环境温度对大鼠下丘脑及其他脑区去甲肾上腺素周转的影响。
Effect of environmental temperature on the turnover of noradrenaline in hypothalamus and other areas of rat brain.
作者信息
Simmonds M A
出版信息
J Physiol. 1969 Jul;203(1):199-210. doi: 10.1113/jphysiol.1969.sp008859.
Abstract
- The hypothesis that noradrenaline (NA) may be a transmitter in the temperature regulating centre in the hypothalamus is based on the changes in rectal temperature induced by injection of large doses of NA into the brain. As an alternative approach, the effect of environmental temperature on the rate of turnover of endogenous NA in the hypothalamus has been studied.2. Small amounts of tritium labelled noradrenaline [(3)H]NA were injected into the c.s.f. of rats in order to label radioactively the endogenous NA in the brain. The rats were then exposed to environmental temperatures of 9, 17, 24 and 32 degrees C. The rates of disappearance of [(3)H]NA from discrete areas of brain were taken as indices of the rates of turnover of endogenous NA in those areas.3. The rate of disappearance of [(3)H]NA from the hypothalamus was three times as fast at 9 and 32 degrees C as at 17 or 24 degrees C. There were no such significant differences from the pre-optic area or ;rest of brain' (whole brain minus hypothalamus, pre-optic area, cerebellum and medulla).4. The endogenous concentrations of NA were not altered by the experimental procedures in any of the areas of brain studied.5. The rats maintained normal rectal temperatures at environmental temperatures of 9, 17 and 24 degrees C but became 2.8 degrees C hyperthermic at 32 degrees C.6. It is concluded that mild conditions of both heat and cold resulted in an increased turnover of NA in specific nerve terminals in the hypothalamus. Since the rats were thermoregulating normally, the nerve terminals involved are regarded as forming a part of the central temperature regulating centre.
摘要
去甲肾上腺素(NA)可能是下丘脑体温调节中枢神经递质的这一假说,是基于向脑内注射大剂量NA所引起的直肠温度变化。作为另一种研究方法,人们研究了环境温度对下丘脑内源性NA周转速率的影响。
将少量氚标记的去甲肾上腺素[(3)H]NA注入大鼠的脑脊液中,以便对脑内的内源性NA进行放射性标记。然后将大鼠置于9、17、24和32摄氏度的环境温度下。[(3)H]NA从脑内不同区域消失的速率被用作这些区域内源性NA周转速率的指标。
[(3)H]NA从下丘脑消失的速率在9摄氏度和32摄氏度时是17摄氏度或24摄氏度时的三倍。在视前区或“脑的其余部分”(全脑减去下丘脑、视前区、小脑和延髓)没有这种显著差异。
在所研究的任何脑区,实验过程均未改变NA的内源性浓度。
大鼠在9、17和24摄氏度的环境温度下能维持正常的直肠温度,但在32摄氏度时体温会升高2.8摄氏度。
得出的结论是,轻度的热和冷条件都会导致下丘脑特定神经末梢中NA的周转增加。由于大鼠体温调节正常,所涉及的神经末梢被认为是中枢体温调节中枢的一部分。
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