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31	Efeitos do azul de metileno na lesão pulmonar aguda induzida por ácido oleico em ratos / Effects of methylene blue in acute lung injury induced by oleic acid in rats Ana Paula Cassiano Silveira 10 June 2014 (has links) INTRODUÇÃO. O termo Lesão Pulmonar Aguda (LPA) é usado para descrever a resposta pulmonar à lesão que ocorre diretamente ou indiretamente nos pulmões. A quebra da barreira alvéolo-capilar determina o influxo de líquido rico em proteínas para dentro dos espaços alveolares, sendo necessária a reabsorção desse líquido no processo de resolução da LPA. A infusão intravenosa de Ácido Oleico (AO) em ratos provoca agudamente edema alveolar difuso e focos hemorrágicos intra-alveolares, sendo um bom modelo de indução. Estudos relatam que o Azul de Metileno (AM) atenua tais lesões, com efeito protetor, no tecido pulmonar, e reduz o edema presente na LPA em animais com sepse através da inibição da guanilato ciclase solúvel (GCs), uma enzima ativadora da via NO-GMPc. OBJETIVO. Estudar a repercussão da inibição da GCs pelo AM na permeabilidade capilar pulmonar ministrando-o antes e após a indução da lesão pulmonar por AO. MÉTODO. Ratos Wistar foram divididos em 5 grupos: Sham com infusão de salina em bolus; AM com infusão de AM por 2h; AO com infusão de AO em bolus, AM/AO com infusão de AM por 2h, sendo que, após 5 min do início, recebeu AO simultaneamente em bolus e AO/AM com infusão de AO em bolus e, após 2h, infusão de AM por mais 2h. Após 4h foi realizada a coleta de materiais (sangue, lavado bronco-alveolar e tecido pulmonar) para análise do NO plasmático e tecidual, gasometria arterial, cálculo do peso úmido/peso seco (PU/PS) e histologia do tecido pulmonar de todos os grupos. A estatística utilizada foi a análise de variância (one-way ANOVA) com p<0.05. RESULTADO. Não foi encontrado hipoxemia grave após 4h de lesão. O grupo AO apresenta um aumento no número de proteínas no lavado bronco-alveolar e na relação PU/PS comparado aos grupos controle: Sham e AM, confirmando a presença de lesão e alteração de permeabilidade pulmonar. Os grupos tratados com AM apresentaram melhora na permeabilidade pulmonar, porém, apenas o grupo pré-tratamento (AM/AO) apresentou diferença estatística na redução do extravasamento de proteínas no lavado. Não foram encontradas diferenças significativas no NO plasmático e tecidual. Na microscopia, a congestão capilar foi intensa, acompanhada de múltiplos focos de edema alveolar, exsudato intra-alveolar proteico, áreas de hemorragia e infiltrado inflamatório neutrofílico, tanto no interstício quanto nos septos alveolares.Os grupos tratados com AM apresentaram diminuição das áreas de edema, exsudação e hemorragia, porém, com maior evidência no grupo AM/AO. CONCLUSÃO. O AM diminui a permeabilidade pulmonar quando administrado de maneira precoce amenizando os danos causados pela LPA induzida por AO. / BACKGROUND. The term Acute Lung Injury (ALI) is used to describe the response to lung injury that occurs directly or indirectly in the lungs. The rupture of the alveolar - capillary barrier determines the influx of protein-rich fluid into the alveolar spaces, the reabsorption of this fluid in the process of resolving the ALI is required. Intravenous infusion of oleic acid (OA) in rats acutely causes diffuse alveolar edema and intra-alveolar hemorrhagic foci, being a good role model induction. Studies have reported that Methylene Blue (MB) attenuates such injuries, with a protective effect in lung tissue and reduce edema present in the ALI present in with sepsis by inhibition of soluble guanylate cyclase (sGC), an activator of the enzyme NO- cGMP pathway. OBJECTIVE. To study the effect of inhibition of sGC by MB in pulmonary capillary permeability ministering to the before and after induction of lung injury by OA. METHOD. Wistar rats were divided into 5 groups: Sham infused with saline bolus, MB infused with MB for 2hrs, OA infused with OA bolus, MB/OA infused with MB for 2hrs, and after 5 min from the beginning, simultaneously received OA bolus and OA/MB infused with OA bolus and after 2hrs, MB infusion for 2hrs. After 4hrs the collection of materials was performed (blood, bronchoalveolar lavage and lung tissue) for analysis of plasma and tissue NO, arterial blood gases, calculation of the wet weight/dry weight (WW/DW) and histology of lung tissue from all groups. The statistic used was analysis of variance (one-way ANOVA) with p<0.05. RESULTS. Not found severe hypoxemia after 4hrs of injury. The OA group shows an increase in the number of proteins in bronchoalveolar lavage and in WW/DW ratio compared to the control groups: Sham and MB, confirming the presence of injury and alterations of lung permeability. The groups treated with MB showed improvement in lung permeability, however, only the pretreatment group (MB/OA) showed statistical significance in reducing the leakage of protein in the lavage. No significant differences were found in plasma and tissue NO. In microscopy, capillary congestion was intense, accompanied by multiple foci of alveolar edema, intra-alveolar proteinaceous exudates, areas of hemorrhage and neutrophilic inflammatory infiltrate in both the interstitium and in the alveolar septa. The groups treated with MB showed reduction in areas of edema, exudation and hemorrhage, however, most obviously in MB/OA group. CONCLUSION. The MB decreases lung permeability when administered as early as possible, mitigating the damage caused by OA-induced ALI. Ácido oleico Azul de metileno Guanilato ciclase solúvel Lesão pulmonar aguda Acute lung injury Methylene blue Oleic acid Soluble guanylate cyclase
32	Mécanismes moléculaires d’activation du récepteur A des peptides natriurétiques Parat, Marie 08 1900 (has links) Le récepteur A des peptides natriurétiques (NPRA) fait partie de la famille des guanylates cyclases membranaires. L’activation du NPRA par ses agonistes naturels, ANP et BNP, induit une production de GMPc qui est responsable de leur rôle dans l’homéostasie cardiovasculaire, l’inhibition de l’hypertrophie et de la fibrose cardiaques et la régulation de la lipolyse. Le NPRA est un homodimère non covalent composé d’un domaine extracellulaire de liaison du ligand (ECD), d’un unique domaine transmembranaire (TM), d’un domaine d’homologie aux kinases et d’un domaine guanylate cyclase. Bien que le NPRA ait un rôle physiologique important, les mécanismes moléculaires régissant son processus d’activation restent inconnus. Nous avons donc analysé les premières étapes du processus d’activation du NPRA. Nous avons d'abord étudié le rôle de la dimérisation des ECD dans l’activation du récepteur. Nous avons utilisé les techniques de liaison de radioligand, de