轴突起始段GABA抑制青春期周围发育过程中动作电位的产生

Anna M Lipkin, K. Bender
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引用次数: 2

摘要

神经元是一种显著的极化结构:树突扩散并分支接收突触输入,而单个轴突延伸并向下游目标传递动作电位(ap)。神经元极性由轴突初始段(AIS)维持,这是一个位于体细胞和轴突之间的区域,也是动作电位(AP)产生的部位。树突和轴突之间的这种极化延伸到抑制性神经传递。在成年期,神经递质GABA使树突过度极化,而不是使轴突去极化。这些功能上的差异在AIS系统上发生了冲突。多项研究表明,该区域的gaba能信号可以共享成熟轴突或成熟树突的特性,并且这些特性在包括青春期周围发育的漫长时期内进化。在这里,我们探讨了gaba能信号的发育变化如何影响AP的启动。我们发现轴突起始段的GABA通过观察青春期前后小鼠的GABA逆转电位,抑制了前额皮质层(L)2/3锥体神经元的动作电位起始。这些作用主要是通过GABAA受体产生的电流分流和电压门控通道特性的变化发生的,这些特性影响了可以为AP电生成募集的通道数量。这些结果表明,针对轴突初始段的GABA能神经元在正常青少年发育中观察到的GABA极性范围内提供了抑制性“否决”,而不管GABA能突触逆转电位如何。GABA受体是大脑中主要的一类神经递质受体。通常,GABA受体通过允许带负电荷的氯离子流入细胞来抑制神经元。然而,也有局部氯离子浓度通过GABA受体促进氯离子外排的情况。这些条件存在于发育早期的新皮质锥体细胞轴突初始段(AISs),在那里动作电位(APs)启动。在这里,我们研究了发育早期氯化物外排如何与支持动作电位启动的机制相互作用。我们发现这种外排,尽管移动膜电位更接近动作电位阈值,但仍然是抑制性的。因此,轴突起始段的GABA可能对动作电位起始具有抑制作用,而与氯离子是通过这些受体流出还是流入神经元无关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Axon Initial Segment GABA Inhibits Action Potential Generation throughout Periadolescent Development
Neurons are remarkably polarized structures: dendrites spread and branch to receive synaptic inputs while a single axon extends and transmits action potentials (APs) to downstream targets. Neuronal polarity is maintained by the axon initial segment (AIS), a region between the soma and axon proper that is also the site of action potential (AP) generation. This polarization between dendrites and axons extends to inhibitory neurotransmission. In adulthood, the neurotransmitter GABA hyperpolarizes dendrites but instead depolarizes axons. These differences in function collide at the AIS. Multiple studies have shown that GABAergic signaling in this region can share properties of either the mature axon or mature dendrite, and that these properties evolve over a protracted period encompassing periadolescent development. Here, we explored how developmental changes in GABAergic signaling affect AP initiation. We show that GABA at the axon initial segment inhibits action potential initiation in layer (L)2/3 pyramidal neurons in prefrontal cortex from mice of either sex across GABA reversal potentials observed in periadolescence. These actions occur largely through current shunts generated by GABAA receptors and changes in voltage-gated channel properties that affected the number of channels that could be recruited for AP electrogenesis. These results suggest that GABAergic neurons targeting the axon initial segment provide an inhibitory “veto” across the range of GABA polarity observed in normal adolescent development, regardless of GABAergic synapse reversal potential. Significance Statement GABA receptors are a major class of neurotransmitter receptors in the brain. Typically, GABA receptors inhibit neurons by allowing influx of negatively charged chloride ions into the cell. However, there are cases where local chloride concentrations promote chloride efflux through GABA receptors. Such conditions exist early in development in neocortical pyramidal cell axon initial segments (AISs), where action potentials (APs) initiate. Here, we examined how chloride efflux in early development interacts with mechanisms that support action potential initiation. We find that this efflux, despite moving membrane potential closer to action potential threshold, is nevertheless inhibitory. Thus, GABA at the axon initial segment is likely to be inhibitory for action potential initiation independent of whether chloride flows out or into neurons via these receptors.
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