Global ETD Search

21	Diuretic, natriuretic, and vasodepressor activity of a lipid fraction enhanced in medium of cultured mouse medullary interstitial cells by a selective FAAH inhibitor Daneva, Zdravka P 01 January 2019 (has links) The relationship between the endocannabinoid system in the renal medulla and the long-term regulation of blood pressure is not well understood. To investigate the possible role of the endocannabinoid system in renomedullary interstitial cells, mouse medullary interstitial cells (MMICs) were obtained, cultured and characterized for their responses to treatment with a selective inhibitor of fatty acid amide hydrolase (FAAH), PF-3845. Treatment of MMICs with PF-3845 increased cytoplasmic lipid granules detected by Sudan Black B staining and multilamellar bodies identified by transmission electron microscopy. HPLC analyses of lipid extracts of MMIC culture medium revealed a 205nm-absorbing peak that showed responsiveness to PF-3845 treatment. The biologic activities of the PF-3845-induced product (PIP) isolated by HPLC were investigated in anesthetized, normotensive surgically-instrumented mice. Intramedullary and intravenous infusion of PIP at low dose rates (0.5-1 AU/10 min) stimulated diuresis and natriuresis, whereas at higher doses, these parameters returned toward baseline but mean arterial pressure (MAP) was lowered. Whereas intravenous bolus doses of PIP stimulated diuresis, GFR and medullary blood flow (MBF) and reduced or had no effect on MAP, an intraperitoneal bolus injection of PIP reduced MAP, increased MBF, and had no effect on urinary parameters. Genetic or pharmacological ablation of the cannabinoid type 1 receptors in mice completely abolished the diuretic and vasodepressor properties of intramedullary infused PIP, suggesting that the PF-3845-induced product requires the presence of CB1 receptors in order to elicit its renal effects. In a radioactive competition binding assay, using Chinese hamster ovary cells expressing CB1 receptors, PIP successfully displaced the CB1 selective inverse agonist [3H] SR141716A, revealing that the lipid extract was able to compete for binding to CB1 receptors. Finally, we investigated the tubular location of diuretic activity that the PF-3845-induced lipid fraction exhibits. In a renal function in vivo experiment, we pre-treated anesthetized mice with an intramedullary infusion of one of four well-known diuretics. This procedure was followed by an intramedullary infusion of PIP (1AU). Only inhibition of the proximal tubule sodium reabsorption diminished the diuretic activity of the PF-3845-induced product, suggesting that the lipid fraction requires a physiologically intact proximal tubular reabsorption mechanism for it to produce diuresis. These data support a model whereby PF-3845 treatment of MMICs results in increased secretion of a neutral lipid which acts directly to promote diuresis and natriuresis and indirectly through metabolites to produce vasodepression. Efforts to identify the structure of the PF-3845-induced lipid and its relationship to the previously proposed renomedullary antihypertensive lipids are ongoing. CB1 receptors FAAH diuresis natriuresis PF-3845 vasodilation renal medulla medullary interstitial cells Medical Pharmacology Nephrology
22	The Physiological Roles of Rhopr-kinins and the Molecular Characterization of their Gene in the Blood-gorging Insect, Rhodnius prolixus Bhatt, Garima 20 November 2012 (has links) The dramatic feeding-related activities of the Chagas' disease vector, Rhodnius prolixus are under neurohormonal regulation of serotonin and various neuropeptides. One such family of neuropeptides, the insect kinins, possesses diuretic, digestive and myotropic activities in many insects. In R. prolixus, they co-localize with the corticotropin-releasing factor (CRF)-like diuretic hormone (DH) in neurosecretory cell bodies and their abdominal neurohaemal sites. Additionally, kinins are present in endocrine cells of the midgut and are known to stimulate hindgut and midgut contractions. Through the experimentation presented in this dissertation, the cloning and spatial expression of the R. prolixus kinin (Rhopr-kinin) transcript is described. Physiological bioassays demonstrate the myostimulatory effects of selected Rhopr-kinin peptides and also illustrate the augmented responses of hindgut contractions to co-application of Rhopr-kinin and Rhopr-CRF/DH. The irreversible effects of two synthetic kinin analogs on the hindgut relative to the native kinins also exhibit the prospective biotechnological significance of this study. neurohormone insect Rhodnius prolixus kinin neuropeptide CRF cloning Rhopr-kinin analog diuresis serotonin receptor hindgut myotropic Insect Neuroendocrinology Insect Neurophysiology