FRET et de modélisation moléculaire, pour caractériser la liaison à l’ECD des agonistes naturels, d’un superagoniste et d’un antagoniste. L’ANP se lie à un dimère d’ECD préformé et la dimérisation spontanée est l’étape limitante du processus de liaison. De plus, comme le démontrent nos études de FRET, tous les peptides, incluant l’antagoniste, stabilisent le récepteur sous sa forme dimérique. Cependant, l’antagoniste A71915 stabilise le dimère d’ECD dans une conformation différente de celle induite par l’ANP. La dimérisation du NPRA semble donc nécessaire, mais non suffisante à l’activation du récepteur. L’état d’activation du NPRA dépend plutôt de l’orientation des sous unités dans le dimère. Nous avons ensuite étudié le mécanisme moléculaire de transduction du signal à travers la membrane. Plusieurs études ont suggéré que l’activation du NPRA implique un changement de conformation du domaine juxtamembranaire (JM). Cependant, les études de cristallographie de l’ECD soluble de NPRA n’ont pas permis de documenter la structure du JM et le changement de conformation impliqué dans la transduction du signal reste inconnu. Pour analyser ce changement de conformation, nous avons d’abord séquentiellement substitué les neuf acides aminés du JM par une cystéine. En étudiant la capacité des mutants à former des dimères covalents de façon constitutive ou induite par l’ANP, nous avons pu évaluer la proximité relative des résidus du JM, avant et après activation du NPRA. Ces résultats ont démontré la proximité élevée de certains résidus spécifiques et sont en contradiction avec les données cristallographiques. Nous avons également démontré que le domaine intracellulaire impose une contrainte conformationnelle au JM à l’état de base, qui est levée après liaison de l’ANP. En introduisant de 1 à 5 alanines dans l’hélice-α transmembranaire, nous avons montré qu’une rotation des TM de 40° induit une activation constitutive du NPRA. Le signal d’activation pourrait donc être transmis à travers la membrane par un mécanisme de rotation des TM. En utilisant nos données expérimentales, nous avons généré le premier modèle moléculaire illustrant la conformation active du NPRA, où les domaines JM et TM sont représentés. Dans son ensemble, cette étude apporte une meilleure compréhension des mécanismes moléculaires régissant les premières étapes du processus complexe d’activation du NPRA. / Natriuretic peptide receptor-A (NPRA) is a member of the particulate guanylate cyclase family. NPRA activation by natural agonists, ANP and BNP, leads to cGMP production, which is responsible for their role in cardiovascular homeostasis, cardiac hypertrophy and fibrosis inhibition and lipolysis regulation. NPRA is a non covalent dimer composed of an extracellular domain (ECD) with a ligand binding site, a single transmembrane region (TM), a kinase homology domain, and a guanylyl cyclase domain. Although NPRA plays an important physiologic role, molecular mecanisms driving its activation process are yet unknown. We thus analysed the first steps of NPRA’s activation process. First, we studied the role of ECD dimerization in receptor activation and determined the sequential steps of this dimerization process. We used radioligand binding, FRET and molecular modeling to characterize the interaction of ECD with natural agonists, a superagonist and an antagonist. ANP binds to preformed ECD dimers and spontaneous dimerization is the rate-limiting step of the ligand binding process. Furthermore, like demonstrated with fluorescence homoquenching, all the studied peptides, including A71915 antagonist, stabilize a dimeric form of the receptor. However, A71915 stabilizes the ECD dimer in a conformation distinct from those induced by ANP. Thus, ECD dimerization is necessary but not sufficient for NPRA activation. The activation state of NPRA seems to depend on the orientation of the receptor subunits within the dimer. Then, we tried to identify the molecular mechanism of signal transduction through the plasma membrane. Previous studies have shown that activation of NPRA involves a conformational change of the juxtamembrane domain (JM). However, crystallographic study of the soluble ECD of NPRA has failed to document JM structure, and the conformational change involved in transmembrane signal transduction is still unknown. To analyse this conformational change, we first sequentially substituted nine amino acids of JM by a cysteine residue. By studying the mutant’s capacity to form ANP-induced or constitutive covalent disulfide dimers, we evaluated the relative proximity of JM residues, before and after NPRA activation. These results demonstrate a high proximity of specific JM residues and are in disagreement with crystallography data. We also demonstrated that intracellular domain imposes a conformational constraint on JM at basal state, which becomes relaxed upon ANP binding. We finally confirmed, with a full-length receptor, that A71915 stabilizes NPRA in a dimeric form where JM are in a conformation distinct from the basal state. By introducing 1 to 5 alanine residues in the transmembrane α-helix, we showed that a TM rotation of 40° leads to constitutive NPRA activation. Activation signal could thus be transmitted through the membrane by a TM rotation mechanism. We finally studied the role of the TM in NPRA dimerization. By using the ToxR system, we demonstrated that the last JM residues are required to stabilize the TM dimer. Using these experimental data, we generated the first molecular model illustrating the active conformation of NPRA, where JM and TM are depicted. In summary, this study allows a better understanding of molecular mecanisms driving the first steps of NPRA’s complex activation process. Guanylate cyclase Transduction du signal Changement de conformation Dimérisation Rotation Balayage de cystéine FRET Signal transduction Conformational change Dimerization Cysteine-scanning
33	Etude des mécanismes de la régulation, activation et désactivation de la guanylate cyclase, récepteur endogène du monoxyde d'azote, et de senseurs de NO Yoo, Byung-Kuk 14 December 2010 (has links) (PDF) Le récepteur endogène du NO, la guanylate cyclase (sGC) est l'objet de thèse. Cette enzyme synthétise le GMPc après fixation du NO. L'outil principal utilisé est la spectroscopie d'absorption résolue en temps picoseconde-nanoseconde. Nous avons montré que la fixation simultanée du CO et d'activateurs (YC-1, Bay 41-2272) induisent un hème 5c-CO, à l'instar du NO seul, expliquant l'activation synergique. Nous avons identifié toutes les étapes de l'interaction sGC-NO en mesurant la dynamique du NO de la picoseconde à la seconde. Cette dynamique dans la protéine entière est comparée à celle de la sous-unité beta (1-190) isolée et celle de senseurs de NO bactériens. Un mutant de la myoglobine (H93C) à été utilisé comme modèle pour l'étude de l'hème dans les états 4- et 5-coordonnés. Enfin, nous avons mesuré la variation d'absorption dans la bande III de la Mb et Hb pour mesurer le mouvement du Fer de l'hème aprés fixation du NO. Nous avons cherché un inhibiteur potentiel et un ligand endogène de la sGC. [SDV] Life Sciences transduction d'un signal guanylate cyclase soluble monoxyde d'azote allostérie hémoprotéines
