抑制性可塑性决定了兴奋性突触的可塑性的符号。
Inhibitory plasticity dictates the sign of plasticity at excitatory synapses.
机构信息
Department of Neurobiology and Behavior, State University of New York-Stony Brook, Stony Brook, New York 11794.
出版信息
J Neurosci. 2014 Jan 22;34(4):1083-93. doi: 10.1523/JNEUROSCI.4711-13.2014.
Abstract
The broad connectivity of inhibitory interneurons and the capacity of inhibitory synapses to be plastic make them ideal regulators of the level of excitability of many neurons simultaneously. Whether inhibitory synaptic plasticity may also contribute to the selective regulation of single neurons and local microcircuits activity has not been investigated. Here we demonstrate that in rat primary visual cortex inhibitory synaptic plasticity is connection specific and depends on the activation of postsynaptic GABAB-Gi/o protein signaling. Through the activation of this intracellular signaling pathway, inhibitory plasticity can alter the state of a single postsynaptic neuron and directly affect the induction of plasticity at its glutamatergic inputs. This interaction is modulated by sensory experience. Our data demonstrate that in recurrent circuits, excitatory and inhibitory forms of synaptic plasticity are not integrated as independent events, but interact to cooperatively drive the activity-dependent rewiring of local microcircuits.
摘要
抑制性中间神经元的广泛连接以及抑制性突触的可塑性使它们成为同时调节许多神经元兴奋性水平的理想调节剂。然而,抑制性突触可塑性是否也有助于对单个神经元和局部微电路活动的选择性调节,尚未得到研究。本文中,作者证明了在大鼠初级视觉皮层中,抑制性突触可塑性具有连接特异性,并依赖于突触后 GABAB-Gi/o 蛋白信号的激活。通过激活该细胞内信号通路,抑制性可塑性可以改变单个突触后神经元的状态,并直接影响其谷氨酸能输入的可塑性诱导。这种相互作用受感觉经验的调节。作者的数据表明,在递归回路中,兴奋性和抑制性形式的突触可塑性不是作为独立事件整合的,而是相互作用以协同驱动局部微电路的活动依赖性重布线。
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