene transfer 42.13 WF 200: Molekularbiologie

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