34	Mécanismes moléculaires d’activation du récepteur A des peptides natriurétiques Parat, Marie 08 1900 (has links) Le récepteur A des peptides natriurétiques (NPRA) fait partie de la famille des guanylates cyclases membranaires. L’activation du NPRA par ses agonistes naturels, ANP et BNP, induit une production de GMPc qui est responsable de leur rôle dans l’homéostasie cardiovasculaire, l’inhibition de l’hypertrophie et de la fibrose cardiaques et la régulation de la lipolyse. Le NPRA est un homodimère non covalent composé d’un domaine extracellulaire de liaison du ligand (ECD), d’un unique domaine transmembranaire (TM), d’un domaine d’homologie aux kinases et d’un domaine guanylate cyclase. Bien que le NPRA ait un rôle physiologique important, les mécanismes moléculaires régissant son processus d’activation restent inconnus. Nous avons donc analysé les premières étapes du processus d’activation du NPRA. Nous avons d'abord étudié le rôle de la dimérisation des ECD dans l’activation du récepteur. Nous avons utilisé les techniques de liaison de radioligand, de FRET et de modélisation moléculaire, pour caractériser la liaison à l’ECD des agonistes naturels, d’un superagoniste et d’un antagoniste. L’ANP se lie à un dimère d’ECD préformé et la dimérisation spontanée est l’étape limitante du processus de liaison. De plus, comme le démontrent nos études de FRET, tous les peptides, incluant l’antagoniste, stabilisent le récepteur sous sa forme dimérique. Cependant, l’antagoniste A71915 stabilise le dimère d’ECD dans une conformation différente de celle induite par l’ANP. La dimérisation du NPRA semble donc nécessaire, mais non suffisante à l’activation du récepteur. L’état d’activation du NPRA dépend plutôt de l’orientation des sous unités dans le dimère. Nous avons ensuite étudié le mécanisme moléculaire de transduction du signal à travers la membrane. Plusieurs études ont suggéré que l’activation du NPRA implique un changement de conformation du domaine juxtamembranaire (JM). Cependant, les études de cristallographie de l’ECD soluble de NPRA n’ont pas permis de documenter la structure du JM et le changement de conformation impliqué dans la transduction du signal reste inconnu. Pour analyser ce changement de conformation, nous avons d’abord séquentiellement substitué les neuf acides aminés du JM par une cystéine. En étudiant la capacité des mutants à former des dimères covalents de façon constitutive ou induite par l’ANP, nous avons pu évaluer la proximité relative des résidus du JM, avant et après activation du NPRA. Ces résultats ont démontré la proximité élevée de certains résidus spécifiques et sont en contradiction avec les données cristallographiques. Nous avons également démontré que le domaine intracellulaire impose une contrainte conformationnelle au JM à l’état de base, qui est levée après liaison de l’ANP. En introduisant de 1 à 5 alanines dans l’hélice-α transmembranaire, nous avons montré qu’une rotation des TM de 40° induit une activation constitutive du NPRA. Le signal d’activation pourrait donc être transmis à travers la membrane par un mécanisme de rotation des TM. En utilisant nos données expérimentales, nous avons généré le premier modèle moléculaire illustrant la conformation active du NPRA, où les domaines JM et TM sont représentés. Dans son ensemble, cette étude apporte une meilleure compréhension des mécanismes moléculaires régissant les premières étapes du processus complexe d’activation du NPRA. / Natriuretic peptide receptor-A (NPRA) is a member of the particulate guanylate cyclase family. NPRA activation by natural agonists, ANP and BNP, leads to cGMP production, which is responsible for their role in cardiovascular homeostasis, cardiac hypertrophy and fibrosis inhibition and lipolysis regulation. NPRA is a non covalent dimer composed of an extracellular domain (ECD) with a ligand binding site, a single transmembrane region (TM), a kinase homology domain, and a guanylyl cyclase domain. Although NPRA plays an important physiologic role, molecular mecanisms driving its activation process are yet unknown. We thus analysed the first steps of NPRA’s activation process. First, we studied the role of ECD dimerization in receptor activation and determined the sequential steps of this dimerization process. We used radioligand binding, FRET and molecular modeling to characterize the interaction of ECD with natural agonists, a superagonist and an antagonist. ANP binds to preformed ECD dimers and spontaneous dimerization is the rate-limiting step of the ligand binding process. Furthermore, like demonstrated with fluorescence homoquenching, all the studied peptides, including A71915 antagonist, stabilize a dimeric form of the receptor. However, A71915 stabilizes the ECD dimer in a conformation distinct from those induced by ANP. Thus, ECD dimerization is necessary but not sufficient for NPRA activation. The activation state of NPRA seems to depend on the orientation of the receptor subunits within the dimer. Then, we tried to identify the molecular mechanism of signal transduction through the plasma membrane. Previous studies have shown that activation of NPRA involves a conformational change of the juxtamembrane domain (JM). However, crystallographic study of the soluble ECD of NPRA has failed to document JM structure, and the conformational change involved in transmembrane signal transduction is still unknown. To analyse this conformational change, we first sequentially substituted nine amino acids of JM by a cysteine residue. By studying the mutant’s capacity to form ANP-induced or constitutive covalent disulfide dimers, we evaluated the relative proximity of JM residues, before and after NPRA activation. These results demonstrate a high proximity of specific JM residues and are in disagreement with crystallography data. We also demonstrated that intracellular domain imposes a conformational constraint on JM at basal state, which becomes relaxed upon ANP binding. We finally confirmed, with a full-length receptor, that A71915 stabilizes NPRA in a dimeric form where JM are in a conformation distinct from the basal state. By introducing 1 to 5 alanine residues in the transmembrane α-helix, we showed that a TM rotation of 40° leads to constitutive NPRA activation. Activation signal could thus be transmitted through the membrane by a TM rotation mechanism. We finally studied the role of the TM in NPRA dimerization. By using the ToxR system, we demonstrated that the last JM residues are required to stabilize the TM dimer. Using these experimental data, we generated the first molecular model illustrating the active conformation of NPRA, where JM and TM are depicted. In summary, this study allows a better understanding of molecular mecanisms driving the first steps of NPRA’s complex activation process. Guanylate cyclase Transduction du signal Changement de conformation Dimérisation Rotation Balayage de cystéine FRET Signal transduction Conformational change Dimerization Cysteine-scanning
