Sakhi Kanwal, Wegner Sven, Belle Mino D C, Howarth Michael, Delagrange Philippe, Brown Timothy M, Piggins Hugh D
Faculty of Life Sciences, University of Manchester, Manchester, UK.
Unité de Recherches et Découvertes en Neurosciences, Institut de Recherches Servier, 78290, Croissy-sur-Seine, France.
J Physiol. 2014 Nov 15;592(22):5025-45. doi: 10.1113/jphysiol.2014.280065. Epub 2014 Sep 5.
The epithalamic lateral habenula (LHb) is implicated as part of the mammalian brain's circadian system. Anatomical evidence suggests that the LHb receives extrinsic circadian timing cues from retinal ganglion cells and the master clock in the suprachiasmatic nuclei (SCN). Intriguingly, some LHb neurones contain the molecular circadian clock, but it is unclear if and how intrinsic and extrinsic circadian processes influence neuronal activity in the mouse LHb. Here, using an in vitro brain slice preparation isolating the LHb from the SCN, we show through whole-cell patch-clamp recordings that LHb neurones exhibit heterogeneity in their resting state, but the majority spontaneously fire action potentials (APs). Discharge rate of APs varied from low firing in the early day to higher firing later in the day and was absent in LHb brain slices prepared from Cry1(-/-)Cry2(-/-) mice that lack a functional molecular clock. Low amplitude circadian oscillations in the molecular circadian clock were also monitored in LHb brain slices, but were absent in Cry1(-/-)Cry2(-/-) LHb brain tissue. A putative neurochemical output signal of the SCN, prokineticin 2 (PK2), inhibited some LHb neurones by elevating the frequency of GABA release in the LHb. Using multi-electrode recordings in vivo, we found that LHb neurones sluggishly respond to retinal illumination, suggesting that they receive such information through polysynaptic processes. In summary, our results show for the first time that intrinsic circadian signals are important for regulating LHb neuronal state, while the SCN-derived signal PK2 is less influential. Moreover, we demonstrate that mouse LHb neurones have access to and can respond to visual input, but such signals are unlikely to be directly communicated to the LHb. Broadly, these findings raise the possibility that intrinsic circadian signals are likely to be influential in shaping LHb contributions to cognition and emotionality.
丘脑上外侧缰核(LHb)被认为是哺乳动物大脑昼夜节律系统的一部分。解剖学证据表明,LHb接收来自视网膜神经节细胞和视交叉上核(SCN)中主时钟的外在昼夜节律定时线索。有趣的是,一些LHb神经元含有分子生物钟,但目前尚不清楚内在和外在昼夜节律过程是否以及如何影响小鼠LHb中的神经元活动。在这里,我们使用一种将LHb与SCN分离的体外脑片制备方法,通过全细胞膜片钳记录表明,LHb神经元在静息状态下表现出异质性,但大多数会自发产生动作电位(AP)。AP的发放频率从白天早些时候的低发放到白天晚些时候的高发放不等,并且在缺乏功能性分子时钟的Cry1(-/-)Cry2(-/-)小鼠制备的LHb脑片中不存在。在LHb脑片中也监测到了分子生物钟的低幅度昼夜节律振荡,但在Cry1(-/-)Cry2(-/-)LHb脑组织中不存在。SCN的一种假定神经化学输出信号促动力蛋白2(PK2)通过提高LHb中GABA释放的频率来抑制一些LHb神经元。使用体内多电极记录,我们发现LHb神经元对视网膜光照反应迟缓,这表明它们通过多突触过程接收此类信息。总之,我们的结果首次表明,内在昼夜节律信号对于调节LHb神经元状态很重要,而SCN衍生的信号PK2影响较小。此外,我们证明小鼠LHb神经元能够接收并对视觉输入做出反应,但此类信号不太可能直接传递到LHb。广泛地说,这些发现增加了内在昼夜节律信号可能在塑造LHb对认知和情绪的贡献方面具有影响力的可能性。