LeSauter J, Silver R
Department of Psychology, Barnard College, New York, NY, USA.
Chronobiol Int. 1998 Sep;15(5):535-50. doi: 10.3109/07420529808998706.
The suprachiasmatic nucleus (SCN) of the hypothalamus controls circadian rhythmicity in mammals (for reviews, see Refs. 33 and 59). Responses modulated by the SCN are numerous and include rhythms in sleep/wake cycles, locomotor, gnawing and general activity, temperature, ingestive behavior, and rhythms of hormonal and peptide secretions. Though a great deal is known about the neuroanatomical organization of the SCN, many elements of the structure-function relationships remain to be discovered. For example, it is not known which cellular components of the SCN function as driving pacemakers or which output signal(s) of these pacemakers are important for each of its functions. While some signals from pacemaker cells reach target regions by neural efferents, there is also evidence that rhythmic responses can be controlled by diffusible signals. This article reviews output signals from the SCN. The data available suggest that neural efferents are not necessary for the control of locomotor activity rhythms. Evidence that a diffusible signal is sufficient to restore activity rhythms in SCN-lesioned animals is described. Finally, possible physiological mechanisms for diffusible signals are suggested.
下丘脑的视交叉上核(SCN)控制着哺乳动物的昼夜节律(综述见参考文献33和59)。由SCN调节的反应众多,包括睡眠/觉醒周期、运动、啃咬和一般活动、体温、摄食行为以及激素和肽分泌的节律。尽管人们对SCN的神经解剖组织了解很多,但结构-功能关系的许多要素仍有待发现。例如,尚不清楚SCN的哪些细胞成分充当驱动起搏器,也不清楚这些起搏器的哪些输出信号对其各项功能至关重要。虽然来自起搏器细胞的一些信号通过神经传出纤维到达靶区域,但也有证据表明节律性反应可由可扩散信号控制。本文综述了来自SCN的输出信号。现有数据表明,神经传出纤维对于运动活动节律的控制并非必需。文中描述了有证据表明一种可扩散信号足以恢复SCN损伤动物的活动节律。最后,提出了可扩散信号可能的生理机制。