35	Efeitos do novo doador de óxido nítrico [Ru(terpy)(bdq)NO+]3+ sobre o músculo liso traqueal de ratos com asma experimental / Effects of new nitric oxide donor [Ru(terpy)(bdq)NO+]3+ on tracheal smooth muscle of rats with experimental asthama Castro, Patrícia Ferreira da Silva 26 March 2015 (has links) Submitted by Cláudia Bueno (claudiamoura18@gmail.com) on 2016-01-15T13:24:17Z No. of bitstreams: 2 Tese - Patrícia Ferreira da Silva Castro - 2015.pdf: 4272048 bytes, checksum: bb8709720dbc4fb91db81ca23004d59d (MD5) license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) / Approved for entry into archive by Luciana Ferreira (lucgeral@gmail.com) on 2016-01-18T08:44:08Z (GMT) No. of bitstreams: 2 Tese - Patrícia Ferreira da Silva Castro - 2015.pdf: 4272048 bytes, checksum: bb8709720dbc4fb91db81ca23004d59d (MD5) license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) / Made available in DSpace on 2016-01-18T08:44:08Z (GMT). No. of bitstreams: 2 Tese - Patrícia Ferreira da Silva Castro - 2015.pdf: 4272048 bytes, checksum: bb8709720dbc4fb91db81ca23004d59d (MD5) license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) Previous issue date: 2015-03-26 / Fundação de Amparo à Pesquisa do Estado de Goiás - FAPEG / Nitric oxide is a potent bronchodilator and compounds capable of increasing its supply have demonstrated clinical interest in the treatment of obstructive airways diseases. This study evaluated and compared the mechanisms of relaxation of two nitric oxide donors, ruthenium complex [Ru(terpy)(bdq)NO+]3+ (TERPY) and sodium nitroprusside (SNP) in healthy isolated trachea, Sham group, or experimental model of asthma induced by ovalbumin in rats, OVA group. The isolated trachea was sectioned into rings and contracted with carbachol in an organ chamber for studying relaxation. The relaxing effect of TERPY and SNP was evaluated at increasing concentrations from 10 nM to 100 μM. Thus, we verified the contribution of the different types of K+ channels, the importance of sGC/cGMP pathway, the inhibition of PDEs (for IBMX, amrinone, rolipram and dypiridamole), the influence of the extra and intracellular Ca2+ sources (for cyclopiazonic acid) and the influence of the store and voltage operated calcium channels. Besides inhibition of COX (diclofenac), antagonism of leukotriene receptor (montelukast) and superoxide anion scavenger (TIRON). Analyses were performed under light microscopy for evidence of inflammatory infiltration and bronchoditation by TERPY in slices bronchioles of asthmatic animals. The results verified that sensitization with ovalbumin led to intense inflammatory process and hyperresponsives to carbachol in compared Sham group. TERPY and SNP led to the relaxation of tracheal smooth muscle preparations in a dependent-concentration mode in both groups. However, the maximum effect induced by TERPY was higher than the effect of SNP in Sham and OVA groups. The relaxation mechanism of TERPY in boht groups showed differences. In Sham group, TERPY relaxation by the activation of Kv, Kir, KCa and KATP channels, cGMP-independent mechanisms and by reduction of calcium influx by blocking the store and voltage operated calcium channels. In OVA group, TERPY acts through activation K+ channels, NO/GCs/GMP way and blocking the store and voltage operated calcium channels. The relaxing effect induced by SNP in OVA group was dependent of NO/GCs/GMP pathway, Kv, KCa and BKCa channels and blocking the store and voltage operated calcium channels. However, the activation of the enzyme sGC seems to be reduced in inflamed smooth muscle, as well as the role of the sarcoplasmic reticulum calcium pump. Diclofenac, montelukast and TIRON improved relaxation of the TERPY and SNP in OVA group. The TERPY is able to reverse the contraction of carbachol in asthmatic bronchioles. In conclusion, TERPY and SNP have their mechanisms of relaxation modified by the inflammatory process. However, this modification was not able to alter the pharmacological parameters potency and efficacy to TERPY. Since SNP has less efficacy effect in asthmatic tracheas. This may result from the lower participation of the enzyme sGC and reticular calcium pump, making TERPY a promising drug to reverse the narrowing of the airways. / O óxido nítrico é um potente broncodilatador e compostos capazes de aumentar a sua oferta têm demonstrado interesse clínico no tratamento das doenças obstrutivas das vias aéreas. Estee trabalho avaliou comparativamente os mecanismos de relaxamento de dois doadores de óxido nítrico, o complexo de rutênio [Ru(terpy)(bdq)NO+]3+ (TERPY) e o nitroprussiato de sódio (SNP) em traqueias isoladas de ratos saudáveis, grupo Sham, e com asma experimental induzida por ovalbumina, grupo OVA. As traqueias isoladas foram cortadas em anéis, montadas em banho para órgãos isolados e contraída com carbacol para estudo do relaxamento. O efeito relaxante do TERPY e do SNP foi avaliado em concentrações crescentes e cumulativas (10 nM a 100 μM). Foi verificada a participação dos diferentes tipos de canais de K+, a participação da via GCs/GMPc, inibição das PDEs (pelo IBMX, amrinona, rolipram e dipiridamol), a participação dos estoques internos de Ca2+ (pelo ácido ciclopiazônico), assim como a participação do influxo deste íon pelos canais de cálcio controlados por estoque e por voltagem, além da inibição da COX (pelo diclofenaco), do antagonismo dos receptores de leucotrienos (pelo montelucaste) e do sequestro dos íons superóxidos (pelo TIRON). Foram realizadas análises em microscopia de luz para comprovação da presença de infiltrado inflamatório e da broncodilatação exercida pelo TERPY em cortes de bronquíolos de animais asmáticos. Como resultados, verificou-se que a sensibilização com ovalbumina levou a um intenso processo inflamatório com migração celular e hiperreatividade ao carbacol. Evidenciou-se que o TERPY e o SNP relaxaram o músculo liso traqueal de forma concentração-dependente em ambos os grupos. Entretanto, o