Department of Biochemistry and Biophysics, University of North Carolina School of Medicine, Chapel Hill, North Carolina, 27599, United States.
Department of Cell Biology and Physiology, University of North Carolina School of Medicine, Chapel Hill, North Carolina, 27599, United States.
Sci Rep. 2018 Apr 18;8(1):6143. doi: 10.1038/s41598-018-24272-8.
Perineuronal nets (PNNs) are implicated in closure of critical periods of synaptic plasticity in the brain, but the molecular mechanisms by which PNNs regulate synapse development are obscure. A receptor complex of NCAM and EphA3 mediates postnatal remodeling of inhibitory perisomatic synapses of GABAergic interneurons onto pyramidal cells in the mouse frontal cortex necessary for excitatory/inhibitory balance. Here it is shown that enzymatic removal of PNN glycosaminoglycan chains decreased the density of GABAergic perisomatic synapses in mouse organotypic cortical slice cultures. Neurocan, a key component of PNNs, was expressed in postnatal frontal cortex in apposition to perisomatic synapses of parvalbumin-positive interneurons. Polysialylated NCAM (PSA-NCAM), which is required for ephrin-dependent synapse remodeling, bound less efficiently to neurocan than mature, non-PSA-NCAM. Neurocan bound the non-polysialylated form of NCAM at the EphA3 binding site within the immunoglobulin-2 domain. Neurocan inhibited NCAM/EphA3 association, membrane clustering of NCAM/EphA3 in cortical interneuron axons, EphA3 kinase activation, and ephrin-A5-induced growth cone collapse. These studies delineate a novel mechanism wherein neurocan inhibits NCAM/EphA3 signaling and axonal repulsion, which may terminate postnatal remodeling of interneuron axons to stabilize perisomatic synapses in vivo.
周围神经毡(PNNs)被认为参与了大脑中突触可塑性关键期的关闭,但 PNNs 调节突触发育的分子机制尚不清楚。NCAM 和 EphA3 的受体复合物介导了 GABA 能中间神经元抑制性胞体周围突触在后脑皮层中的重塑,这对于兴奋性/抑制性平衡是必要的。本文显示,PNN 糖胺聚糖链的酶促去除降低了小鼠器官型皮质切片培养物中 GABA 能胞体周围突触的密度。神经毡中的关键成分神经聚糖与表达在新生前脑皮层的、与 GABA 阳性中间神经元的胞体周围突触毗邻的位置上。对于 Eph 依赖性突触重塑所必需的多聚唾液酸化 NCAM(PSA-NCAM)与成熟的非 PSA-NCAM 相比,与神经聚糖的结合效率较低。神经聚糖在免疫球蛋白-2 结构域内 EphA3 结合位点结合非多聚唾液酸化的 NCAM。神经聚糖抑制 NCAM/EphA3 结合、NCAM/EphA3 在皮质中间神经元轴突中的膜聚集、EphA3 激酶的激活以及 EphA5 诱导的生长锥塌陷。这些研究描绘了一个新的机制,其中神经聚糖抑制 NCAM/EphA3 信号和轴突排斥,这可能会终止中间神经元轴突的出生后重塑,以稳定体内胞体周围突触。