23	The Physiological Roles of Rhopr-kinins and the Molecular Characterization of their Gene in the Blood-gorging Insect, Rhodnius prolixus Bhatt, Garima 20 November 2012 (has links) The dramatic feeding-related activities of the Chagas' disease vector, Rhodnius prolixus are under neurohormonal regulation of serotonin and various neuropeptides. One such family of neuropeptides, the insect kinins, possesses diuretic, digestive and myotropic activities in many insects. In R. prolixus, they co-localize with the corticotropin-releasing factor (CRF)-like diuretic hormone (DH) in neurosecretory cell bodies and their abdominal neurohaemal sites. Additionally, kinins are present in endocrine cells of the midgut and are known to stimulate hindgut and midgut contractions. Through the experimentation presented in this dissertation, the cloning and spatial expression of the R. prolixus kinin (Rhopr-kinin) transcript is described. Physiological bioassays demonstrate the myostimulatory effects of selected Rhopr-kinin peptides and also illustrate the augmented responses of hindgut contractions to co-application of Rhopr-kinin and Rhopr-CRF/DH. The irreversible effects of two synthetic kinin analogs on the hindgut relative to the native kinins also exhibit the prospective biotechnological significance of this study. neurohormone insect Rhodnius prolixus kinin neuropeptide CRF cloning Rhopr-kinin analog diuresis serotonin receptor hindgut myotropic Insect Neuroendocrinology Insect Neurophysiology
24	Transport of H+, Na+ and K+ across the posterior midgut of blood-fed mosquitoes (Aedes aegypti) Pacey, Evan K. 10 1900 (has links) <p>Mosquitoes pose significant threats to human health because they act as vectors for disease causing viruses and protozoans. Indeed, <em>Aedes aegypti</em> is known as the Yellow Fever Mosquito because of its role as a vector for viral infections that kill thousands of people each year. A more thorough understanding of mosquito physiology will aid development of novel control strategies. Previous work on ion transport across the midgut has been focused primarily on larval <em>A. aegypti</em>, while research on the midgut of the adult stage is less complete. The posterior midgut of the adult female is of particular interest because it is used for the storage and digestion of the blood meal which is required for the production of eggs. This study used an array of electrophysiological methodologies such as the Scanning Ion Electrode Technique (SIET) in order to elucidate the patterns and mechanisms of Na<sup>+</sup>, H<sup>+</sup> and K<sup>+</sup> transport across the posterior midgut at intervals during postprandial diuresis and digestion of the blood meal. Measurements of transepithelial potential indicated that the lumen was at its most negative (-13.2 mV) three hours after the blood meal and then gradually became less negative during the time course of digestion. Na<sup>+</sup> was absorbed (from lumen to bath) at all intervals after the blood meal (6 min, 30 min, 2h, 24 h); calculations of the electrochemical potential indicated that absorption required active transport. H<sup>+</sup> absorption at all times (6 min – 48 h) after the blood meal was also active (<em>i.e.</em> against the electrochemical gradient for H<sup>+</sup>) and was greatly reduced by inhibition of carbonic anhydrase. K<sup>+</sup> transport across the midgut exhibited two distinct phases. During diuresis, luminal concentrations of K<sup>+</sup> were in the range 24 – 28 mM and secretion into the midgut was opposed by the electrochemical gradient, indicating active transport. After diuresis, during blood meal digestion, concentrations of K<sup>+</sup> in the midgut contents were high (95 – 134 mM) and absorption of K<sup>+</sup> was favoured by the electrochemical gradient. K<sup>+</sup> absorption was sensitive to the channel blocker Ba<sup>2+</sup> during this period.</p> / Master of Science (MSc) blood meal postprandial diuresis epithelial transport digestion transport inhibitor channel blocker Comparative and Evolutionary Physiology Comparative and Evolutionary Physiology
