Sven Werthwein scite author profile

A fourth type of opioid receptor, termed ORL1, has been cloned and nociceptin (also known as orphanin FQ) has been identified as an endogenous ligand at this receptor. We examined whether nociceptin affects the release of noradrenaline in the brain. For this purpose, cerebral cortex slices from the mouse, rat or guinea-pig were preincubated with [3H]noradrenaline and then superfused with medium containing desipramine and rauwolscine. Tritium overflow was evoked electrically (0.3 Hz) or by introduction of Ca2+ 1.3 mM into Ca2+-free K+-rich (15 mM) medium. Nociceptin 1 microM reduced the electrically evoked tritium overflow from mouse, rat and guinea-pig brain cortex slices by 80, 71 and 36%, respectively. Naloxone 10 microM did not change the effect of nociceptin. All subsequent experiments were performed on mouse brain cortex slices and in the presence of naloxone 10 microM. The concentration-response curve of nociceptin (maximum inhibition by 80%, pEC50 7.5) was shifted to the right by the non-selective ORL1 receptor antagonist naloxone benzoylhydrazone and the selective ORL1 receptor antagonist [Phe1psi(CH2-NH)Gly2]-nociceptin(1-13)NH2 (pA2 6.6 and 7.2, respectively). Naloxone benzoylhydrazone did not affect the evoked overflow by itself whereas [Phe1psi(CH2-NH)Gly2]nociceptin(1-13)NH2 caused an inhibition by maximally 35% (pEC50 7.0; intrinsic activity alpha 0.45). The inhibitory effect of [Phe1psi(CH2-NH)Gly2]-nociceptin(1-13)NH2 was counteracted by naloxone benzoylhydrazone. Nociceptin also reduced the Ca2+-evoked tritium overflow in mouse brain cortex slices superfused in the presence of tetrodotoxin. This effect was also antagonized by naloxone benzoylhydrazone, which, by itself, did not affect the evoked tritium overflow. In conclusion, nociceptin inhibits noradrenaline release more markedly in the mouse than in the rat or guinea-pig brain cortex. The effect of nociceptin in the mouse brain cortex involves ORL1 receptors, which are located presynaptically on noradrenergic neurones.

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Further characterization of the ORL₁ receptor‐mediated inhibition of noradrenaline release in the mouse brain in vitro

Werthwein

Bauer

Nakazi

et al. 1999

British J Pharmacology

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In conclusion, nociceptin inhibits noradrenaline release in the mouse cortex via ORL 1 receptors, which interact with presynaptic a 2 -autoreceptors on noradrenergic neurones. The e ect of nociceptin does not desensitize nor does it involve NO, prostanoids or adenosine. Nociceptin also attenuates noradrenaline release from several subcortical regions and serotonin release from cortical slices by a naloxone benzoylhydrazone-sensitive mechanism.

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Ciproxifan and chemically related compounds are highly potent and selective histamine H3-receptor antagonists

Kathmann¹,

Schlicker²,

Marr³

et al. 1998

Naunyn-Schmiedeberg's Arch Pharmacol

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We determined the affinities of five newly synthesized histamine H3-receptor antagonists in an H3-receptor binding assay and their potencies in a functional H3-receptor model. Furthermore, we determined their potencies in a histamine H2- and H1-receptor model. The compounds differ from histamine in that the ethylamine side chain is replaced by an aryl-substituted propyloxy chain and they differ from one another by varying substituents of the aryl rest. Iodoproxyfan, a highly potent and selective antagonist at H3 receptors, is structurally related to these five compounds. The specific binding of [3H]-Nalpha-methylhistamine to rat brain cortex membranes was monophasically displaced by each of the five compounds at pKi values ranging from 8.24 to 9.27. Inhibition by histamine of the electrically evoked tritium overflow from mouse brain cortex slices preincubated with [3H]noradrenaline was antagonized by all compounds and the concentration-response curve was shifted to the right with apparent pA2 values ranging from 7.78 to 9.39. The five compounds under study possess negligible potencies at histamine H2 and H1 receptors studied in the guinea-pig right atrium and ileum, respectively (pD'2 or pKp values < or = 5.2). The present paper shows that the five compounds under study possess high affinities and potencies at histamine H3 receptors, four out of the five compounds in this respect being equipotent with iodoproxyfan. Like iodoproxyfan, the five compounds show an at least 1000-fold selectivity for H3 as compared to H2 and H1 receptors.

