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2
Relation between catecholamine-induced cyclic AMP changes and hyperpolarization in isolated rat sympathetic ganglia.儿茶酚胺诱导的环磷酸腺苷变化与离体大鼠交感神经节超极化之间的关系。
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3
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4
Catecholamines act as alpha 2-adrenoceptors to cause contraction of circular smooth muscle of guinea-pig stomach.儿茶酚胺作为α2肾上腺素能受体,引起豚鼠胃环形平滑肌收缩。
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Adrenergic receptors in the nucleus accumbens shell differentially modulate dopamine and acetylcholine receptor-mediated turning behaviour.伏隔核壳中的肾上腺素能受体对多巴胺和乙酰胆碱受体介导的转向行为有不同的调节作用。
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6
Site(s) and ionic basis of alpha-autoinhibition and facilitation of "3H'noradrenaline secretion in guinea-pig vas deferens.豚鼠输精管中α-自身抑制及“3H”去甲肾上腺素分泌促进作用的位点及离子基础。
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Homogeneous and non-homogeneous distribution of inhibitory and excitatory adrenoceptors in the longitudinal muscle of the guinea-pig ileum.豚鼠回肠纵肌中抑制性和兴奋性肾上腺素能受体的均匀和非均匀分布。
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Effect of chronic clonidine treatment on transmitter release from sympathetic varicosities of the guinea-pig vas deferens.慢性可乐定治疗对豚鼠输精管交感曲张体递质释放的影响。
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One hundred years of adrenaline: the discovery of autoreceptors.肾上腺素百年:自受体的发现
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Characterization of the adenosine receptors of the rat superior cervical ganglion.大鼠颈上神经节腺苷受体的特性研究
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Studies on the role of Na+, K+ and Cl- ion permeabilities in K+-induced release of 3H-noradrenaline from rat brain slices and synaptosomes and in its presynaptic alpha-adrenergic modulation.关于钠离子、钾离子和氯离子通透性在钾离子诱导大鼠脑片和突触体释放3H-去甲肾上腺素及其突触前α-肾上腺素能调节中的作用的研究。
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10
Site(s) and ionic basis of alpha-autoinhibition and facilitation of "3H'noradrenaline secretion in guinea-pig vas deferens.豚鼠输精管中α-自身抑制及“3H”去甲肾上腺素分泌促进作用的位点及离子基础。
J Physiol. 1981 Mar;312:297-334. doi: 10.1113/jphysiol.1981.sp013630.

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AMIDEPHRINE--I: PHARMACOLOGIC CHARACTERIZATION OF A SYMPATHOMIMETIC ALKYLSULFONAMIDOPHENETHANOLAMINE.酰胺福林-I:一种拟交感神经烷基磺酰胺苯乙醇胺的药理学特性
Int J Neuropharmacol. 1965 Jul;4:219-34. doi: 10.1016/0028-3908(65)90038-9.
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Some quantitative uses of drug antagonists.药物拮抗剂的一些定量应用。
Br J Pharmacol Chemother. 1959 Mar;14(1):48-58. doi: 10.1111/j.1476-5381.1959.tb00928.x.
3
Disposition of norepinephrine-H3 in sympathetic ganglia.去甲肾上腺素-H3在交感神经节中的分布。
J Pharmacol Exp Ther. 1965 Nov;150(2):190-5.
4
The effect of a saturable uptake mechanism on the slopes of dose-response curves for sympathomimetic amines and on the shifts of dose-response curves produced by a competitive antagonist.一种可饱和摄取机制对拟交感胺剂量-反应曲线斜率以及对竞争性拮抗剂所产生的剂量-反应曲线位移的影响。
J Pharmacol Exp Ther. 1969 May;167(1):117-42.
5
Uptake of nicotine and extracellular space markers by isolated rat ganglia in relation to receptor activation.离体大鼠神经节对尼古丁和细胞外空间标志物的摄取与受体激活的关系。
Br J Pharmacol. 1971 May;42(1):100-13. doi: 10.1111/j.1476-5381.1971.tb07090.x.
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Actions of noradrenaline and acetylcholine on sympathetic ganglion cells.去甲肾上腺素和乙酰胆碱对交感神经节细胞的作用。
J Physiol. 1970 Jun;208(2):353-72. doi: 10.1113/jphysiol.1970.sp009125.
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The metabolism of (3H)noradrenaline released by electrical stimulation from the isolated nictitating membrane of the cat and from the vas deferens of the rat.通过电刺激从猫的离体瞬膜和大鼠的输精管释放的(3H)去甲肾上腺素的代谢。
J Physiol. 1970 Jul;208(3):515-46. doi: 10.1113/jphysiol.1970.sp009135.
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Evidence for a dopamine inhibitory post-synaptic potential in the brain of Helix aspersa.关于花园蜗牛大脑中多巴胺抑制性突触后电位的证据。
Comp Gen Pharmacol. 1971 Mar;2(5):15-26. doi: 10.1016/0010-4035(71)90063-2.
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Concomitant changes in formaldehyde-induced fluorescence of dopamine interneurones and in slow inhibitory post-synaptic potentials of the rabbit superior cervical ganglion, induced by stimulation of the preganglionic nerve or by a muscarinic agent.由节前神经刺激或毒蕈碱剂诱导的兔颈上神经节多巴胺中间神经元甲醛诱导荧光和慢抑制性突触后电位的伴随变化。
J Physiol. 1974 Mar;237(3):635-62. doi: 10.1113/jphysiol.1974.sp010502.
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Pharmacological and kinetic properties of uptake of ( 3 H)-norepinephrine by superior cervical ganglia of rats in organ culture.
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使大鼠交感神经节中的“α₂”肾上腺素能受体超极化

Hyperpolarizing 'alpha 2'-adrenoceptors in rat sympathetic ganglia.