efeito máximo induzido pelo TERPY foi maior do que o do SNP tanto no grupo Sham quanto no OVA. O mecanismo de relaxamento do TERPY mostrou-se diferente entre os grupos. No grupo Sham, o TERPY exerce relaxamento por ativação dos canais Kv, Kir, KCa e KATP independentemente de GMPc e por redução do influxo de cálcio através do bloqueio dos canais de cálcio operados por voltagem e por estoque. No grupo OVA, o TERPY exerce seu efeito através da por ativação dos canais K+, via NO/GCs/GMP e redução do influxo de cálcio por bloqueio dos canais de cálcio operados por voltagem e operados por estoque. O efeito relaxante do SNP no grupo OVA ocorre através da ativação da via NO/GCs/GMPc, dos canais Kv, KCa e SKCa e por redução do influxo de cálcio pelos canais de cálcio operados por voltagem e operados por estoque. Entretanto, a ativação da enzima GCs parece estar reduzida em músculo liso inflamado, assim como o papel da bomba de cálcio do retículo sarcoplasmático. O diclofenaco, o montelucaste e o TIRON melhoraram o perfil de relaxamento tanto do TERPY quanto do SNP no grupo OVA. O TERPY é capaz de reverter a contração do carbacol em bronquíolos asmáticos. Em conclusão, tanto o SNP quanto o TERPY têm seus mecanismos de relaxamento modificados pelo processo inflamatório. Entretanto, esta modificação não foi capaz de alterar os parâmetros farmacológicos de potência e eficácia do TERPY. Já o SNP, tem menor eficácia em traqueias de ratos do grupo OVA e isso pode decorrer da menor participação da enzima GCs e da bomba de cálcio reticular, fazendo do TERPY uma droga promissora para reversão do estreitamento das vias aéreas. Óxido nítrico Asma Compostos de rutênio Traqueia Canais de potássio Guanilato ciclase Nitric oxide Asthma Ruthenium compounds Trachea Potassium channels Guanylate cyclase CIENCIAS DA SAUDE::MEDICINA
36	Estudo do efeito relaxante de um novo composto doador de óxido nítrico em preparações de traquéias isoladas de ratos / Study of the relaxing effect of a new nitric oxide donor compound in preparations of isolated rat tracheae CASTRO, Patrícia Ferreira da Silva 22 February 2011 (has links) Made available in DSpace on 2014-07-29T16:11:49Z (GMT). No. of bitstreams: 1 dissertacao_Patricia.pdf: 625432 bytes, checksum: 32e620a502dea70144fc4ce6a16d4bd3 (MD5) Previous issue date: 2011-02-22 / This study evaluated the mechanisms of relaxation of two nitric oxide (NO) donors, ruthenium complex [Ru(terpy)(bdq)NO+]3+ (Terpy) and sodium nitroprusside (SNP) in isolated trachea of rats. The isolated trachea was sectioned into rings and contracted with carbachol in an organ chamber. The relaxing effect of Terpy and SNP was evaluated at increasing concentrations from 10 nM to 100 μM. Thus, we verified the contribution of the different types of K+ channels, the importance of sGC/cGMP pathway, the inhibition of COX and PDEs, the influence of the extra and intracellular Ca2+ sources and the influence of the epithelium on the relaxing response. The synergism between NO-donor and β-adrenoceptor agonist terbutaline was also verified. Additionally, we have used confocal microscopy in order to analyze the effect of the donors on cytosolic Ca2+ concentration. We have verified that both compounds led to the relaxation of tracheal smooth muscle preparations in a dependent-concentration mode. However, the maximum effect (Emax) induced by Terpy was higher than the effect of SNP. However, the Terpy effects were significantly reduced by pre-contraction with 75 mM KCl. K+ channel blockers like the tetraethylammonium, glybenclamide, BaCl2 and 4-aminopyridine reduced the relaxation to Terpy, while iberiotoxin and apamin did not modify this response. SNP- induced relaxation was significantly reduced by pretreatment with ODQ (sGC inhibitor). On the IBMX (non-selective PDEs inhibitor) increased the relaxation only to SNP. The response to both NO-donors was not altered by indomethacin, thapsigargin (reticular Ca2+-ATPase inhibitor) or ruthenium red (a mitochondrial Ca2+ uniporter inhibitor). The epithelium removal reduced the relaxation only to SNP, and it had no effects on Terpy. In relation to synergic effect of the association of NO-donors and terbutaline, we did not observe any additive effect in the relaxation induced by terbutaline. Terpy was more effective than SNP in reducing the cytosolic Ca2+ concentration measured by confocal microscopy. In conclusion, these results have shown that Terpy induces airway smooth muscle relaxation by cGMP-independent mechanisms. It involves Ca2+ and K+ fluxes (mainly via Kv, Kir and KATP channels) across the membrane, and it is more effective in reducing cytosolic Ca2+ concentration and inducing relaxation in the rat trachea than the SNP. In relation to SNP, the most important relaxation pathway seems to be related to sGC/cGMP pathway and activation of Kir and SKCa channels. / O presente trabalho avaliou os mecanismos de relaxamento de dois doadores de óxido nítrico (NO), o complexo de rutênio [Ru(terpy)(bdq)NO+]3+ (Terpy) e o nitroprussiato de sódio (NPS) em traquéias isoladas de ratos. A traquéia isolada foi montada em banho para órgãos isolados e contraída com carbacol para estudo do relaxamento. O efeito relaxante do Terpy e do NPS foi avaliado em concentrações crescentes e cumulativas (10 nM a 100 μM). Foi verificada a participação dos diferentes tipos de canais de K+, a participação da via GCs/GMPc, a inibição da COX (pela indometacina) e das PDEs (pelo IBMX), a influência do epitélio, a participação dos estoques internos de Ca2+ assim como a participação do influxo deste íon e o potencial sinergismo dos doadores com terbutalina. Foram feitas análises de microscopia confocal para quantificação da concentração citosólica de Ca2+ mobilizada pelos doadores de NO. Como resultados, verificamos que os dois compostos levaram ao relaxamento do músculo liso traqueal de forma concentração-dependente. Entretanto o efeito máximo (Emax) do Terpy foi maior do que o NPS. O relaxamento estimulado pelo Terpy foi reduzido significativamente sob a pré-contração com KCl 75 mM. Bloqueadores de canais de K+ como tetraetilamônio, BaCl2, glibenclamida e 4-aminopiridina reduziram significativamente o relaxamento estimulado pelo Terpy, apesar da iberiotoxina e apamina não alterarem a resposta. O ODQ (inibidor da GCs) somente reduziu o efeito relaxante do NPS e o IBMX aumentou seu Emax, sendo que ambos inibidores não apresentaram efeito para o Terpy. A indometacina não alterou o padrão de resposta para ambos doadores. A retirada do epitélio reduziu o efeito relaxante somente para o NPS, não alterando o padrão de relaxamento para o Terpy. A inibição da Ca2+-ATPase reticular (pela tapsigargina) e da captação de Ca2+ mitocondrial (pelo ruthenium red) não