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Histamine H₃ receptor‐mediated inhibition of noradrenaline release in the human brain

Schlicker

Werthwein

Zentner

1999

Fundamemntal Clinical Pharma

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H2 receptor-mediated facilitation and H3 receptor-mediated inhibition of noradrenaline release in the guinea-pig brain

Timm

Marr

Werthwein

et al. 1998

Naunyn-Schmiedeberg's Arch Pharmacol

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The effect of histamine and related drugs on the tritium overflow evoked electrically (0.3 Hz) or by introduction of Ca2+ ions into Ca2+-free K+-rich (25 mmol/l) medium containing tetrodotoxin was studied in superfused guinea-pig brain cortex, cerebellum, hippocampus or hypothalamus slices and in mouse brain cortex slices preincubated with 3H-noradrenaline. The electrically evoked tritium overflow in guinea-pig cortex slices was inhibited by histamine; the H3 receptor antagonist clobenpropit reversed the effect of histamine to a slight facilitation. The facilitatory effect of histamine (obtained in the presence of clobenpropit) was not affected by the H1 receptor antagonist mepyramine but abolished by the H2 receptor antagonist ranitidine. In the absence of clobenpropit, ranitidine augmented the inhibitory effect of histamine. In slices superfused in the presence of ranitidine, the evoked overflow was inhibited by histamine and, more potently, by the H3 receptor agonist R-alpha-methylhistamine in a concentration-dependent manner (maximum inhibitory effect obtained for both agonists 30-35%). The concentration-response curve of histamine was shifted to the right by the H3 receptor antagonist thioperamide. R-alpha-methylhistamine inhibited the electrically evoked tritium overflow also in guinea-pig cerebellar, hippocampal and hypothalamic slices. In cortex slices superfused in the presence of clobenpropit, the H2 receptor agonists impromidine and, less potently, R-sopromidine facilitated the evoked overflow in a concentration-dependent manner. S-Sopromidine only tended to increase the evoked overflow. The effect of impromidine was counteracted by the H2 receptor antagonists ranitidine and cimetidine. The extent of the maximum facilitatory effect of impromidine (by 15-20%) was about the same when (i) the Ca2+ concentration in the medium was reduced from 1.3 to 0.98 mmol/l, (ii) the time of exposure to impromidine was reduced from 28 to 8 min or (iii) cerebellar, hippocampal or hypothalamic slices were used instead of cortical slices. The Ca2+-induced tritium overflow in guinea-pig cortex slices was inhibited by histamine (in the presence of ranitidine); this effect was abolished by clobenpropit. In slices superfused in the presence of clobenpropit, impromidine failed to facilitate the Ca2+-evoked tritium overflow. The electrically evoked tritium overflow in mouse brain cortex slices was inhibited by histamine by about 60% (both in the absence or presence of ranitidine). The inhibitory effect of histamine was abolished (but not reversed) by clobenpropit. In conclusion, noradrenaline release in the guinea-pig brain cortex is inhibited via presynaptic H3 receptors and facilitated via H2 receptors not located presynaptically. In the mouse brain cortex, only inhibitory H3 receptors occur. The extent of the H3 receptor-mediated effect is more marked in the mouse than in the guinea-pig brain cortex.

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Sven Werthwein

Nociceptin inhibits noradrenaline release in the mouse brain cortex via presynaptic ORL1 receptors

Further characterization of the ORL₁ receptor‐mediated inhibition of noradrenaline release in the mouse brain in vitro

Ciproxifan and chemically related compounds are highly potent and selective histamine H3-receptor antagonists

Histamine H₃ receptor‐mediated inhibition of noradrenaline release in the human brain

H2 receptor-mediated facilitation and H3 receptor-mediated inhibition of noradrenaline release in the guinea-pig brain

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Sven Werthwein

Nociceptin inhibits noradrenaline release in the mouse brain cortex via presynaptic ORL1 receptors

Further characterization of the ORL1 receptor‐mediated inhibition of noradrenaline release in the mouse brain in vitro

Ciproxifan and chemically related compounds are highly potent and selective histamine H3-receptor antagonists

Histamine H3 receptor‐mediated inhibition of noradrenaline release in the human brain

H2 receptor-mediated facilitation and H3 receptor-mediated inhibition of noradrenaline release in the guinea-pig brain

Contact Info

Product

Resources

About

Further characterization of the ORL₁ receptor‐mediated inhibition of noradrenaline release in the mouse brain in vitro

Histamine H₃ receptor‐mediated inhibition of noradrenaline release in the human brain