神经元间一氧化氮信号传导介导纹状体谷氨酸能突触的突触后长时程抑制。

Interneuronal Nitric Oxide Signaling Mediates Post-synaptic Long-Term Depression of Striatal Glutamatergic Synapses.

作者信息

Rafalovich Igor V, Melendez Alexandria E, Plotkin Joshua L, Tanimura Asami, Zhai Shenyu, Surmeier D James

机构信息

Department of Physiology, Feinberg School of Medicine, Northwestern University, Chicago, IL 60611, USA.

Department of Neurobiology and Behavior, SUNY at Stony Brook, Stony Brook, NY 11794, USA.

出版信息

Cell Rep. 2015 Nov 17;13(7):1336-1342. doi: 10.1016/j.celrep.2015.10.015. Epub 2015 Nov 5.

DOI:10.1016/j.celrep.2015.10.015

PMID:26549446

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4864038/

Abstract

Experience-driven plasticity of glutamatergic synapses on striatal spiny projection neurons (SPNs) is thought to be essential to goal-directed behavior and habit formation. One major form of striatal plasticity, long-term depression (LTD), has long appeared to be expressed only pre-synaptically. Contrary to this view, nitric oxide (NO) generated by striatal interneurons was found to induce a post-synaptically expressed form of LTD at SPN glutamatergic synapses. This form of LTD was dependent on signaling through guanylyl cyclase and protein kinase G, both of which are abundantly expressed by SPNs. NO-LTD was unaffected by local synaptic activity or antagonism of endocannabinoid (eCb) and dopamine receptors, all of which modulate canonical, pre-synaptic LTD. Moreover, NO signaling disrupted induction of this canonical LTD by inhibiting dendritic Ca(2+) channels regulating eCb synthesis. These results establish an interneuron-dependent, heterosynaptic form of post-synaptic LTD that could act to promote stability of the striatal network during learning.

摘要

纹状体棘状投射神经元（SPN）上谷氨酸能突触的经验驱动可塑性被认为对目标导向行为和习惯形成至关重要。长期以来，纹状体可塑性的一种主要形式——长时程抑制（LTD），似乎仅在突触前表达。与这种观点相反，人们发现纹状体中间神经元产生的一氧化氮（NO）可在SPN谷氨酸能突触处诱导一种突触后表达形式的LTD。这种形式的LTD依赖于通过鸟苷酸环化酶和蛋白激酶G的信号传导，而这两种物质在SPN中均大量表达。NO-LTD不受局部突触活动或内源性大麻素（eCb）和多巴胺受体拮抗剂的影响，而这些物质均可调节典型的突触前LTD。此外，NO信号通过抑制调节eCb合成的树突状Ca(2+)通道来破坏这种典型LTD的诱导。这些结果确立了一种中间神经元依赖性、异突触形式的突触后LTD，它可能在学习过程中促进纹状体网络的稳定性。

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