25	Kidney Hyaluronan : Regulatory Aspects During Different States of Body Hydration, Nephrogenesis & Diabetes Rügheimer, Louise January 2008 (has links) <p>The kidney regulates the excretion of water and electrolytes, which maintains homeostasis and enables control of arterial blood pressure. Hyaluronan, a large negatively charged interstitial glucosaminoglycan, is heterogeneously distributed within the kidney, primarily found in the medulla.</p><p>Medullary hyaluronan content changes depending on the state of body hydration and plays a part in fluid regulation through its water binding and viscoelastic properties. </p><p>The aim of this thesis was to provide new insight into the regulation of intrarenal hyaluronan during different states of body hydration, during completion of kidney development, and during diabetes mellitus.</p><p>Dehydration reduces medullary interstitial hyaluronan in parallel with reduced hyaluronan synthase 2 gene expression and increased urinary hyaluronidase activity. Acute hydration results in an increase in medullary hyaluronan, an increase that requires nitric oxide and prostaglandins. Urinary hyaluronidase activity decreases during hydration. The elevation of hyaluronan is important for reducing water permeability of the interstitium i.e. favoring diuresis.</p><p>Changes in hyaluronan concentration constitute a morphoregulatory pathway that plays a key role in nephrogenesis. The reduction in neonatal hyaluronan depended on an angiotensin II mediated process that does not appear dependent on lymph vessel formation. If angiotensin II is blocked with an ACE inhibitor, hyaluronan accumulates, which results in structural and functional abnormalities in the kidney. </p><p>Renomedullary hyaluronan is elevated during uncontrolled diabetes, which coincides with induction of hyaluronan synthase 2 mRNA, hyperglycemia, glucosuria, proteinuria and overt diuresis. The levels of hyaluronan are probably at a <i>terminus ad quem</i> as no further response was seen during hydration. The higher interstitial expression of hyaluronan during diabetes may be involved in the progression of diabetic nephropathy.</p><p>This thesis in physiology provides new mechanistic insights into the regulation of renal hyaluronan during various aspects of fluid handling.</p> Physiology hyaluronan kidney dehydration hydration diabetes nephrogenesis renomedullary interstitial cells CD44 hyaluronan synthase hyaluronidase vasopressin nitric oxide prostaglandins glucocorticoids angiotensin II diuresis lymph vessel podoplanin Fysiologi
26	Effet de l’Ocytocine sur les paramètres métaboliques et cardiovasculaires des rats Sprague-Dawley et des rats Spontanément Hypertendus Aliou, Yessoufou 08 1900 (has links) réalisé avec la codirection de Marek Jankowski / Introduction: L’ocytocine (OT) était connue pour ses effets lors de la parturition et de la lactation. Depuis quelques années, d’autres rôles de l’OT ont été proposés. Ainsi, la découverte de l’OT et de son récepteur (OTR) dans le cœur a suggéré le rôle fonctionnel de cette hormone dans cet organe. Aujourd’hui, il existe une controverse concernant l’implication de l’OT dans la régulation de la pression artérielle (PA). Des études additionnelles sont donc requises pour préciser le rôle de l’OT dans le contrôle de la PA. C’est dans ce cadre que se situe la présente étude. Méthodes: Deux types d’expériences ont été faites: Une pour l’étude des paramètres métaboliques et l’autre pour les paramètres cardiovasculaires. Pour la première, l’OT (0.04 mg/kg) a été testée pour son effet métabolique. Les rats SD sont injectés avec l’OT et immédiatement placés dans des cages métaboliques individuelles et adaptées pour recueillir les urines. Les urines recueillies sur 3 heures nous ont permis de mesurer la diurèse, la natriurèse et la kaliurèse chez les rats. Pour le 2ème type, des rats spontanément hypertendus (SHR) et des Sprague-Dawley (SD) ont subi une chirurgie pour l’implantation de la sonde de télémétrie. Après 10 jours de récupération, nous avons commencé l’expérience qui s’est déroulée en 2 séries: la série des injections intraveineuses (i.v.) (0.04, 0.08, 0.1, 0.2 et 0.4 mg/kg en une seule injection) et la série des injections sous-cutanées (s.c.) (0.5 et 1 mg/kg/jour pendant 5 jours d’injection). La pression artérielle (PA), la fréquence cardiaque (FC) et de l’activité des rats