伤害抑制素通过突触前Gi/o蛋白连接途径抑制小鼠新皮质中5-羟色胺的释放。
Nocistatin inhibits 5-hydroxytryptamine release in the mouse neocortex via presynaptic Gi/o protein linked pathways.
作者信息
Fantin M, Fischetti C, Trapella C, Morari M
机构信息
Department of Experimental and Clinical Medicine, Section of Pharmacology, Istituto Nazionale di Neuroscienze, University of Ferrara, Ferrara, Italy.
出版信息
Br J Pharmacol. 2007 Oct;152(4):549-55. doi: 10.1038/sj.bjp.0707377. Epub 2007 Jul 9.
BACKGROUND AND PURPOSE
Nocistatin (NST) is a neuropeptide generated from cleavage of the nociceptin/orphanin FQ (N/OFQ) precursor. Evidence has been presented that NST acts as a functional antagonist of N/OFQ, although NST receptor and transduction pathways have not yet been identified. We previously showed that N/OFQ inhibited [(3)H]5-hydroxytryptamine ([(3)H]5-HT) release from mouse cortical synaptosomes via activation of NOP receptors. We now investigate whether NST regulates [(3)H]5-HT release in the same preparation.
EXPERIMENTAL APPROACH
Mouse and rat cerebrocortical synaptosomes in superfusion, preloaded with [(3)H]5-HT and stimulated with 1 min pulses of 10 mM KCl, were used.
KEY RESULTS
Bovine NST (b-NST) inhibited the K(+)-induced [(3)H]5-HT release, displaying similar efficacy but lower potency than N/OFQ. b-NST action underwent concentration-dependent and time-dependent desensitization, and was not prevented either by the NOP receptor antagonist [Nphe(1) Arg(14),Lys(15)]N/OFQ(1-13)-NH(2) (UFP-101) or by the non-selective opioid receptor antagonist, naloxone. Contrary to N/OFQ, b-NST reduced [(3)H]5-HT release from synaptosomes obtained from NOP receptor knockout mice. However, both N/OFQ and NST were ineffective in synaptosomes pre-treated with the G(i/o) protein inhibitor, Pertussis toxin. NST-N/OFQ interactions were also investigated. Co-application of maximal concentrations of both peptides did not result in additive effects, whereas pre-application of maximal b-NST concentrations partially attenuated N/OFQ inhibition.
CONCLUSIONS AND IMPLICATIONS
We conclude that b-NST inhibits [(3)H]5-HT release via activation of G(i/o) protein linked pathways, not involving classical opioid receptors and the NOP receptor. The present data strengthen the view that b-NST is, per se, a biologically active peptide endowed with agonist activity.
背景与目的
痛稳素(NST)是一种由痛敏肽/孤啡肽FQ(N/OFQ)前体裂解产生的神经肽。尽管尚未确定NST受体及转导途径,但已有证据表明NST作为N/OFQ的功能性拮抗剂发挥作用。我们之前发现N/OFQ通过激活NOP受体抑制小鼠皮质突触体释放[³H]5-羟色胺([³H]5-HT)。我们现在研究NST是否在同一制剂中调节[³H]5-HT的释放。
实验方法
使用预先加载[³H]5-HT并经10 mM KCl刺激1分钟脉冲的小鼠和大鼠脑皮质突触体进行灌注。
主要结果
牛NST(b-NST)抑制K⁺诱导的[³H]5-HT释放,其效力与N/OFQ相似,但效能低于N/OFQ。b-NST的作用呈现浓度依赖性和时间依赖性脱敏,且不受NOP受体拮抗剂[Nphe¹Arg¹⁴,Lys¹⁵]N/OFQ(1-13)-NH₂(UFP-101)或非选择性阿片受体拮抗剂纳洛酮的抑制。与N/OFQ相反,b-NST可减少从NOP受体基因敲除小鼠获得的突触体释放[³H]5-HT。然而,N/OFQ和NST对用G(i/o)蛋白抑制剂百日咳毒素预处理的突触体均无效。还研究了NST与N/OFQ的相互作用。两种肽的最大浓度共同应用未产生相加效应,而预先应用最大浓度的b-NST可部分减弱N/OFQ的抑制作用。
结论与意义
我们得出结论,b-NST通过激活G(i/o)蛋白连接途径抑制[³H]5-HT释放,不涉及经典阿片受体和NOP受体。目前的数据支持b-NST本身是一种具有激动剂活性的生物活性肽这一观点。
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