modificaram o perfil de relaxamento para ambos doadores testados. Em relação ao efeito sinérgico estudado, não foi observado benefício com a adição dos doadores sobre o efeito relaxante da terbutalina. A medida da concentração intracelular de Ca2+ revelou que o Terpy é capaz de reduzir a concentração intracelular de Ca2+ de forma mais pronunciada que o NPS. Os resultados apresentados neste trabalho levam a concluir que o mecanismo pelo qual o Terpy leva ao relaxamento do músculo liso traqueal de ratos está associado à diminuição da concentração intracelular de Ca2+, e este mecanismo pode estar relacionado à ativação dos canais de K+ do tipo Kv, KIR e KATP e ao influxo de Ca2+. Para o NPS, o mecanismo mais importante que leva ao relaxamento parece ser através da ativação da via GCs/GMPc, além do envolvimento dos canais para K+ do tipo KIR e SKCa. Óxido Nítrico complexo nitrosilados de rutênio traquéia relaxamento canais para potássio guanilato ciclase solúvel Nitric oxide nitrosyl ruthenium complex trachea relaxation K+ channels and guanylate cyclase CNPQ::CIENCIAS BIOLOGICAS::FARMACOLOGIA
37	Caracterização farmacológica do ativador da guanilato ciclase solúvel, BAY 60-2770, em artéria pulmonar isolada de coelho / Pharmacological characterization of the soluble guanylate cyclase activator, BAY 60-2770, in isolated rabbit pulmonary artery Faria, Wagner Mendes, 1972- 23 August 2018 (has links) Orientador: Fabíola Taufic Monica Iglesias / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Ciências Médicas / Made available in DSpace on 2018-08-23T16:27:39Z (GMT). No. of bitstreams: 1 Faria_WagnerMendes_M.pdf: 1252281 bytes, checksum: ad80513967190699e0001046decc7731 (MD5) Previous issue date: 2013 / Resumo: Duas classes de medicamentos denominadas estimuladores e ativadores da guanilato ciclase solúvel (GCs) foram desenvolvidas para uso terapêutico em situações patológicas onde há menor formação ou biodisponibilidade NO ou tolerância farmacológica. A GCs é uma enzima heterodímera, composta pelas subunidades alfa (?) e beta (?), nas quais há a presença do grupo prostético heme e que catalisa a conversão da guanosina trifosfato (GTP) em guanosina monofosfato cíclico (GMPc) pela ação do NO. Em situações patológicas o átomo de ferro pode encontrar-se na sua forma oxidada (Fe3+), diminuindo assim a resposta máxima do óxido nítrico (NO). A principal diferença entre os moduladores da GCs é que os ativadores (BAY 58-2667, HMR 1766, BAY 60-2770) atuam de maneira mais eficaz mesmo quando a enzima encontra-se no estado oxidado. O objetivo do presente trabalho foi caracterizar funcionalmente o relaxamento induzido pelo BAY 60-2770 em artéria pulmonar isolada de coelho. O BAY 60-2770 (0,0001-100 ?M) relaxou de maneira potente (10,1 ± 0.04) e eficaz (105 ± 0,9 %) a artéria pulmonar, sendo este efeito significativamente potencializado na presença dos inibidores da GCs (ODQ, 10 ?M, 4,9 vezes), da fosfodiesterase tipo 5 (tadalafil, 100 ?M, 5,6 vezes) ou da sintase de óxido nítrico (LNAME, 100 ?M, 3,0 vezes). A presença do sequestrador de NO, do doador de NO, da indometacina, do bloqueador do canal de potássio ou a remoção endotelial não interferiram no relaxamento induzido pelo BAY 60-2770. A fenilefrina (0,00001-3 mM) e a estimulação elétrica (4-16 Hz) produziram contração dependente da concentração e frequência, respectivamente. Na presença de tetrodotoxina (TTX, 1 ?M) e fentolamina (1 ?M) houve abolição da resposta contrátil a estimulação elétrica, mostrando a liberação neurogênica de catecolamina. Na presença de BAY 60-2770 co-incubado com ODQ uma redução significativa na contração induzida pela estimulação elétrica foi observada. Apesar desta mesma redução ter sido observada na presença do L-NAME, a mesma não foi estatisticamente significante em comparação aos anéis incubados somente com BAY 60-2770 (1 ?M). Nossos resultados mostraram que a oxidação do grupamento heme, a inibição da fosfodiesterase e a ausência do NO favoreceram a resposta relaxante do BAY 60-2770 / Abstract: Soluble guanylate cyclase (sGC) stimulators and activators have been developed for use in pathophysiological condition when NO formation or bioavailability are impaired or when NO tolerance gas developed. Soluble guanylate cyclase is a heterodimer enzyme composed by alpha (?) and beta (?) subunits and a prostetic heme group. Soluble guanylate cyclase converts guanosine triphosphate (GTP) into cyclic guanosine monophosphate (GMPc) after nitric oxide (NO) activaton. Under pathophysiological conditions heme can be oxidized (Fe3+), thus reduzing NO efficacy. The main difference between stimulators and activators (BAY 58-2667, BAY 60-2770 and HMR 1766) is that the latter class of drugs is more efficacious when heme is oxidized. The aim of the present study is to characterize the relaxation induced by BAY 60-2770 in isolated pulmonary artery from rabbit. BAY 60-2770 (0.0001-100 ?M) produced concentration dependent relaxation with potency and maxima response values of 10,1 ± 0.04 and 105 ± 0.9%, respectively. The inhibition of sGC (ODQ, 10 ?M) or phosphodiesterase type 5 (tadalafil, 100 ?M) or the nitric oxide synthase (L-NAME, 100 ?M) produced significantly leftward shifts by, approximately, 4.9, 5.4 and 3.0, respectively. The NO-scavenger, the NO-donor, the cyclooxygenase inhibition, the potassium channel blocker or endothelial removal did not interfere on the pharmacological parameters of BAY 60-2770. Phenylephrine (PE, 0.0001- 3 mM) and electrical field stimulation (EFS, 4-16 Hz) induced concentration and frequency dependent-contraction, respectively. Phentolamine (1 ?M) and tetrodotoxin (TTX, 1 ??) practically abolished EFS-induced contraction, showing the neurogenic source of catecholamines. Co-treatment with BAY 60-2770 with ODQ reduced significantly the EFS-induced contraction in comparison with BAY 60- 2770 (1 ?M) alone. Although we have observed a tendency of reduction in the amplitude of contraction when BAY 60-2770 was co-incubated with L-NAME, it was not statistically significant. Therefore, our results showed that the oxidation of heme group, the inhibition of phosphodiesterase and lower levels of NO favoured the relaxing response of BAY 60- 2770 in isolated rabbit pulmonary artery / Mestrado / Farmacologia / Mestre em Farmacologia Guanilato ciclase - Farmacologia BAY 60-2770 Hipertensão pulmonar Artéria pulmonar Guanylate ciclase, Pharmacology BAY 60-2770 Guanylate cyclase-activating proteins Hypertension, Pulmonary Pulmonary artery