ont été mesurées continuellement pendant toute l’expérience. Résultats: En i.v. la plus petite dose d’OT (0.04 mg/kg/0.3 ml) utilisée pour les effets rénaux a amené une diurèse significative, montre une tendance de natriurèse et de diminution de kaliurèse. Cette dose et celle d’OT (0.08 mg⁄kg⁄0.3 ml) sont sans effets sur la PA mais diminuent la FC des SHR et des SD (seulement les nuits). Pour les doses élevées en i.v. (0.1, 0.2 et 0.4 mg/kg d’OT), à l’exception de l’effet vasopresseur transitoire observé avec OT 0.4 mg/kg chez SD, l’OT 0.1 et 0.2 mg/kg ont diminué la PA. Les doses (0.2 et 0.4 mg/kg) d’OT ont diminué la PA chez les SHR. Elles ont augmenté la FC en journée aussi bien chez les SD que chez les SHR pendant que 0.1 mg/kg l’a diminuée. Pendant les nuits, c’est seulement la dose de 0.4 mg/kg qui a un effet sur la FC qu’elle diminue aussi bien chez les SD que les SHR. Les doses de 0.5 et 1 mg/kg injectées en s.c. ont diminué significativement la PA chez les SHR. Mais, chez les SD c’est l’OT à la dose de 1 mg/kg qui a amené une baisse de PA. À l’exception de OT 0.5 mg/kg/jour qui a augmenté la FC et l’activité chez les SHR en journée et ce au cours des injections, l’OT en s.c. a également entraîné une diminution de la FC et de l’activité. Conclusion: Ces résultats démontrent que l’OT intervient dans la régulation de la PA et la FC et les effets de l’OT dépendent de la souche de rats, de la dose, de la voie d’administration et du moment d’enregistrement des paramètres cardiovasculaires (jour ou nuit). Parlant de dépendance des résultats en fonction des voies d’administration, force est de signaler qu’avec les injections s.c. l’effet hypotenseur de l’OT est puissant et sans équivoque. Cela serait dû au fait que la duré de vie de l’OT est très courte (5 à 10 minutes) quand elle entre dans le sang. Ainsi, contrairement à la voie i.v., l’efficacité de l’OT en s.c. résulterait de sa libération lente dans le sang et donc toute la quantité administrée en s.c. ne se dégrade pas d’un seul coup. / Introduction: Oxytocin (OT) is known for its effects during parturition and lactation. In recent years, new roles of OT have been brought to light. Thus, the discovery of OT and its receptors (OTR) in the heart suggest a functional role in the body. Nowadays, the involvement of OT in blood pressure (BP) regulation is still controversial. Additional studies are therefore required to accurately determine the role of OT in the control of BP. Methods: Two types of experiments were carried out: Diuretic effect: conscious male, Sprague-Dawley rats were administered OT intravenously (0.04 mg/kg) and immediately placed in metabolic and individual cage; urine was collected and measured every hour for 3 hours. Urine measurement allowed diuresis, natriuresis and kaliuresis to be determined Telemetry: telemetry implants and catheters were inserted into the abdominal aorta of spontaneously hypertensive (SHR) and Sprague-Dawley (SD) rats. After 10 days (of necessary recovery), heart rate (HR), BP and animal locomotor activities were measured continuously. The same experiment was done on two batches of rats. Different doses of OT: 0.04; 0.08; 0.1, 0.2 or 0.4 mg/kg were injected once by intravenous (i.v) route. After each injection, we waited for the normalization of BP and HR before the next dose. Further more, 5 consecutive injections of OT were made (0.5 and 1 mg/kg) subcutaneously (s.c.). Results: The dose of 0.04 mg/kg of OT administrated for renal effects led to significant diuresis, a tendancy in natriuresis and kaliuresis decreased with no effect on BP. That dose as well as 0.08 mg/kg decreased HR in SHR and SD rats (only in the night). Whereas the highest doses in i.v. (0.1, 0.2 et 0.4 mg/kg d’OT), except a transient vasopressor effect observed with the OT 0.4 mg/kg in SD rats, OT 0.1 and 0.2 mg/kg decreased BP. OT 0.2 and 0.4 mg/kg decreased BP in SHR but increased HR during the days in both strains. The dose of 0.4 mg/kg led to a decrease of HR in SHR and in SD rats. The s.c. injections (0.5 and 1 mg/kg) of OT led to a significant decrease in BP in SHR, whereas in SD rats the lowering was only significant with a dose OT 1 mg/kg. HR significantly decreased in both strain with 1 mg/kg, whereas with 0.5 mg/kg, HR increased in SHR only and during the day. Conclusion: These results demonstrate that oxytocin acts on blood pressure and heart rate depending on strain, dose and route of administration. It’s important to point out that with s.c. injections the hypotensive effect of OT is powerful and unequivocal. This is probably because OT administered s.c. is slowly released into the bloodstream. Therefore the entire amount administered s.c. does not degrade at once and leads to the effectiveness of s.c. results. Ocytocine Télémétrie Cathéter Diurèse Natriurèse Kaliurèse Pression Artérielle Fréquence Cardiaque Oxytocin Telemetry Catheter Diuresis Natriuresis Kaliuresis Blood Pressure Heart Rate
