The Netherlands Institute for Brain Research, Amsterdam.
Neurosci Bull. 2012 Feb;28(1):25-38. doi: 10.1007/s12264-012-1062-8.
A comprehensive review is presented of reported aspects and putative mechanisms of sleep-like motility rhythms throughout the animal kingdom. It is proposed that 'rapid eye movement (REM) sleep' be regarded as a special case of a distinct but much broader category of behavior, 'rapid body movement (RBM) sleep', defined by intrinsically-generated and apparently non-purposive movements. Such a classification completes a 2 × 2 matrix defined by the axes sleep versus waking and active versus quiet. Although 'paradoxical' arousal of forebrain electrical activity is restricted to warm-blooded vertebrates, we urge that juvenile or even infantile stages of development be investigated in cold-blooded animals, in view of the many reports of REM-like spontaneous motility (RBMs) in a wide range of species during sleep. The neurophysiological bases for motorically active sleep at the brainstem level and for slow-wave sleep in the forebrain appear to be remarkably similar, and to be subserved in both cases by a primitive diffuse mode of neuronal organization. Thus, the spontaneous synchronous burst discharges which are characteristics of the sleeping brain can be readily simulated even by highly unstructured neural network models. Neuromotor discharges during active sleep appear to reflect a hierarchy of simple relaxation oscillation mechanisms, spanning a wide range of spike-dependent relaxation times, whereas the periodic alternation of active and quiet sleep states more likely results from the entrainment of intrinsic cellular rhythms and/or from activity-dependent homeostatic changes in network excitability.
本文全面回顾了动物王国中报告的睡眠样运动节律的各个方面和假设机制。本文提出将“快速眼动(REM)睡眠”视为一种特殊情况,即一种更为广泛的行为类别“快速身体运动(RBM)睡眠”的特殊情况,其定义为内在产生的、显然无目的的运动。这种分类完成了由睡眠与清醒以及活动与安静两个轴定义的 2×2 矩阵。尽管大脑前脑电活动的“矛盾”觉醒仅限于温血脊椎动物,但我们敦促在冷血动物中研究其幼年甚至婴儿期阶段,因为在许多物种的睡眠中都有广泛报道的 REM 样自发性运动(RBM)。脑干水平运动性睡眠和前脑慢波睡眠的神经生理学基础似乎非常相似,并且在这两种情况下都由原始的弥散神经元组织模式来支持。因此,即使是高度非结构化的神经网络模型,也可以很容易地模拟出具有特征的睡眠脑的同步突发放电。活跃睡眠期间的神经运动放电似乎反映了简单松弛振荡机制的层次结构,跨越了广泛的依赖于尖峰的松弛时间范围,而活跃和安静睡眠状态的周期性交替更可能是由于内在细胞节律的同步和/或网络兴奋性的活动依赖性稳态变化的结果。