Avila Irene, Lin Shih-Chieh
Neural Circuits and Cognition Unit, Laboratory of Behavioral Neuroscience, National Institute on Aging, National Institutes of Health Baltimore, MD, USA.
Front Behav Neurosci. 2014 Dec 4;8:421. doi: 10.3389/fnbeh.2014.00421. eCollection 2014.
Basal forebrain (BF) is one of the largest cortically-projecting neuromodulatory systems in the mammalian brain, and plays a key role in attention, arousal, learning and memory. The cortically projecting BF neurons, comprised of mainly magnocellular cholinergic and GABAergic neurons, are widely distributed across several brain regions that spatially overlap with the ventral striatopallidal system at the ventral pallidum (VP). As a first step toward untangling the respective functions of spatially overlapping BF and VP systems, the goal of this study was to comprehensively characterize the behavioral correlates and physiological properties of heterogeneous neuronal populations in the BF region. We found that, while rats performed a reward-biased simple reaction time task, distinct neuronal populations encode either motivational salience or movement information. The motivational salience of attended stimuli is encoded by phasic bursting activity of a large population of slow-firing neurons that have large, broad, and complex action potential waveforms. In contrast, two other separate groups of neurons encode movement-related information, and respectively increase and decrease firing rates while rats maintained fixation. These two groups of neurons mostly have higher firing rates and small, narrow action potential waveforms. These results support the conclusion that multiple neurophysiologically distinct neuronal populations in the BF region operate independently of each other as parallel functional circuits. These observations also caution against interpreting neuronal activity in this region as a homogeneous population reflecting the function of either BF or VP alone. We suggest that salience- and movement-related neuronal populations likely correspond to BF corticopetal neurons and VP neurons, respectively.
基底前脑(BF)是哺乳动物大脑中最大的投射到皮层的神经调节系统之一,在注意力、觉醒、学习和记忆中起关键作用。投射到皮层的BF神经元主要由大细胞胆碱能神经元和GABA能神经元组成,广泛分布于多个脑区,在腹侧苍白球(VP)处与腹侧纹状体苍白球系统在空间上重叠。作为厘清空间上重叠的BF和VP系统各自功能的第一步,本研究的目标是全面表征BF区域中异质性神经元群体的行为相关性和生理特性。我们发现,当大鼠执行偏向奖励的简单反应时任务时,不同的神经元群体分别编码动机显著性或运动信息。被关注刺激的动机显著性由大量放电缓慢的神经元的相位爆发活动编码,这些神经元具有大的、宽阔的和复杂的动作电位波形。相比之下,另外两组不同的神经元编码与运动相关的信息,并且在大鼠保持注视时,其放电率分别增加和降低。这两组神经元大多具有较高的放电率以及小的、狭窄的动作电位波形。这些结果支持了这样的结论,即BF区域中多个在神经生理学上不同的神经元群体作为并行功能回路彼此独立运作。这些观察结果也提醒我们,不要将该区域的神经元活动解释为反映单独的BF或VP功能的同质群体。我们认为,与显著性和运动相关的神经元群体可能分别对应于BF向皮层投射的神经元和VP神经元。
