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首页> 外文期刊>Brain research >mu- and kappa-Opioid receptor activation in the dorsal periaqueductal grey matter differentially modulates panic-like behaviours induced by electrical and chemical stimulation of the inferior colliculus
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mu- and kappa-Opioid receptor activation in the dorsal periaqueductal grey matter differentially modulates panic-like behaviours induced by electrical and chemical stimulation of the inferior colliculus

机译:导水管周围灰质中的mu和kappa阿片受体激活差异地调节下丘的电和化学刺激引起的恐慌样行为

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It has been shown that electrical stimulation of the mesencephalic tectum (MT) provokes defensive responses in both humans and rodents. During an emotional aversive state, some convergent studies have also demonstrated the existence of a complex interaction between endogenous opioid peptide- and gamma-aminobutyric acid (GABA)-containing connections during fear-induced responses. It has been proposed that opioid neurons exert an influence on GABAergic intemeurons, which, in turn, exert inhibitory tonic control on the mesencephalic excitatory pathways. Thus, opioid peptides can disinhibit neurons that are tonically inhibited by GABA, therefore, modulating the expression of defensive behavioural reactions. In the present work, we used both electric stimulation and microinjections of the GABA(A) receptor antagonist bicuculline in the inferior colliculus (IC) of Wistar rats in combination with microinjections of mu- and kappa-opioid receptor selective agonists into the dorsal columns of periaqueductal grey matter (dPAG) to evaluate the effects on panic-like behaviours elicited by IC electrical and chemical stimulation. The present results showed that neurochemical lesions of the dPAG caused a significant impairment in the organisation of defensive responses by IC neurons, reducing the duration [t((14))=3.0; p<0.01] of defensive immobility and the duration [t((14))= 2.8; p <0.05] and frequency [t((14))=2.5; p <0.05] of escape. Paradoxically, treating the dPAG with the R-opioid receptor agonist metenkephalin caused a significant reduction of panic-like behaviours induced by both electrical and chemical stimulation of the IC, increasing the escape behaviour threshold [F-(2,F-23) =13.5; p <0.001] and decreasing the frequency [F-(3,F-36)=11.7; p <0.001] and duration [F-(3,F-36)=11.6; p <0.001] of escape and the duration of defensive immobility [F-(3,F-36)=16.1; p <0.05]. In contrast, treating the dPAG with the kappa-opioid receptor agonist salvinorin-A increased the frequency [F-(3,F-36)=12.4; p <0.01] and duration [F-(3,F-34)=16.1; p <0.01] of defensive immobility induced by GABA(A) receptor blockade in the IC. The present results suggest the existence of a complex neuronal network in the MT in which endogenous opioid peptides and GABAergic pathways interact in the control of fear-related behavioural responses. (C) 2014 Elsevier B.V. All rights reserved.
机译:已经显示,中脑顶盖(MT)的电刺激在人和啮​​齿动物中均引起防御反应。在情绪厌恶状态下,一些收敛研究还表明,在恐惧诱发的反应中,内源性阿片肽和γ-氨基丁酸(GABA)连接之间存在复杂的相互作用。已经提出,阿片样物质神经元对GABA能性中枢神经元有影响,而中枢神经元又对中脑兴奋性通路发挥抑制性强直控制。因此,阿片样物质肽可以抑制被GABA抑制的神经元,从而调节防御行为反应的表达。在目前的工作中,我们将电刺激和Wistar大鼠下丘(IC)的GABA(A)受体拮抗剂bicuculline的显微注射与mu-和kappa类阿片受体选择性激动剂的显微注射联合用于Wistar大鼠的背柱中。导水管周围灰质(dPAG)评估IC电刺激和化学刺激对惊恐样行为的影响。目前的结果表明,dPAG的神经化学损伤在IC神经元的防御反应组织中造成了明显的损伤,从而缩短了持续时间[t((14))= 3.0; p <0.01]防守不动和持续时间[t((14))= 2.8; p <0.05],频率[t((14))= 2.5;逃避的p <0.05。矛盾的是,用R-阿片受体激动剂甲肾上腺素处理dPAG导致IC的电刺激和化学刺激均引起的恐慌样行为的明显减少,从而增加了逃逸行为阈值[F-(2,F-23)= 13.5 ; p <0.001]并降低频率[F-(3,F-36)= 11.7; p <0.001],持续时间[F-(3,F-36)= 11.6; p <0.001]的逃生和防御性不动的持续时间[F-(3,F-36)= 16.1; p <0.05]。相反,用κ阿片受体激动剂salvinorin-A处理dPAG会增加频率[F-(3,F-36)= 12.4; p <0.01]和持续时间[F-(3,F-34)= 16.1; IC中GABA(A)受体阻滞诱导的防御性运动的p <0.01]。目前的结果表明,在MT中存在复杂的神经元网络,其中内源性阿片肽和GABA能通路在恐惧相关行为反应的控制中相互作用。 (C)2014 Elsevier B.V.保留所有权利。

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