适度冷却(37℃~ 25℃)对离体大鼠尾动脉反应性的影响。

E A Savino, A Varela
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引用次数: 0

摘要

调查的目的是检查冷却对尾动脉的影响,尽管尾动脉起着重要的体温调节作用,但此类研究很少。将近端部分等距悬浮在含有1.25 mM Ca的培养基中。将温度降低至25℃可增加肾上腺素浓度-效应曲线的灵敏度和最大强度。当温度升高到37摄氏度时,这些变化被逆转。可卡因减弱了灵敏度的增加,但没有改变最大反应的增加。对苯肾上腺素和血清素的反应的敏感性和强度通过冷却而增加。在38个实验中,可乐定在18个实验中引起了微弱的收缩。冷却后,只有7条动脉的反应持续,强度几乎减半。在25℃的电场刺激下,反应表现出强度的显著增加和灵敏度的小幅增加。降温后,prazosin抗肾上腺素的-log Kb增加(37℃和25℃时分别为8.7和9.1,P < 0.01)。在用苯氧苄胺灭活部分受体后,解离常数(KA)表明对苯肾上腺素具有中等亲和力,冷却(分别为4.1和4.2 x 10(-6), 37度和25度)不改变。在25℃下,EC50的受体储备和占用也保持不变。由此可以得出结论:1)降温增加尾动脉的反应性,部分原因是抑制了肾上腺素能神经元的摄取;2)对α - 2激动剂的反应性与冷却的影响无关,而α - 1肾上腺素受体的作用尚不清楚;3)除激动剂-受体相互作用外,冷却可能促进收缩激活的某些步骤。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Influence of moderate cooling (37 degrees C-25 degrees C) on the reactivity of isolated rat tail artery.

The aim of the investigation was to examine the effects of cooling on the tail artery regarding the scarceness of such studies in spite of the essential thermoregulatory role played by this vessel. Segments of the proximal portion were suspended isometrically in medium containing 1.25 mM Ca. Lowering the temperature to 25 degrees C increased the sensitivity and maximum strength of the adrenaline concentration-effect curves. These changes were reversed by warming back to 37 degrees C. Cocaine attenuated the increase of sensitivity without changing the increase of the maximum response. Either the sensitivity and strength of the responses to phenylephrine and serotonin were increased by cooling. Clonidine evoked weak contractions in 18 out of 38 experiments. After cooling, the responses persisted only in 7 arteries and the strength was almost halved. Responses to field electric stimulation at 25 degrees C exhibited a pronounced increase of strength and a small increase of sensitivity. -log Kb for prazosin against adrenaline was increased by cooling (8.7 and 9.1 at 37 degrees C and 25 degrees C, P < 0.01). After partial receptor inactivation using phenoxybenzamine, the dissociation-constant (KA) indicated a moderate affinity for phenylephrine that was not changed by cooling (4.1 and 4.2 x 10(-6) at 37 degrees and 25 degrees C respectively). Receptor reserve and occupancy at EC50 also remained unchanged at 25 degrees C. It can be concluded that: 1) cooling increases the tail artery reactivity, partly as a consequence of the inhibition of adrenergic neuronal uptake; 2) responsiveness to alpha 2-agonists is not involved in the effects of cooling whereas the role of alpha 1-adrenoceptor could not be properly clarified; 3) cooling may facilitate some steps of the contractile activation beyond the agonist-receptor interaction.

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