Pirch J H, Turco K, Rucker H K
Department of Pharmacology, Texas Tech University Health Sciences Center, Lubbock 79430.
Brain Res. 1992 Jul 17;586(1):19-26. doi: 10.1016/0006-8993(92)91366-m.
In an associative conditioning paradigm, an auditory stimulus (CS+) was paired with rewarding medial forebrain bundle stimulation or a tone of different frequency (CS-) was presented without pairing. After training, slow potential (SP) and single neuron responses were recorded from rat frontal cortex. When cortical SP responses indicated the development of discrimination between CS+ and CS- tones, single neurons could be isolated that exhibited a discriminative response to CS+. Seventy-three percent of the 56 neurons which discriminated between CS+ and CS- were excited by the paired tone while the remainder were inhibited. Iontophoretically applied acetylcholine increased spontaneous firing rate in 90% of the excited cells and 87% of the inhibited cells. Iontophoretic administration of a muscarinic receptor antagonist, either atropine or tropicamide, during trial presentation attenuated the conditioning-related response to CS+ as well as the response to acetylcholine in the majority of neurons. The largest group of discriminating neurons were excited by both CS+ and acetylcholine, and both responses were suppressed by the antagonists. The results provide evidence that conditioning-related responses of a major population of frontal cortex neurons are modulated by cholinergic input, a portion of which may originate in the basal forebrain area. There also may be a significant non-cholinergic influence on these neuronal responses.
在一种联合条件反射范式中,将听觉刺激(条件刺激+)与中脑前脑束的奖励性刺激配对,或者呈现不同频率的音调(条件刺激-)但不进行配对。训练后,记录大鼠额叶皮质的慢电位(SP)和单个神经元反应。当皮质SP反应表明对条件刺激+和条件刺激-音调的辨别能力发展时,可以分离出对条件刺激+表现出辨别反应的单个神经元。在56个能够区分条件刺激+和条件刺激-的神经元中,73%被配对音调兴奋,其余则被抑制。离子电泳施加乙酰胆碱可使90%的兴奋细胞和87%的抑制细胞的自发放电率增加。在试验呈现期间,离子电泳给予毒蕈碱受体拮抗剂阿托品或托吡卡胺,可减弱大多数神经元对条件刺激+的条件反射相关反应以及对乙酰胆碱的反应。最大的一组辨别神经元被条件刺激+和乙酰胆碱同时兴奋,并且这两种反应均被拮抗剂抑制。结果提供了证据,表明额叶皮质神经元的主要群体的条件反射相关反应受胆碱能输入调节,其中一部分可能起源于基底前脑区域。对这些神经元反应也可能存在显著的非胆碱能影响。
