St John S J, Garcea M, Spector A C
Department of Psychology, University of Florida 32611.
Behav Neurosci. 1994 Feb;108(1):131-40. doi: 10.1037//0735-7044.108.1.131.
On the basis of electrophysiological studies, the glossopharyngeal nerve (GL) is far more responsive to quinine than the chorda tympani (CT) or greater superficial petrosal (GSP) nerves. The licking behavior of water-deprived rats to quinine (0.03-3.0 mM) and distilled water (10-s trails) was tested before and after various nerve transections. GL+CT section caused a substantial reduction in responsiveness. GSP+CT section had a moderate effect, and GL section alone produced only marginal impairments. Control, partially desalivated, and CT-sectioned rats were unaffected. Thus, the GL is not necessary for normal unconditioned taste-guided appetitive responsiveness to quinine, but the collective input from the GSP and CT is necessary and most likely sufficient. These data suggest that the quinine-evoked input of the GL and CT converge centrally.
基于电生理研究,舌咽神经(GL)对奎宁的反应比鼓索神经(CT)或岩大浅神经(GSP)更为敏感。在进行各种神经横断手术前后,测试了缺水大鼠对奎宁(0.03 - 3.0 mM)和蒸馏水(10秒试验)的舔舐行为。切断GL + CT导致反应性大幅降低。切断GSP + CT有中度影响,而单独切断GL仅产生轻微损害。对照、部分去唾液腺和切断CT的大鼠未受影响。因此,对于正常的非条件性味觉引导的对奎宁的食欲反应,GL并非必需,但GSP和CT的共同输入是必需的,而且很可能就足够了。这些数据表明,GL和CT的奎宁诱发输入在中枢汇聚。