作者信息

Brown D A, Caulfield M P

出版信息

Br J Pharmacol. 1979 Mar;65(3):435-45. doi: 10.1111/j.1476-5381.1979.tb07848.x.

DOI:10.1111/j.1476-5381.1979.tb07848.x
PMID:218668
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1668647/
Abstract

1 Receptors mediating catecholamine-induced hyperpolarization of isolated superior cervical sympathetic ganglia of the rat have been characterized by means of an extracellular recording method.2 (-)-Noradrenaline (EC(50), 1.7 +/- 0.6 muM) produced an immediate low-amplitude (< 400 muV) hyperpolarization. The hyperpolarization was increased on removal of external Ca(2+) or on reduction of external K(+) from 6 to 2 mM. Hyperpolarization was unaffected by changing the temperature from 25 degrees to 37 degrees C.3 Hyperpolarization was also produced by the following agonists (potencies relative to (-)-noradrenaline): (-)-noradrenaline 1; (+/-)-isoprenaline 0.41; (-)-phenylephrine 0.40; (+)-noradrenaline 0.13; 2-amino-6,7-dihydroxy tetrahydronaphthalene (ADTN) 0.25; dopamine 0.1; methoxamine 0.012; amidephrine 0.0015.4 Responses were antagonized by phentolamine (1 muM) but not by (+/-)-propranolol (1 muM), haloperidol (10 muM) or alpha-flupenthixol (1 muM). This suggested that hyperpolarization was mediated solely through alpha-receptor stimulation not through stimulation of beta-receptors or dopamine-receptors.5 Dose-ratio shifts produced by phentolamine varied with different agonists. The shift increased in inverse proportion to the ability of the agonists to inhibit [(3)H]-(-)-noradrenaline uptake, suggesting that uptake of agonists limited the dose-ratio shift. Cocaine and nortriptyline reduced catecholamine-induced hyperpolarization in concentrations (10 muM and 1 muM respectively) necessary to inhibit [(3)H]-(-)-noradrenaline uptake.6 Clonidine (0.01 to 1 muM), oxymetazoline (0.01 to 1 muM) and ergometrine (0.1 to 10 muM) produced a persistent, low-amplitude hyperpolarization, as though they were partial agonists. Responses to the agonists were blocked by yohimbine (1 muM) but not be prazosin (1 muM).7 It is concluded that the adrenergic cell bodies in the ganglion were hyperpolarized through activation of the same type of alpha-receptor (;alpha(2)-receptors') as those present at adrenergic nerve terminals.

摘要

  1. 已通过细胞外记录方法对介导儿茶酚胺诱导大鼠离体颈上神经节超极化的受体进行了特性鉴定。

  2. (-)-去甲肾上腺素(EC50,1.7±0.6 μM)产生即时低幅度(<400 μV)超极化。去除细胞外Ca2+或将细胞外K+从6 mM降至2 mM时,超极化增强。将温度从25℃改变至37℃时,超极化不受影响。

  3. 以下激动剂也可产生超极化(相对于(-)-去甲肾上腺素的效能):(-)-去甲肾上腺素1;(±)-异丙肾上腺素0.41;(-)-去氧肾上腺素0.40;(+)-去甲肾上腺素0.13;2-氨基-6,7-二羟基四氢萘(ADTN)0.25;多巴胺0.1;甲氧明0.012;酰胺福林0.0015。

  4. 酚妥拉明(1 μM)可拮抗反应,但(±)-普萘洛尔(1 μM)、氟哌啶醇(10 μM)或α-氟奋乃静(1 μM)则不能。这表明超极化仅通过α受体刺激介导,而非通过β受体或多巴胺受体刺激介导。

  5. 酚妥拉明产生的剂量比变化因不同激动剂而异。该变化与激动剂抑制[3H]-(-)-去甲肾上腺素摄取的能力成反比,表明激动剂的摄取限制了剂量比变化。可卡因和去甲替林分别在抑制[3H]-(-)-去甲肾上腺素摄取所需的浓度(10 μM和1 μM)下降低儿茶酚胺诱导的超极化。

  6. 可乐定(0.01至1 μM)、奥昔美唑啉(0.01至1 μM)和麦角新碱(0.1至10 μM)产生持续的低幅度超极化,似乎它们是部分激动剂。对激动剂的反应被育亨宾(1 μM)阻断,但未被哌唑嗪(1 μM)阻断。

  7. 得出的结论是,神经节中的肾上腺素能细胞体通过与肾上腺素能神经末梢存在的相同类型的α受体(“α2受体”)激活而超极化。