27	Kidney Hyaluronan : Regulatory Aspects During Different States of Body Hydration, Nephrogenesis & Diabetes Rügheimer, Louise January 2008 (has links) The kidney regulates the excretion of water and electrolytes, which maintains homeostasis and enables control of arterial blood pressure. Hyaluronan, a large negatively charged interstitial glucosaminoglycan, is heterogeneously distributed within the kidney, primarily found in the medulla. Medullary hyaluronan content changes depending on the state of body hydration and plays a part in fluid regulation through its water binding and viscoelastic properties. The aim of this thesis was to provide new insight into the regulation of intrarenal hyaluronan during different states of body hydration, during completion of kidney development, and during diabetes mellitus. Dehydration reduces medullary interstitial hyaluronan in parallel with reduced hyaluronan synthase 2 gene expression and increased urinary hyaluronidase activity. Acute hydration results in an increase in medullary hyaluronan, an increase that requires nitric oxide and prostaglandins. Urinary hyaluronidase activity decreases during hydration. The elevation of hyaluronan is important for reducing water permeability of the interstitium i.e. favoring diuresis. Changes in hyaluronan concentration constitute a morphoregulatory pathway that plays a key role in nephrogenesis. The reduction in neonatal hyaluronan depended on an angiotensin II mediated process that does not appear dependent on lymph vessel formation. If angiotensin II is blocked with an ACE inhibitor, hyaluronan accumulates, which results in structural and functional abnormalities in the kidney. Renomedullary hyaluronan is elevated during uncontrolled diabetes, which coincides with induction of hyaluronan synthase 2 mRNA, hyperglycemia, glucosuria, proteinuria and overt diuresis. The levels of hyaluronan are probably at a terminus ad quem as no further response was seen during hydration. The higher interstitial expression of hyaluronan during diabetes may be involved in the progression of diabetic nephropathy. This thesis in physiology provides new mechanistic insights into the regulation of renal hyaluronan during various aspects of fluid handling. Physiology hyaluronan kidney dehydration hydration diabetes nephrogenesis renomedullary interstitial cells CD44 hyaluronan synthase hyaluronidase vasopressin nitric oxide prostaglandins glucocorticoids angiotensin II diuresis lymph vessel podoplanin Fysiologi
28	Effet de l’Ocytocine sur les paramètres métaboliques et cardiovasculaires des rats Sprague-Dawley et des rats Spontanément Hypertendus Aliou, Yessoufou 08 1900 (has links) Introduction: L’ocytocine (OT) était connue pour ses effets lors de la parturition et de la lactation. Depuis quelques années, d’autres rôles de l’OT ont été proposés. Ainsi, la découverte de l’OT et de son récepteur (OTR) dans le cœur a suggéré le rôle fonctionnel de cette hormone dans cet organe. Aujourd’hui, il existe une controverse concernant l’implication de l’OT dans la régulation de la pression artérielle (PA). Des études additionnelles sont donc requises pour préciser le rôle de l’OT dans le contrôle de la PA. C’est dans ce cadre que se situe la présente étude. Méthodes: Deux types d’expériences ont été faites: Une pour l’étude des paramètres métaboliques et l’autre pour les paramètres cardiovasculaires. Pour la première, l’OT (0.04 mg/kg) a été testée pour son effet métabolique. Les rats SD sont injectés avec l’OT et immédiatement placés dans des cages métaboliques individuelles et adaptées pour recueillir les urines. Les urines recueillies sur 3 heures nous ont permis de mesurer la diurèse, la natriurèse et la kaliurèse chez les rats. Pour le 2ème type, des rats spontanément hypertendus (SHR) et des Sprague-Dawley (SD) ont subi une chirurgie pour l’implantation de la sonde de télémétrie. Après 10 jours