缓激素介导的水肿形成可被左旋而非右旋特布他林阻断。

Microcirculation, endothelium, and lymphatics Pub Date : 1988-10-01

D E Dobbins, M J Buehn, J M Dabney

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引用次数: 0

摘要

纯化的- 2受体激动剂特布他林立体异构体阻断缓激肽介导的淋巴流量和蛋白质浓度增加的能力在恒定动脉流量灌注的犬前肢中进行了评估。动脉内输注缓激肽(2微克/分钟，n = 8)可降低前肢动脉压，但不影响皮肤小静脉压或全身压。淋巴流量、蛋白浓度和蛋白转运显著增加。动脉内输注1-特布他林(1微克/分钟，n = 9)可降低前肢动脉压和全身压，但不影响淋巴参数。在持续输注1-特布他林期间，随后的缓激肽输注未能改变前肢淋巴参数。动脉内输注d-特布他林(1微克/分钟，n = 11)没有改变血管压力或淋巴参数。在持续输注d-特布他林期间继续输注缓激肽，可降低前肢动脉压，显著增加淋巴流量、蛋白质浓度和蛋白质转运。动脉内输注高剂量(100微克/分钟，n = 9) d-特布他林可显著降低前肢动脉压，但同样对阻断随后的缓动肽输注所产生的淋巴参数的增加无效。这些数据表明特布他林的β 2受体激动和抗渗透性作用仅存在于左旋对映体中。

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Bradykinin-mediated edema formation is blocked by levorotatory but not dextrorotatory terbutaline.

The ability of the purified stereoisomers of the beta 2-receptor agonist terbutaline to block bradykinin-mediated increases in lymph flow and protein concentration was assessed in the canine forelimb perfused at constant arterial flow. Intra-arterial infusion of bradykinin (2 micrograms/min, n = 8) decreased forelimb arterial pressures but did not affect skin small vein pressure or systemic pressure. Lymph flow, protein concentration and protein transport were significantly increased. Intra-arterial infusion of 1-terbutaline (1 microgram/min, n = 9) decreased forelimb arterial pressures and systemic pressure but did not affect lymph parameters. Subsequent infusion of bradykinin during the continued infusion of 1-terbutaline failed to alter forelimb lymph parameters. Intra-arterial infusion of d-terbutaline (1 microgram/min, n = 11) did not alter vascular pressures or lymph parameters. Subsequent infusion of bradykinin during the continued infusion of d-terbutaline decreased forelimb arterial pressures and significantly increased lymph flow, protein concentration and protein transport. Intra-arterial infusion of a high dose (100 micrograms/min, n = 9) of d-terbutaline significantly decreased forelimb arterial pressure but was likewise ineffective in blocking the increases in lymph parameters produced by subsequent bradykinin infusion. These data indicate that the beta 2-receptor agonistic and anti-permeability actions of terbutaline are found solely in the levorotatory enantiomer.

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Microcirculation, endothelium, and lymphatics

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