Jen Philip H-S, Chen Qi Cai, Wu Fei Jian
Division of Biological Sciences, University of Missouri-Columbia, Columbia, MO 65211, USA.
Hear Res. 2002 Dec;174(1-2):281-9. doi: 10.1016/s0378-5955(02)00702-5.
Neurons in the auditory cortex (AC) receive convergent excitatory and inhibitory inputs from the lower auditory nuclei. Interaction between these two opposing inputs shapes different response properties of AC neurons. In this study, we examined how this interaction might affect the frequency tuning curves (FTCs), number of impulses and latency of AC neurons in the big brown bat, Eptesicus fuscus, using a probe (excitatory tone) and a masker (inhibitory tone) under different stimulation conditions. Excitatory FTCs of AC neurons were either V-shaped, closed (i.e. upper threshold) or double-peaked. Inhibitory FTCs were obtained either at both flanks or only at the low or high flank of excitatory FTCs. Application of bicuculline, an antagonist for gamma-aminobutyric acid A receptors, produced expansion of excitatory FTCs into predrug inhibitory FTCs. Inhibition of probe-elicited responses occurred when a masker was presented at certain intertone intervals. Maximal inhibition typically took place when a masker was presented within 4 ms prior to the probe. During maximal inhibition, a neuron had the minimal number of impulses and the longest response latency. Inhibition became stronger with increasing masker intensity but became weaker with increasing intertone interval. Biological significance of these data is discussed.
听觉皮层(AC)中的神经元从低位听觉核接收汇聚的兴奋性和抑制性输入。这两种相反输入之间的相互作用塑造了AC神经元不同的反应特性。在本研究中,我们使用一个探测音(兴奋性音调)和一个掩蔽音(抑制性音调)在不同刺激条件下,研究了这种相互作用如何影响大棕蝠(棕蝠)AC神经元的频率调谐曲线(FTCs)、冲动数量和潜伏期。AC神经元的兴奋性FTCs呈V形、封闭型(即上限阈值)或双峰型。抑制性FTCs要么在兴奋性FTCs的两侧获得,要么仅在其低侧翼或高侧翼获得。应用γ-氨基丁酸A受体拮抗剂荷包牡丹碱可使兴奋性FTCs扩展为给药前的抑制性FTCs。当在特定的音间间隔呈现掩蔽音时,会发生对探测音诱发反应的抑制。最大抑制通常发生在掩蔽音在探测音之前4毫秒内呈现时。在最大抑制期间,神经元的冲动数量最少,反应潜伏期最长。抑制作用随着掩蔽音强度的增加而增强,但随着音间间隔的增加而减弱。我们讨论了这些数据的生物学意义。