de récupération, nous avons commencé l’expérience qui s’est déroulée en 2 séries: la série des injections intraveineuses (i.v.) (0.04, 0.08, 0.1, 0.2 et 0.4 mg/kg en une seule injection) et la série des injections sous-cutanées (s.c.) (0.5 et 1 mg/kg/jour pendant 5 jours d’injection). La pression artérielle (PA), la fréquence cardiaque (FC) et de l’activité des rats ont été mesurées continuellement pendant toute l’expérience. Résultats: En i.v. la plus petite dose d’OT (0.04 mg/kg/0.3 ml) utilisée pour les effets rénaux a amené une diurèse significative, montre une tendance de natriurèse et de diminution de kaliurèse. Cette dose et celle d’OT (0.08 mg⁄kg⁄0.3 ml) sont sans effets sur la PA mais diminuent la FC des SHR et des SD (seulement les nuits). Pour les doses élevées en i.v. (0.1, 0.2 et 0.4 mg/kg d’OT), à l’exception de l’effet vasopresseur transitoire observé avec OT 0.4 mg/kg chez SD, l’OT 0.1 et 0.2 mg/kg ont diminué la PA. Les doses (0.2 et 0.4 mg/kg) d’OT ont diminué la PA chez les SHR. Elles ont augmenté la FC en journée aussi bien chez les SD que chez les SHR pendant que 0.1 mg/kg l’a diminuée. Pendant les nuits, c’est seulement la dose de 0.4 mg/kg qui a un effet sur la FC qu’elle diminue aussi bien chez les SD que les SHR. Les doses de 0.5 et 1 mg/kg injectées en s.c. ont diminué significativement la PA chez les SHR. Mais, chez les SD c’est l’OT à la dose de 1 mg/kg qui a amené une baisse de PA. À l’exception de OT 0.5 mg/kg/jour qui a augmenté la FC et l’activité chez les SHR en journée et ce au cours des injections, l’OT en s.c. a également entraîné une diminution de la FC et de l’activité. Conclusion: Ces résultats démontrent que l’OT intervient dans la régulation de la PA et la FC et les effets de l’OT dépendent de la souche de rats, de la dose, de la voie d’administration et du moment d’enregistrement des paramètres cardiovasculaires (jour ou nuit). Parlant de dépendance des résultats en fonction des voies d’administration, force est de signaler qu’avec les injections s.c. l’effet hypotenseur de l’OT est puissant et sans équivoque. Cela serait dû au fait que la duré de vie de l’OT est très courte (5 à 10 minutes) quand elle entre dans le sang. Ainsi, contrairement à la voie i.v., l’efficacité de l’OT en s.c. résulterait de sa libération lente dans le sang et donc toute la quantité administrée en s.c. ne se dégrade pas d’un seul coup. / Introduction: Oxytocin (OT) is known for its effects during parturition and lactation. In recent years, new roles of OT have been brought to light. Thus, the discovery of OT and its receptors (OTR) in the heart suggest a functional role in the body. Nowadays, the involvement of OT in blood pressure (BP) regulation is still controversial. Additional studies are therefore required to accurately determine the role of OT in the control of BP. Methods: Two types of experiments were carried out: Diuretic effect: conscious male, Sprague-Dawley rats were administered OT intravenously (0.04 mg/kg) and immediately placed in metabolic and individual cage; urine was collected and measured every hour for 3 hours. Urine measurement allowed diuresis, natriuresis and kaliuresis to be determined Telemetry: telemetry implants and catheters were inserted into the abdominal aorta of spontaneously hypertensive (SHR) and Sprague-Dawley (SD) rats. After 10 days (of necessary recovery), heart rate (HR), BP and animal locomotor activities were measured continuously. The same experiment was done on two batches of rats. Different doses of OT: 0.04; 0.08; 0.1, 0.2 or 0.4 mg/kg were injected once by intravenous (i.v) route. After each injection, we waited for the normalization of BP and HR before the next dose. Further more, 5 consecutive injections of OT were made (0.5 and 1 mg/kg) subcutaneously (s.c.). Results: The dose of 0.04 mg/kg of OT administrated for renal effects led to significant diuresis, a tendancy in natriuresis and kaliuresis decreased with no effect on BP. That dose as well as 0.08 mg/kg decreased HR in SHR and SD rats (only in the night). Whereas the highest doses in i.v. (0.1, 0.2 et 0.4 mg/kg d’OT), except a transient vasopressor effect observed with the OT 0.4 mg/kg in SD rats, OT 0.1 and 0.2 mg/kg decreased BP. OT 0.2 and 0.4 mg/kg decreased BP in SHR but increased HR during the days in both strains. The dose of 0.4 mg/kg led to a decrease of HR in SHR and in SD rats. The s.c. injections (0.5 and 1 mg/kg) of OT