38	Cyclic GMP signaling during the lytic cycle of Toxoplasma gondii Günay-Esiyok, Özlem 21 November 2019 (has links) Der cGMP-Signalweg ist als einer der Hauptregulatoren von diversen Funktionen in Eukaryoten bekannt; allerdings ist seine Funktionsweise in Protozoen wenig verstanden. Im Rahmen dieser Arbeit wurde eine Guanylatcyclase, gekoppelt mit N-terminalen P4-ATPase, in intrazellulären Parasiten Toxoplasma gondii gemeldet. Eine in silico-Analyse wies auf eine Aktivierung der Guanylatcyclase durch Heterodimerisierung ihrer Cyclasedomänen hin und ermöglichte wertvolle Einsichten in mögliche Funktionen ihrer ATPase-Domäne. Dieses Protein (477-kDa) bezeichnet als TgATPaseP-GC in dieser Studie, lokalisiert in der Plasmamembran am apikalen Pol des Parasiten. TgATPaseP-GC ist unempfänglich gegenüber genetischer Deletion und seine CRISPR/Cas9 unterstützte Spaltung beendet den lytischen Zyklus von T. gondii vorzeitig. Darüber hinaus reduzierte ein Cre/loxP-vermittelter Knockdown von TgATPaseP-GC die Synthese von cGMP im Tachyzoiten und inhibierte das Parasitenwachstum aufgrund von Beeinträchtigungen Motilitäts-abhängiger Prozesse des Austretens und Eindringens. Trotz seiner zeitlich beschränkten Funktion ist TgATPaseP-GC konstitutiv während des ganzen lytischen Zyklus exprimiert, welches eine post-translationale Regulierung des cGMP-Signalweges bedingt. Nicht zuletzt impliziert das Vorhandensein von TgATPaseP-GC-Orthologen in anderen Alveolata eine divergente Umfunktionierung der cGMP-Signalwege in Protozoen. Darüber hinaus wurde ein optogenetischer Ansatz verwendet, um den cGMP-Weg durch eine photo-aktivierte Rhodopsin-Guanylat-Cyclase (RhoGC) in T. gondii zu exprimiert. Dieses System erlaubte eine kontrollierte Erhöhung von cGMP durch Licht in einer schnellen und reversiblen Weise. Die Anregung von RhoGC stimulierte signifikant die Parasitenmotilität, deren Auswirkung auch mit erhöhten Eindringen und Austreten überwacht wurde; im Gegensatz zum genetischen Knockdown von TgATPaseP-GC. Das System ermöglicht die Vermittler des cGMP-Signalwegs durch Phosphoproteomics zu identifizieren. / cGMP signaling is known as one of the master regulators of diverse functions in eukaryotes; however, its architecture and functioning in protozoans remain poorly understood. In the scope of this thesis, an exclusive guanylate cyclase coupled with N-terminal P4-ATPase was reported in an obligate intracellular parasite Toxoplasma gondii. In silico analysis indicated an activation of the guanylate cyclase by heterodimerization of its two cyclase domains and offered valuable insights into possible functions of its ATPase domain. This bulky protein (477-kDa), termed in this study as TgATPaseP-GC to reflect its envisaged multifunctionality, localizes in the plasma membrane at the apical pole of the parasite. TgATPaseP-GC is refractory to genetic deletion, and its CRISPR/Cas9-assisted disruption aborts the lytic cycle of T. gondii. Besides, Cre/loxP-mediated knockdown of TgATPaseP-GC reduced the synthesis of cGMP in tachyzoites and inhibited the parasite growth due to impairments of motility-dependent egress and invasion events. Notably, despite its temporally restricted function, TgATPaseP-GC is expressed constitutively throughout the lytic cycle, entailing a post-translational regulation of cGMP signaling. Not least, the occurrence of TgATPaseP-GC orthologs in several other alveolates implies a divergent functional repurposing of cGMP signaling in protozoans. Furthermore, an optogenetic approach was utilized to induce cGMP pathway by a photo-activated rhodopsin-guanylate cyclase (RhoGC) in T. gondii. The system enabled a light-control of cGMP elevation on crucial steps of lytic cycle in a fast, spatial and reversible manner. Excitation of RhoGC significantly stimulated the parasite motility of which impact was also monitored with an increased host-cell invasion and egress; as opposed to the genetic knockdown of TgATPaseP-GC. Having an established optogenetic system in the parasite allows to identify downstream targets of cGMP signaling via phosphoproteomic analysis. Guanylatcyclase Toxoplasma Austreten Eindringen Motilität Optogenetik Guanylate cyclase Toxoplasma Egress Invasion Motility Optogenetics XD 9312 XD 9304 WE 5320 ddc:579
39	Nitric oxide-cGMP signal transduction in the injury, matrix expansion and progression of anti-thy1-induced renal disease of the rat Wang, Yingrui 14 April 2005 (has links) Hintergrund. Die gegensätzlichen Wirkungen des L-Arginin-NO-Stoffwechsels bei Nierenerkrankungen wurden nachgewiesen. Die vorliegende Studie untersucht die Haupt-Endstrecke dieses Stoffwechselweges, die NO-cGMP-Signaltransduktion, sowie die Wirkung des spezifischen sGC-Stimulators Bay 41-2272 auf Schädigungs-, Matrixexpansions- und Progressionsphase der Anti-Thy1-induzierten Nierenerkrankungen im Rattenmodell. Methoden. Die anti-Thy1-Antikörperinjektion in zwei Nieren- oder uninephrektomierten Ratten induzierte eine Sequenz der Schädigungs-, Matrixexpansions- und Progressionsphase. Die Effekte der Behandlung mit Bay 41-2272 (10 mg/kg Körpergewicht/Tag) wurden durch die Messungen von systolischem Blutdruck, Proteinurie, Nierenfunktion, glomerulärer und interstitieller Matrixakkumulation, TGF-beta1-, Fibronectin- und PAI-1-Expression, Makrophageninfiltration, alpha1sGC, beta1sGC, sowie basaler und NO-stimulierter renaler cGMP-Produktion ermittelt. Im chronischen Anti-Thy1 Modell wurden die Effekte von Bay 41-2272 mit dem reinen Vasodilator Hydralazin (15 mg/kg Körpergewicht/Tag) verglichen. Ergebnisse. Im Vergleich zu den Kontrollen sind die sGC mRNA Expression und Aktivität signifikant im Matrixexpansionsprotokoll erhört, während sie im Schädigungsprotokoll komplett vermindert sind; im Progressionsprotokoll ist die sGC-cGMP-Kaskade im Tubulointerstitium hochreguliert, während die Aktivität im Glomeruli erniedrigt ist. Im Gegensatz zur Hydralazin-therapie erhörte die Bay 41-2272-Behandlung die glomeruläre und die tubulointerstitielle NO-cGMP-Signaltransduktion. Dies führte zu deutlich verringerten Makrophageninfiltration, Matrixakkumulation sowie einer verbesserten Nierenfunktion. Schlussfolgerung. Die Expression und Aktivität der sGC sind auf Transkriptionsebene im Verlauf der Nierenfibrose hochreguliert und korrelieren eng mit den pathologischen Veränderungen in den einzelnen Krankheitsphasen. Pharmakologische sGC-Stimulation reduzierte die TGF-beta-Überexpression sowie die Matrixakkumulation und verlangsamte den fortschreitenden Verlauf zur tubulointerstitiellen Fibrose und eingeschränkten Nierenfunktion über teilweise blutdruckunabhängige Mechanismen, obwohl die Mesangialzelllyse infolge der verminderten sGC-Expression unbeeinflusst blieb. Die Ergebnisse zeigen, dass die NO-cGMP-Signaltransduktion ein wichtiger antifibrotischer Mechanismus bei Nierenfibrose ist. / Background Controversial effects of L-arginine-NO pathway have been shown on renal disease. The present study analyzes the main downstream of