1] Committee on the Neurobiology of Addictive Disorders, The Scripps Research Institute, La Jolla, CA, USA [2] School of Pharmacy, Pharmacology Unit, University of Camerino, Camerino, Italy.
Committee on the Neurobiology of Addictive Disorders, The Scripps Research Institute, La Jolla, CA, USA.
Neuropsychopharmacology. 2014 Apr;39(5):1081-92. doi: 10.1038/npp.2013.308. Epub 2013 Oct 30.
The central nucleus of the amygdala (CeA) mediates several addiction-related processes and nociceptin/orphanin FQ (nociceptin) regulates ethanol intake and anxiety-like behaviors. Glutamatergic synapses, in the CeA and throughout the brain, are very sensitive to ethanol and contribute to alcohol reinforcement, tolerance, and dependence. Previously, we reported that in the rat CeA, acute and chronic ethanol exposures significantly decrease glutamate transmission by both pre- and postsynaptic actions. In this study, using electrophysiological techniques in an in vitro CeA slice preparation, we investigated the effects of nociceptin on glutamatergic transmission and its interaction with acute ethanol in naive and ethanol-dependent rats. We found that nociceptin (100-1000 nM) diminished basal-evoked compound glutamatergic receptor-mediated excitatory postsynaptic potentials (EPSPs) and spontaneous and miniature EPSCs (s/mEPSCs) by mainly decreasing glutamate release in the CeA of naive rats. Notably, nociceptin blocked the inhibition induced by acute ethanol (44 mM) and ethanol blocked the nociceptin-induced inhibition of evoked EPSPs in CeA neurons of naive rats. In neurons from chronic ethanol-treated (ethanol-dependent) rats, the nociceptin-induced inhibition of evoked EPSP amplitude was not significantly different from that in naive rats. Application of [Nphe1]Nociceptin(1-13)NH2, a nociceptin receptor (NOP) antagonist, revealed tonic inhibitory activity of NOP on evoked CeA glutamatergic transmission only in ethanol-dependent rats. The antagonist also blocked nociceptin-induced decreases in glutamatergic responses, but did not affect ethanol-induced decreases in evoked EPSP amplitude. Taken together, these studies implicate a potential role for the nociceptin system in regulating glutamatergic transmission and a complex interaction with ethanol at CeA glutamatergic synapses.
杏仁中央核(CeA)介导了几种与成瘾相关的过程,孤啡肽/孤啡肽 FQ(nociceptin)调节乙醇摄入和焦虑样行为。谷氨酸能突触在 CeA 和整个大脑中对乙醇非常敏感,有助于酒精强化、耐受和依赖。之前,我们报道急性和慢性乙醇暴露会通过突触前和突触后作用显著降低大鼠 CeA 中的谷氨酸传递。在这项研究中,我们使用体外 CeA 切片制备中的电生理技术,研究了 nociceptin 对谷氨酸能传递的影响及其与急性乙醇在未处理和乙醇依赖大鼠中的相互作用。我们发现 nociceptin(100-1000 nM)通过主要减少 CeA 中谷氨酸释放,减弱基础诱发的复合谷氨酸能受体介导的兴奋性突触后电位(EPSP)以及自发和微小 EPSC(s/mEPSC)。值得注意的是,nociceptin 阻断了急性乙醇(44 mM)诱导的抑制,而乙醇阻断了 nociceptin 对未处理大鼠 CeA 神经元诱发 EPSP 的抑制。在来自慢性乙醇处理(乙醇依赖)大鼠的神经元中,nociceptin 诱导的诱发 EPSP 幅度抑制与未处理大鼠没有显著差异。应用[Nphe1]Nociceptin(1-13)NH2,一种 nociceptin 受体(NOP)拮抗剂,仅在乙醇依赖大鼠中显示出 NOP 对诱发 CeA 谷氨酸能传递的紧张性抑制活性。该拮抗剂还阻断 nociceptin 诱导的谷氨酸能反应降低,但不影响乙醇诱导的诱发 EPSP 幅度降低。总之,这些研究表明 nociceptin 系统在调节谷氨酸能传递中可能发挥作用,并且与 CeA 谷氨酸能突触中的乙醇存在复杂相互作用。