兴奋性突触活动和大鼠小脑皮质中的尖峰对依赖活动的脑血流量增加的调节。
Modification of activity-dependent increases of cerebral blood flow by excitatory synaptic activity and spikes in rat cerebellar cortex.
作者信息
Mathiesen C, Caesar K, Akgören N, Lauritzen M
机构信息
Department of Medical Physiology, The Panum Institute, University of Copenhagen and NeuroSearch A/S, Glostrup, Glostrup Hospital, Denmark.
出版信息
J Physiol. 1998 Oct 15;512 ( Pt 2)(Pt 2):555-66. doi: 10.1111/j.1469-7793.1998.555be.x.
Abstract
- Mechanisms of activity-dependent increases in cerebral blood flow (CBF) were examined in rat cerebellar cortex using the laser Doppler flow technique and extracellular recordings of single unit activity and field potentials. 2. Stimulation of the monosynaptic climbing fibre system evoked long-lasting complex spikes in Purkinje cells, and extracellular field potentials with a characteristic profile that indicated contributions from both passive and active membrane mechanisms. The concomitant CBF increases were reproducible at fairly short intervals, and suggest that both synaptic activity and spikes may contribute to increased CBF. 3. Stimulation of the disynaptic parallel fibre system inhibited the spiking activity in Purkinje cells, while the postsynaptic activity increased as indicated by the simultaneously recorded field potential. Nevertheless, CBF always increased. The inhibition of spike firing activity was partly dependent on GABAergic transmission, but may also relate to the intrinsic membrane properties of Purkinje cells. 4. The CBF increases evoked by parallel or climbing fibre stimulation were highly correlated to the sum of neural activities, i.e. the negativity of field potentials multiplied by the stimulus frequency. This suggests a robust link between extracellular current flow and activity-dependent increases in CBF. 5. AMPA receptor blockade attenuated CBF increases and field potential amplitudes, while NMDA receptor antagonism did not. This is consistent with the idea that the CBF responses are of neuronal origin. 6. This study has shown that activity-dependent CBF increases evoked by stimulation of cerebellar parallel fibres are dependent on synaptic excitation, including excitation of inhibitory interneurones, whereas the net activity of Purkinje cells, the principal neurones of the cerebellar cortex, is unimportant for the vascular response. For the climbing fibre system, not only synaptic activity but also the generation of complex spikes from Purkinje cells contribute to the increases in CBF. The strong correlation between CBF and field potential amplitudes suggests that extracellular ion fluxes contribute to the coupling of brain activity to blood flow.
摘要
- 运用激光多普勒血流技术以及对单个单位活动和场电位的细胞外记录,在大鼠小脑皮质中研究了活动依赖性脑血流量(CBF)增加的机制。2. 对单突触攀缘纤维系统的刺激在浦肯野细胞中诱发了持久的复合锋电位,以及具有特征性波形的细胞外场电位,这表明被动和主动膜机制均有贡献。同时出现的CBF增加在相当短的间隔内可重复出现,提示突触活动和锋电位可能都对CBF增加有作用。3. 对双突触平行纤维系统的刺激抑制了浦肯野细胞的锋电位活动,而同时记录的场电位显示突触后活动增加。然而,CBF总是增加。锋电位发放活动的抑制部分依赖于GABA能传递,但也可能与浦肯野细胞的内在膜特性有关。4. 平行或攀缘纤维刺激诱发的CBF增加与神经活动总和高度相关,即场电位的负向变化乘以刺激频率。这表明细胞外电流流动与活动依赖性CBF增加之间存在紧密联系。5. AMPA受体阻断减弱了CBF增加和场电位幅度,而NMDA受体拮抗则没有。这与CBF反应源于神经元的观点一致。6. 本研究表明,刺激小脑平行纤维诱发的活动依赖性CBF增加依赖于突触兴奋,包括对抑制性中间神经元的兴奋,而小脑皮质主要神经元浦肯野细胞的净活动对血管反应并不重要。对于攀缘纤维系统,不仅突触活动,而且浦肯野细胞复合锋电位的产生都对CBF增加有作用。CBF与场电位幅度之间的强相关性表明细胞外离子通量有助于脑活动与血流的耦合。
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