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β-Adrenoceptor-Mediated Relaxation of Carbachol-Pre-Contracted Mouse DetrusorPropping, Stefan, Newe, Manja, Lorenz, Kristina, Wirth, Manfred P., Ravens, Ursula 08 June 2016 (has links) (PDF)
Aims: To study the β-adrenoceptor subtypes involved in the relaxation responses to (-)-isoprenaline in carbachol-pre-contracted (CCh) mouse detrusor muscle with intact and denuded mucosa. Methods: Isolated muscle strips from the urinary bladder of male C57BL6 mice or β2-adrenoceptor knockout mice were pre-contracted with CCh, 1 µM and relaxed with increasing concentrations of the β-adrenoceptor (β-AR) agonist (-)-isoprenaline and forskolin. For estimating the β-AR subtypes involved, subtype-selective receptor blockers were used, that is, CGP 20712A (β1-ARs), ICI 118,551 (β2-ARs), and L748,337 (β3-ARs). Results: Unlike in KCl-pre-contracted muscle, the mucosa did not affect the sensitivity of the relaxation response to (-)-isoprenaline in CCh-pre-contracted murine detrusor strips. Increasing concentrations of (-)-isoprenaline produced a biphasic concentration-relaxation response without any difference both during the presence and absence of mucosa. The relaxation fraction produced by low (-)-isoprenaline concentrations was mediated by β2-AR as evidenced by a shift of the concentration-response curve to higher concentrations with ICI 118,551, but not with CGP 20712A and L748,337, and by the absence of this fraction in β2-AR-KO mice. The relaxation response with low sensitivity to (-)-isoprenaline was not affected by any of the β-AR subtype-selective blockers and was the only response detected in detrusor strips from β2-AR-KO mice. Conclusions: In CCh-pre-contracted mouse detrusor, β2-ARs are responsible for the relaxation component with high sensitivity to (-)-isoprenaline as indicated by the conversion of a biphasic into a monophasic CRC with ICI 118,551 or by its absence in β2-AR KO mice. The mucosa does not impair relaxation under these conditions. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich.
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Die Regulation antioxidativer Enzyme nach Ozonexposition am Kulturmodell der menschlichen NasenschleimhautOtto-Knapp, Ralf 29 June 2001 (has links)
Die antioxidativen Enzyme Katalase (KAT), Glutathion-Peroxidase (GPX), Glutathion-Reduktase (GR), Superoxid-Dismutase (SOD) und Glutathion-S-Transferase (GST) sind an der intrazellulären Abwehr von oxidativem Stress beteiligt. Diverse Arbeitsgruppen fanden eine Hochregulation der antioxidativen Enzyme (AOEs) nach Exposition auf Ozon. In der vorliegenden Studie sollte an einem von Schierhorn und Mitarbeitern entwickelten Kulturmodell der nasalen Mukosa des Menschen untersucht werden, ob Aktivitätsänderungen der AOEs nach Ozonexposition in vitro zu verzeichnen sind. Zu diesem Zweck wurde die nasale Mukosa von 67 Patienten, die sich wegen nasaler Atmungsbehinderung einer Conchotomie unterzogen hatten, 24 Stunden bei 37 °C und 5% CO2 kultiviert und parallel unter den selben Bedingungen einer zusätzlichen Ozonkonzentration von 120 ppb ausgesetzt. Tendenzielle Aktivitätsänderungen durch Ozon ließen sich bei der GPX (13.8 auf 17.7 mU/mg Protein, 28% Steigerung) und der SOD (8.4 auf 9.7 U/mg Protein, 15% Steigerung) feststellen. Diese Aktivitätszunahmen wiesen jedoch keine Signifikanz auf. Aktivtätsänderungen bei KAT, GR und GST durch die Ozonexposition wurden nicht gefunden. Alter der Patienten, Geschlecht und Zigarettenrauchen nahmen den Ergebnissen dieser Studie nach keinen Einfluß auf die Regulation der AOEs nach Ozonexposition. Die Deletion der Glutathion-S-Transferase M1, die bei etwa 50% der mitteleuropäischen Bevölkerung zu finden ist, veränderte die Regulation der SOD nach in vitro Ozonexposition. Die GST-defizienten Patienten dieser Studie beantworteten die Ozonexposition mit einer signifikanten Hochregulation der SOD (p / Antioxidant enzymes as catalase (CAT), glutathione peroxidase (GPX), superoxide dismutase (SOD) and glutathione S-transferase (GST) are thought the primary cellular defense mechanism against reactive oxygen species. Ozone, a highly reactive oxidant, is known to cause respiratory symptoms at ambiental doses. A number of studies have shown the mucosa of the respiratory tract to be the first target site of ozone toxicity. Other animal studies demonstrated an upregulation of mucosal antioxidant enzymes after ozone exposition. Concerning to the antioxidant defense mechanisms of the human nasal mucosa no studies are found so far. The purpose of this study was to determine if in vitro ozone exposure of human nasal mucosa results in changes in the activity of CAT, GPX, SOD, GST and glutathione reductase (GR). Nasal mucosa from 67 patients was cultivated in a specially designed in vitro organ culture and exposed to 120 ppb ozone for 24 hours. The results were compared with the histamin release which is known to be upregulated from human nasal mucosa after ozone exposition (60-200 ppb).
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β-Adrenoceptor-Mediated Relaxation of Carbachol-Pre-Contracted Mouse DetrusorPropping, Stefan, Newe, Manja, Lorenz, Kristina, Wirth, Manfred P., Ravens, Ursula January 2015 (has links)
Aims: To study the β-adrenoceptor subtypes involved in the relaxation responses to (-)-isoprenaline in carbachol-pre-contracted (CCh) mouse detrusor muscle with intact and denuded mucosa. Methods: Isolated muscle strips from the urinary bladder of male C57BL6 mice or β2-adrenoceptor knockout mice were pre-contracted with CCh, 1 µM and relaxed with increasing concentrations of the β-adrenoceptor (β-AR) agonist (-)-isoprenaline and forskolin. For estimating the β-AR subtypes involved, subtype-selective receptor blockers were used, that is, CGP 20712A (β1-ARs), ICI 118,551 (β2-ARs), and L748,337 (β3-ARs). Results: Unlike in KCl-pre-contracted muscle, the mucosa did not affect the sensitivity of the relaxation response to (-)-isoprenaline in CCh-pre-contracted murine detrusor strips. Increasing concentrations of (-)-isoprenaline produced a biphasic concentration-relaxation response without any difference both during the presence and absence of mucosa. The relaxation fraction produced by low (-)-isoprenaline concentrations was mediated by β2-AR as evidenced by a shift of the concentration-response curve to higher concentrations with ICI 118,551, but not with CGP 20712A and L748,337, and by the absence of this fraction in β2-AR-KO mice. The relaxation response with low sensitivity to (-)-isoprenaline was not affected by any of the β-AR subtype-selective blockers and was the only response detected in detrusor strips from β2-AR-KO mice. Conclusions: In CCh-pre-contracted mouse detrusor, β2-ARs are responsible for the relaxation component with high sensitivity to (-)-isoprenaline as indicated by the conversion of a biphasic into a monophasic CRC with ICI 118,551 or by its absence in β2-AR KO mice. The mucosa does not impair relaxation under these conditions. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich.
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