体内感觉经验依赖性成熟的新皮层 GABA 能回路的关键机制。
A key mechanism underlying sensory experience-dependent maturation of neocortical GABAergic circuits in vivo.
机构信息
Department of Zoology and Physiology, University of Wyoming, Laramie, WY 82071, USA.
出版信息
Proc Natl Acad Sci U S A. 2011 Jul 19;108(29):12131-6. doi: 10.1073/pnas.1105296108. Epub 2011 Jul 5.
Abstract
Mechanisms underlying experience-dependent refinement of cortical connections, especially GABAergic inhibitory circuits, are unknown. By using a line of mutant mice that lack activity-dependent BDNF expression (bdnf-KIV), we show that experience regulation of cortical GABAergic network is mediated by activity-driven BDNF expression. Levels of endogenous BDNF protein in the barrel cortex are strongly regulated by sensory inputs from whiskers. There is a severe alteration of excitation and inhibition balance in the barrel cortex of bdnf-KIV mice as a result of reduced inhibitory but not excitatory conductance. Within the inhibitory circuits, the mutant barrel cortex exhibits significantly reduced levels of GABA release only from the parvalbumin-expressing fast-spiking (FS) interneurons, but not other interneuron subtypes. Postnatal deprivation of sensory inputs markedly decreased perisomatic inhibition selectively from FS cells in wild-type but not bdnf-KIV mice. These results suggest that postnatal experience, through activity-driven BDNF expression, controls cortical development by regulating FS cell-mediated perisomatic inhibition in vivo.
摘要
皮质连接,尤其是 GABA 能抑制性回路,依赖经验进行精细化的机制尚不清楚。通过使用缺乏活动依赖性 BDNF 表达(bdnf-KIV)的突变小鼠系,我们表明皮质 GABA 能网络的经验调节是由活性驱动的 BDNF 表达介导的。来自胡须的感觉输入强烈调节桶状皮层内源性 BDNF 蛋白的水平。由于抑制性但非兴奋性传导减少,bdnf-KIV 小鼠的桶状皮层中兴奋和抑制平衡严重改变。在抑制性回路中,突变的桶状皮层仅表现出 GABA 释放水平显著降低,仅来自表达 Parvalbumin 的快速放电(FS)中间神经元,而不是其他中间神经元亚型。感觉输入的产后剥夺显著减少了野生型但不是 bdnf-KIV 小鼠中 FS 细胞的体周抑制。这些结果表明,通过活动驱动的 BDNF 表达,产后经验通过调节体内 FS 细胞介导的体周抑制来控制皮质发育。
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