Hurley Laura M, Pollak George D
Biology Department, Indiana University, Bloomington, Indiana 47405, USA.
J Neurosci. 2005 Aug 24;25(34):7876-86. doi: 10.1523/JNEUROSCI.1178-05.2005.
Many studies of neuromodulators have focused on changes in the magnitudes of neural responses, but fewer studies have examined neuromodulator effects on response latency. Across sensory systems, response latency is important for encoding not only the temporal structure but also the identity of stimuli. In the auditory system, latency is a fundamental response property that varies with many features of sound, including intensity, frequency, and duration. To determine the extent of neuromodulatory regulation of latency within the inferior colliculus (IC), a midbrain auditory nexus, the effects of iontophoretically applied serotonin on first-spike latencies were characterized in the IC of the Mexican free-tailed bat. Serotonin significantly altered the first-spike latencies in response to tones in 24% of IC neurons, usually increasing, but sometimes decreasing, latency. Serotonin-evoked changes in latency and spike count were not always correlated but sometimes occurred independently within individual neurons. Furthermore, in some neurons, the size of serotonin-evoked latency shifts depended on the frequency or intensity of the stimulus, as reported previously for serotonin-evoked changes in spike count. These results support the general conclusion that changes in latency are an important part of the neuromodulatory repertoire of serotonin within the auditory system and show that serotonin can change latency either in conjunction with broad changes in other aspects of neuronal excitability or in highly specific ways.
许多关于神经调质的研究都集中在神经反应幅度的变化上,但较少有研究考察神经调质对反应潜伏期的影响。在各个感觉系统中,反应潜伏期不仅对于编码刺激的时间结构而且对于编码刺激的特性都很重要。在听觉系统中,潜伏期是一种基本的反应特性,它会随声音的许多特征而变化,包括强度、频率和持续时间。为了确定中脑听觉枢纽下丘(IC)内潜伏期的神经调节程度,研究了离子电渗法施加血清素对墨西哥无尾蝠IC中首次放电潜伏期的影响。血清素在24%的IC神经元中显著改变了对音调的首次放电潜伏期,通常会增加潜伏期,但有时也会缩短潜伏期。血清素引起的潜伏期变化和放电次数变化并不总是相关的,有时在单个神经元内是独立发生的。此外,在一些神经元中,血清素引起的潜伏期变化大小取决于刺激的频率或强度,正如之前报道的血清素引起的放电次数变化一样。这些结果支持了一个普遍的结论,即潜伏期的变化是血清素在听觉系统中神经调节功能的重要组成部分,并且表明血清素可以与神经元兴奋性其他方面的广泛变化一起,或以高度特异性的方式改变潜伏期。