led to a significant decrease in BP in SHR, whereas in SD rats the lowering was only significant with a dose OT 1 mg/kg. HR significantly decreased in both strain with 1 mg/kg, whereas with 0.5 mg/kg, HR increased in SHR only and during the day. Conclusion: These results demonstrate that oxytocin acts on blood pressure and heart rate depending on strain, dose and route of administration. It’s important to point out that with s.c. injections the hypotensive effect of OT is powerful and unequivocal. This is probably because OT administered s.c. is slowly released into the bloodstream. Therefore the entire amount administered s.c. does not degrade at once and leads to the effectiveness of s.c. results. / réalisé avec la codirection de Marek Jankowski Ocytocine Télémétrie Cathéter Diurèse Natriurèse Kaliurèse Pression Artérielle Fréquence Cardiaque Oxytocin Telemetry Catheter Diuresis Natriuresis Kaliuresis Blood Pressure Heart Rate
29	Cloning, Immunolocalization and Functional Analyses of Calcitonin Receptor 1 (AedaeGPRCAL1; Diuretic Hormone 31 Receptor) in Females of Mosquito Aedes aegypti (Diptera: Culicidae) Kwon, Hyeog Sun 03 October 2013 (has links) G protein-coupled receptors (GPCRs) are composed of seven transmembrane domains and play an essential role in regulating physiological functions and mediating responses to environmental stimuli, biogenic amines, neurotransmitters, peptides, lipids, and hormones. The calcitonin-like diuretic hormone 31 (DH31) is known to elicit natriuresis from the Malpighian tubules (MTs) of mosquitoes Anopheles gambiae and Aedes aegypti upon blood feeding. However, the contribution of DH31 cognate receptor, calcitonin receptor 1 (GPRCAL1), has not been evaluated with respect to postprandial fluid regulation or myostimulatory activity in blood feeding insects. Thus, this dissertation has investigated potential roles of AedaeGPRCAL1 in the regulation of fluid homeostasis and hindgut muscle contraction in female A. aegypti mosquito. The full length cDNA encoding AedaeGPRCAL1 was cloned and sequenced. The receptor expression in the MTs and hindgut from female mosquito was analyzed by western blot and immunohistochemistry using anti-AedaeGPRCAL1 affinity purified antibodies, and subsequently its role in fluid transport and hindgut contraction was evaluated by RNA interference (RNAi). The mosquitoes that underwent knock-down of the AedaeGPRcal1 exhibited up to 57% lower rate of MT fluid secretion in presence of Aedae-DH31 in the in vitro assay and a ~30% reduction in the fluid excreted from live females upon blood feeding. The receptor was immunolocalized in principal cells, predominantly towards the distal end of MTs. Analyses of receptor signal probability indicate the receptor is expressed in a gradient-like fashion along the length of the MTs. A striking discovery was the fact that not all principal cells express the receptor, contrary to previous belief. Immunolocalization revealed the AedaeGPRCAL1 is expressed in hindgut circular and longitudinal muscles. The application of DH31 increased the frequency of hindgut contractions in all female mosquitoes, those injected with AedaeGPRcal1 dsRNA and controls, as compared to their basal contraction rate, but the percent change in frequency of hindgut contraction from AedaeGPRcal1 knock-down females was about 2-fold lower than the controls after application of Aedae-DH31. To my knowledge, this is first evidence of RNAi-induced phenotypes in any invertebrate that allowed the quantification of the contribution of single family B GPCR to fluid loss and muscle contractility. Aedes aegypti Malpighian tubules Principal cell Calcitonin receptor-like receptor 1 Diuretic hormone 31 Diuresis Excretion Insect hindgut muscles Hindgut contraction RNAi