L-arginine-NO pathway, the NO-cGMP signaling in and the effect of the specific sGC stimulator Bay 41-2272 on the injury, matrix expansion and progression phases in the rat model of anti-thy1-induced renal disease. Methods The injection of anti-thy1 antibody into rats with two kidneys or nephrectomized rats caused a sequence of the injury, matrix expansion and progression phases. The effects of Bay 41-2272 (10 mg/kg body weight/d) treatment on systolic blood pressure, proteinuria, kidney function, glomerular and tubulointerstitial matrix protein accumulation, expression of TGF- beta1, fibronectin and PAI-1, macrophage infiltration, alpha1sGC and beta1sGC mRNA expression and basal and NO-stimulated renal cGMP production were determined. In the chronic anti-thy1 model, the effect of Bay 41-2272 was compared side-by-side to the sole vasodilator hydralazine (15 mg/kg body weight/d). Results Compared to controls, sGC mRNA expression and activity were markedly increased in the matrix expansion protocol, while they were almost completely disrupted in the injury protocol; in the progression protocol, sGC-cGMP cascade was up-regulated in the tubulointerstitium, while its activity was decreased in glomeruli. In contrast to hydralazine therapy, Bay 41-2272 treatment enhanced both glomerular and tubulointerstitial NO-cGMP signaling significantly, resulting in markedly reduced macrophage infiltration, matrix expression and accumulation as well as improved kidney function. Conclusion The expression and activity of sGC are highly regulated at the transcriptional level during the course of renal fibrosis, and correlate closely with the pathological changes from the injury over the matrix expansion toward the final progression phase. Further pharmacologic sGC stimulation reduced TGF-beta overexpression and extracellular matrix accumulation and limited the progressive course of this model towards tubulointerstitial fibrosis and impaired renal function at least in part in a blood pressure-independent manner, although it demonstrated no effects on mesangial cell lysis due to lack of the receptor sGC. The results suggest that NO-cGMP signaling represents an important anti-fibrotic pathway in renal fibrosis. Stickoxid löslische Guanylatzyklase cGMP Bay 41-2272 TGF-beta1 Fibrose Nitric oxide soluble guanylate cyclase cGMP Bay 41-2272 TGF-beta1 fibrosis. 610 Medizin 33 Medizin WC 6570 YK 8604 YK 8618 YK 8690 ddc:610
40	Um estudo renal das interaÃÃes entre uroguanilia, urodilatina e bradicinina na presenÃa dos bloqueadores da guanilato ciclase isatin e ODQ / A renal study of the interactions between uroguanilia, urodilatia and predry bradiciiana of the chokes of the guanilato ciclase isatin and ODQ Messias SimÃes dos Santos Neto 23 April 2008 (has links) Conselho Nacional de Desenvolvimento CientÃfico e TecnolÃgico / IntroduÃÃo: Guanilinas, peptÃdeos natriurÃticos (ANP e urodilatina) e bradicinina estÃo implicados na fisiopatologia, com potencial terapÃutico, do metabolismo do sal e da hipertensÃo. Objetivo: Estudar o mecanismo de aÃÃo e possÃveis interaÃÃes destes peptÃdeos, pelo emprego de inibidores da guanilato ciclase isatina e ODQ. MÃtodo: Foram realizadas experiÃncias no rim isolado e perfundido de rato com ferramentas farmacolÃgicas, isatina (IS; 0,3 ou 10μM) ou com ODQ (37μM), nos estudos com uroguanilina (UGN; 0,3 ou 0,6μM), bradicinina (BK; 0,3 ou 0,9 ou 1,8nM) ou urodilatina (UD; 0,03nM). Investigaram-se ainda possÃveis interaÃÃes entre os referidos petÃdeos. Resultados: Isoladamente, IS (0,3μM), ODQ, UGN (0,3μM), BK (0,9 ou 0,3nM) nÃo interferiram signficativamente na presssÃo de perfusÃo, na diurese ou na reabsorÃÃo tubular fracionada renal de eletrÃlitos (sÃdio - %TNa+; potÃssio - %TK+; cloreto - %TCl- ). Nas condiÃÃes experimentais, ODQ mostrou-se eficaz (p<0,05) em inibir os efeitos de BK (1,8nM) sobre a pressÃo de perfusÃo (ODQ+BK120min: 111+3mmHg; BK120min: 139+5mmHg) e %TNa+ (ODQ+BK120min: 80+1%; BK120min: 76+2%). IS (3μM) mostrou-se parcialmente eficaz em inibir efeitos de UGN (0,6μM; IS+UGN90min: 76+2%; UGN90min: 72+2%) e de BK (1,8nM; IS+BK90min: 81+2%; BK60min: 0,76+2%) sobre %TNa+. UD (0,03nM90min: 86+2%; UGN+UD90min: 73+4%; p<0,05) potencializou a natriurese produzida por UGN (0,3μM90min: 83+2%), cujos efeitos vasculares foram inibidos com BK (0,3nM90min: 104+5mmHg; UGN0,6μM; 90min: 135+4mmHg; UGN+BK90min: 110+2mmHg). ConclusÃes: IS e ODQ comprovaram a participaÃÃo da via de sinalizaÃÃo NO-GMP no mecanismo de aÃÃo dos peptÃdeos estudados. A perfusÃo simultÃnea com mais de um peptÃdio, comprovou que hÃ interaÃÃes em suas diferentes vias de sinalizaÃÃo. / Introduction: Guanylins, natriuretic peptides (ANP and urodilatina) and bradykinin are involved in the pathophysiology, with therapeutic potential, of salt metabolism and hypertension. Objective: To study the mechanism of action and possible interactions of these peptides, with the employment of guanylate cyclase inhibitors isatina and ODQ. Method: Experiments were performed on isolated perfused rat kidney with pharmacological tools, isatin (IS; 0.3 or 10μM) or with ODQ (37μM), in studies with uroguanylin (UGN, 0.3 or 0.6μM), bradykinin (BK , 0.3 or 0.9 or 1.8nM) or urodilatin (UD, 0.03nM). It was also investigated possible interactions between those peptides. Results: Alone, IS (0.3μM), ODQ, UGN (0.3μM), BK (0.9 or 0.3nM) did not interfere significantly in perfusion perfusion (PP), in diuresis or in fractional renal tubular reabsorption of electrolytes (sodium - %TNa+; potassium - %TK+; chloride - %TCl-). In experimental conditions, ODQ proved to be effective (p<0.05) in inhibiting the effects of BK (1.8nM) on the PP (ODQ+BK120min: 111+3mmHg; BK120min: 139+5mm Hg) and %TNa+ (ODQ+BK120min: 80+1%; BK120min: 76+2%). IS (3μM) proved to be partially effective in inhibiting effects of UGN (0.6μM; IS+UGN90min: 76+2%; UGN90min: 72+2%) and BK (1.8nM; IS+BK90min: 81+2%; BK60min: 0.76+2%) on %TNa+. UD (0.03nM90min: 86+2%; UGN+UD90min: 73+4%, p<0.05) increased the natriuresis produced by UGN (0.3μM90min: 83+2%), whose vascular effects were inhibited with BK (0.3nM90min: 104+5mmHg; UGN0, 6μM; 90min: 135+4mmHg; UGN+BK90min: 110+2mmHg). Conclusions: IS and ODQ confirmed the participation of the NO-GMP signalling pathway in the mechanism of action of peptides studied. The infusion simultaneously over a peptide, proved that there are interactions in their different signalling pathway. Guanilinas Bradicinina Inibidores da Guanilato Ciclase Isatina ODQ, Via de SinalizaÃÃo NO-GMP PerfusÃo Renal Transporte de EletrÃlitos Guanylins Bradykinin Guanylate Cyclase Inhibitors Isatina ODQ NOGMP Signalling Pathway Perfused kidney Electrolytes Transport FARMACOLOGIA

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