Angiotensin II (Ang II) is the main mediator of the Renin-Angiotensin-System acting on AT<sub>1</sub> and other AT receptors. It is regarded as a pleiotropic agent that induces many actions, including func...Angiotensin II (Ang II) is the main mediator of the Renin-Angiotensin-System acting on AT<sub>1</sub> and other AT receptors. It is regarded as a pleiotropic agent that induces many actions, including functioning as a growth factor, and as a contractile hormone, among others. The aim of this work was to examine the impact of Ang II on the expression and function of α<sub>1</sub>-adrenergic receptors (α<sub>1</sub>-ARs) in cultured rat aorta, and aorta-derived smooth muscle cells. Isolated Wistar rat aorta was incubated for 24 h in DMEM at 37˚C, then subjected to isometric tension and to the action of added norepinephrine, in concentration-response curves. Ang II was added (1 × 10<sup>−5</sup> M), and in some experiments, 5-Methylurapidil (α<sub>1A</sub>-AR antagonist), AH11110A (α<sub>1B</sub>-AR antagonist), or BMY-7378 (α<sub>1D</sub>-AR antagonist), were used to identify the α<sub>1</sub>-AR involved in the response. Desensitization of the contractile response to norepinephrine was observed due to incubation time, and by the Ang II action. α<sub>1D</sub>-AR was protected from desensitization by BMY-7378;while RS-100329 and prazosin partially mitigated desensitization. In another set of experiments, isolated aorta-derived smooth muscle cells were exposed to Ang II and α<sub>1</sub>-ARs proteins were evaluated. α<sub>1D</sub>-AR increased at 30 and 60 min post Ang II exposure, the α<sub>1A</sub>-AR diminished from 1 to 4 h, while α<sub>1B</sub>-AR remained unchanged over 24 h of Ang II exposure. Ang II induced an increase of α<sub>1D</sub>-AR at short times, and BMY-7378 protected α<sub>1D</sub>-AR from desensitization.展开更多
Changes of pulmonary α1-and βadrenergic receptors (α1- ARs and β-ARs) after endotoxin-induced lung injury were dynamically observed with radioligand binding assay and the pulmonary rnicrovascular permeability and ...Changes of pulmonary α1-and βadrenergic receptors (α1- ARs and β-ARs) after endotoxin-induced lung injury were dynamically observed with radioligand binding assay and the pulmonary rnicrovascular permeability and histopathology were also studied in rats to investigate the relationship between changes of pu1monary ARs and acute lung injury. It was found that the contents of both α1-ARs and β-ARs were significantly decreased after endotoxin-induced acute lung injury. On the basis of these findings, the authors inferred that the down regulation of β-ARs might be one of the factors to increase pulmonary microvascular permeability and that of α1-ARs seems to be a protective reaction. This inference might serve as the theoretical basis to treat pulmonary edema with α1-antagonists and β-agonists clinically.展开更多
Objective: To imastigate the effects of anisodamine on pulmonary α1- adrenergic receptor andphospholipase A, in acute lung injurg. Methods: Change of α1--adrenergic receptor (al AR ) in lung tissllesduring endotoxin...Objective: To imastigate the effects of anisodamine on pulmonary α1- adrenergic receptor andphospholipase A, in acute lung injurg. Methods: Change of α1--adrenergic receptor (al AR ) in lung tissllesduring endotoxin--induced rat acute lung injury was measured with radioligand biding assay. The effects ofanisodamine on pulmonary α1--AR and phospholipase A2 (PLA2 ) were observed. Results: 1. 4 h after theendotoxin injection, there was a significant decrease in the maximal binding capacity of α1--AR by 34% ascompared with the control group. meanwhile elevated activity of PLA2 in rat lung and reduction of thephospholipids content of cell membrane was found. 2. Anisodamine could attenuate endotoxin--induced acutelung injury in rats. Conclusion: This effect might be related to anisodamine’s blockage of α1--AR andsuppression of PLA2, prevention of membranous phospholipids from degradation. and the reduction ofarachidonic acid release.展开更多
文摘Angiotensin II (Ang II) is the main mediator of the Renin-Angiotensin-System acting on AT<sub>1</sub> and other AT receptors. It is regarded as a pleiotropic agent that induces many actions, including functioning as a growth factor, and as a contractile hormone, among others. The aim of this work was to examine the impact of Ang II on the expression and function of α<sub>1</sub>-adrenergic receptors (α<sub>1</sub>-ARs) in cultured rat aorta, and aorta-derived smooth muscle cells. Isolated Wistar rat aorta was incubated for 24 h in DMEM at 37˚C, then subjected to isometric tension and to the action of added norepinephrine, in concentration-response curves. Ang II was added (1 × 10<sup>−5</sup> M), and in some experiments, 5-Methylurapidil (α<sub>1A</sub>-AR antagonist), AH11110A (α<sub>1B</sub>-AR antagonist), or BMY-7378 (α<sub>1D</sub>-AR antagonist), were used to identify the α<sub>1</sub>-AR involved in the response. Desensitization of the contractile response to norepinephrine was observed due to incubation time, and by the Ang II action. α<sub>1D</sub>-AR was protected from desensitization by BMY-7378;while RS-100329 and prazosin partially mitigated desensitization. In another set of experiments, isolated aorta-derived smooth muscle cells were exposed to Ang II and α<sub>1</sub>-ARs proteins were evaluated. α<sub>1D</sub>-AR increased at 30 and 60 min post Ang II exposure, the α<sub>1A</sub>-AR diminished from 1 to 4 h, while α<sub>1B</sub>-AR remained unchanged over 24 h of Ang II exposure. Ang II induced an increase of α<sub>1D</sub>-AR at short times, and BMY-7378 protected α<sub>1D</sub>-AR from desensitization.
文摘Changes of pulmonary α1-and βadrenergic receptors (α1- ARs and β-ARs) after endotoxin-induced lung injury were dynamically observed with radioligand binding assay and the pulmonary rnicrovascular permeability and histopathology were also studied in rats to investigate the relationship between changes of pu1monary ARs and acute lung injury. It was found that the contents of both α1-ARs and β-ARs were significantly decreased after endotoxin-induced acute lung injury. On the basis of these findings, the authors inferred that the down regulation of β-ARs might be one of the factors to increase pulmonary microvascular permeability and that of α1-ARs seems to be a protective reaction. This inference might serve as the theoretical basis to treat pulmonary edema with α1-antagonists and β-agonists clinically.
文摘Objective: To imastigate the effects of anisodamine on pulmonary α1- adrenergic receptor andphospholipase A, in acute lung injurg. Methods: Change of α1--adrenergic receptor (al AR ) in lung tissllesduring endotoxin--induced rat acute lung injury was measured with radioligand biding assay. The effects ofanisodamine on pulmonary α1--AR and phospholipase A2 (PLA2 ) were observed. Results: 1. 4 h after theendotoxin injection, there was a significant decrease in the maximal binding capacity of α1--AR by 34% ascompared with the control group. meanwhile elevated activity of PLA2 in rat lung and reduction of thephospholipids content of cell membrane was found. 2. Anisodamine could attenuate endotoxin--induced acutelung injury in rats. Conclusion: This effect might be related to anisodamine’s blockage of α1--AR andsuppression of PLA2, prevention of membranous phospholipids from degradation. and the reduction ofarachidonic acid release.