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由4种颠茄生物碱引起的学习缺陷被他克林优先减轻。

Learning deficits induced by 4 belladonna alkaloids are preferentially attenuated by tacrine.

作者信息

Pan S Y, Han Y F

机构信息

Department of Pharmacology, Beijing University of Traditional Chinese Medicine, Beijing 100029, China.

出版信息

Acta Pharmacol Sin. 2000 Feb;21(2):124-30.

PMID:11263258
Abstract

AIM

To examine the antagonism of tacrine on the amnesic effects of scopolamine (Sco), anisodine (AT3), atropine (Atr), and anisodamine (Ani).

METHODS

Cognitive functions and locomotor activities were determined using two sessions of step-through and open-field tests, respectively. Mice were injected with one of the belladonna alkaloids (0.05-50 mumol.kg-1, i.p.) and tacrine (50 mumol.kg-1, s.c.) 30 min before the first session.

RESULTS

Tacrine completely blocked the avoidance-learning deficit caused by Sco 0.5 mumol.kg-1, AT3 and Atr 5 mumol.kg-1, or Ani 50 mumol.kg-1. But tacrine partly antagonized the learning deficit induced by Sco 5-50 mumol.kg-1 or Atr and AT3 50 mumol.kg-1. The avoidance-memory deficit caused by Sco 0.05-5 mumol.kg-1 or Atr 5 mumol.kg-1 was completely or partly attenuated by tacrine, which did not antagonize the memory deficit elicited by Sco and Atr 50 mumol.kg-1, AT3 5 and 50 mumol.kg-1, and Ani 50 mumol.kg-1. During the acquisition, the locomotor activity of the mice was inhibited by tacrine. This reduction was completely antagonized by Sco 0.5-50 mumol.kg-1, AT3 5-50 mumol.kg-1, Atr 5-50 mumol.kg-1, and only partly antagonized by AT3 and Atr 0.5 mumol.kg-1 or Ani 50 mumol.kg-1.

CONCLUSION

Compared with the avoidance-memory deficit, the avoidance-learning deficit caused by belladonna alkaloids is more preferentially attenuated by tacrine.

摘要

目的

研究他克林对东莨菪碱(Sco)、樟柳碱(AT3)、阿托品(Atr)和山莨菪碱(Ani)所致记忆缺失的拮抗作用。

方法

分别采用两阶段穿梭试验和旷场试验测定认知功能和运动活性。在第一阶段试验前30分钟,给小鼠腹腔注射一种颠茄生物碱(0.05 - 50 μmol·kg-1)和皮下注射他克林(50 μmol·kg-1)。

结果

他克林完全阻断了由0.5 μmol·kg-1的Sco、5 μmol·kg-1的AT3和Atr或50 μmol·kg-1的Ani所引起的回避学习缺陷。但他克林部分拮抗了由5 - 50 μmol·kg-1的Sco或50 μmol·kg-1的Atr和AT3所诱导的学习缺陷。由0.05 - 5 μmol·kg-1的Sco或5 μmol·kg-1的Atr所引起的回避记忆缺陷被他克林完全或部分减弱,而他克林不能拮抗由50 μmol·kg-1的Sco和Atr、5和50 μmol·kg-1的AT3以及50 μmol·kg-1的Ani所引起的记忆缺陷。在习得过程中,他克林抑制了小鼠的运动活性。这种降低被0.5 - 50 μmol·kg-1的Sco、5 - 50 μmol·kg-1的AT3、5 - 50 μmol·kg-1的Atr完全拮抗,而仅被0.5 μmol·kg-1的AT3和Atr或50 μmol·kg-1的Ani部分拮抗。

结论

与回避记忆缺陷相比,他克林更优先减弱颠茄生物碱所引起的回避学习缺陷。

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