30	Untersuchungen zur Wirkungsweise von Birkenblättern (Betulae folium) und phenolischer Verbindungen Major, Hedda 25 March 2002 (has links) Die Anwendung von Birkenblättern (Betulae folium) erfolgt zur Durchspülung der Harnwege. In der vorliegenden Arbeit wurde die Wirkungsweise der Birkenblätter auf verschiedenen Ebenen der Phytopharmakaforschung untersucht. Zunächst wurde in-vitro die Beeinflussung der Metallopeptidasen Neutrale Endopeptidase (NEP, EC 3.4.24.11), Angiotensin-Converting-Enzym (ACE, EC 3.4.15.1) und Leucin-Aminopeptidase (LAP, EC 3.4.11.2) durch Birkenblätterextrakte, -fraktionen und reine Naturstoffe untersucht. Die Auftrennung eines Methanol- und eines Ethylacetatextraktes führte nicht zur Gewinnung einzelner, für die Gesamtwirkungen der Extrakte verantwortlicher Fraktionen bzw. Komponenten. Die Eigenschaft der Flavonoide als wirksamkeitsmitbestimmende Inhaltsstoffe konnte jedoch bestätigt werden. Ein systematisches Screening von Flavonoiden ergab u.a., dass das Ausmaß der Enzymhemmung von der Anzahl der freien phenolischen OH-Funktionen bestimmt wurde und dass Flavonoidaglyka stärker die Enzyme hemmten, als die im Pflanzenmaterial vorliegenden Glykoside (IC50 NEP: Myricetin 42 Mikromol/L, Quercetin 192 Mikromol/L). Die in der Birkenrinde vorkommenden Triterpene Betulinsäure und Betulinol wurden als starke Inhibitoren der LAP erkannt (IC50 LAP: 7,3 +/- 1,4 bzw. 8,8 +/- 1,78 Mikromol/L). In einem nächsten Abschnitt der Arbeit wurden die Absorptionseigenschaften von Hyperosid und Rutin mit einem In-vitro-Perfusionsmodell am isolierten Rattendünndarm untersucht. Sowohl Rutin als auch Hyperosid traten unverändert als Glykoside durch den Darm in das Akzeptorkompartiment über. Auch in Form eines Birkenblätterextraktes wurde Hyperosid am Rattendünndarm absorbiert, der Extrakt veränderte jedoch nicht die Absorptionsrate. Als Mechanismus wurde der passive Transport durch die Poren der Tight junctions der Dünndarmzellen angenommen. Abschließend wurde eine Pilotstudie (n=14) durchgeführt, in der das ausgeschiedene Harnvolumen nach einmaliger Einnahme eines Birkenblättertees im Vergleich zu einer entsprechenden Menge Leitungswasser bestimmt wurde. Bei 50 % der Probanden wurde innerhalb der vierstündigen Testphase eine Zunahme der Harnproduktion beobachtet, bei den anderen 50 % stellte sich eine gegensätzliche Reaktion auf Tee und Placebo ein. Eine signifikante Erhöhung der Harnproduktion konnte somit, unter dem angegebenen Studiendesign, nicht nachgewiesen werden. / Irrigation of the urinary tract is the therapeutic indication for Birch leaf (Betulae folium). In the present thesis, effects and efficacy of Birch leaves were investigated in various fields of medicinal plant research. The effects of Birch leaf extracts, their fractions, and pure natural compounds on the metallopeptidases - Neutral Endopeptidase (NEP, EC 3.4.24.11), Angiotensin Converting Enzyme (ACE, EC 3.4.15.1), and Leucine Aminopeptidase (LAP, EC 3.4.11.2) - were investigated in vitro. Phytochemical separation of extracts obtained by methanol and ethyl acetate did not result in more active fractions compared to those of the whole extracts. The ability of flavonoids to contribute to the efficacy reached by Birch leaf extracts, could be confirmed. A systematic screening could show that the inhibitory potency of flavonoids is dependent on the number of phenolic hydroxyl functions in their chemical structure. Aglycones of flavonoids were more active than their corresponding glycosides occurring in the plant material (IC50 NEP: myricetin 42 mikromol/L, quercetin 192 mikromol/L). Betulinic acid and betulinol, triterpenes of the bark of Betula, inhibited LAP strongly by reaching an IC50 of 7,3 +/- 1,4 mikromol/L and 8,8 +/- 1,78 mikromol/L, respectively. Furthermore, this thesis showed the absorption profiles of hyperoside and rutin in an isolated small intestine model of the rat. Both glycosides were detected in the acceptor compartment without being metabolised. Administration of hyperoside by a Birch leaf extract did not influence the absorption rate. A passive transport through the pores of the tight junctions, localized between the intestinal cells, was considered to be the mechanism of absorption of the flavonol glycosides. Finally, a human pilot study (n=14) was carried out. The excreted urinary volume was determined after a single intake of a Birch leaf infusion or tap water. An increased urine output after 4 hours of the test period was found in 50% of the volunteers. In the contrary, an opposite effect was determined in 50% of the volunteers after administration of the herbal infusion and of a placebo solution. Thus, no significant increase of urine volume could be observed under these test conditions. Birke Betula Flavonoide Hyperosid Polyphenole Betulinsäure Metallopeptidasen NEP ACE LAP Absorption Diurese Birch betula flavonoids hyperoside polyphenols betulinic acid metallopeptidases NEP ACE LAP absorption diuresis 570 Biowissenschaften, Biologie 32 Biologie VW 5307 ddc:570

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