Synaptic Phospholipid Signaling Modulates Axon Outgrowth via Glutamate-dependent Ca2+-mediated Molecular Pathways

J. Vogt, S. Kirischuk, P. Unichenko, Leslie Schlüter, Assunta Pelosi, Heiko Endle, Jenq-Wei Yang, Nikolai Schmarowski, Jin Cheng, Carine Thalman, U. Strauss, A. Prokudin, Suman B. Bharati, J. Aoki, J. Chun, B. Lutz, H. Luhmann, R. Nitsch
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引用次数: 11

Abstract

Abstract Altered synaptic bioactive lipid signaling has been recently shown to augment neuronal excitation in the hippocampus of adult animals by activation of presynaptic LPA2‐receptors leading to increased presynaptic glutamate release. Here, we show that this results in higher postsynaptic Ca2+ levels and in premature onset of spontaneous neuronal activity in the developing entorhinal cortex. Interestingly, increased synchronized neuronal activity led to reduced axon growth velocity of entorhinal neurons which project via the perforant path to the hippocampus. This was due to Ca2+‐dependent molecular signaling to the axon affecting stabilization of the actin cytoskeleton. The spontaneous activity affected the entire entorhinal cortical network and thus led to reduced overall axon fiber numbers in the mature perforant path that is known to be important for specific memory functions. Our data show that precise regulation of early cortical activity by bioactive lipids is of critical importance for proper circuit formation.
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突触磷脂信号通过谷氨酸依赖的Ca2+介导的分子途径调节轴突的生长
最近研究表明,突触生物活性脂质信号的改变可以通过激活突触前LPA2受体导致突触前谷氨酸释放增加,从而增强成年动物海马中的神经元兴奋。在这里,我们表明这导致更高的突触后Ca2+水平和在发育中的内嗅皮层自发神经元活动的过早发作。有趣的是,同步神经元活动的增加导致内嗅神经元轴突生长速度的降低,这些神经元通过穿孔路径投射到海马体。这是由于Ca2+依赖分子信号轴突影响肌动蛋白细胞骨架的稳定性。自发性活动影响了整个内嗅皮层网络,从而导致成熟穿透通路中轴突纤维数量的减少,这对于特定的记忆功能是重要的。我们的数据表明,生物活性脂质对早期皮层活动的精确调节对正确的神经回路形成至关重要。
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