H 3 receptor-mediated inhibition of intestinal acetylcholine release: pharmacological characterization of signal transduction pathways

Blandizzi, Corrado; Colucci, Rocchina; Tognetti, Martina; Paolis, Barbara De; Tacca, M. Del

doi:10.1007/s002100000351

Cited by 16 publications

(8 citation statements)

References 39 publications

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“…Millimolar concentrations of histamine can be reached in inflammatory districts4546 and probably in the gastrointestinal tract after ingestion of histamine rich-foods or foods triggering histamine release from the body. Although interactions between histamine and Ach have been already described both at peripheral and central levels474849, findings of the present study may offer a novel point of view for the comprehension of the complex relationship between histaminergic and cholinergic systems. Noteworthy, while histamine metabolism leads to the loss of its biological activity, it does not alter the catalytic potential of its imidazole ring, at least until the complete removal from the internal milieu or the cell cytoplasm.…”

Section: Discussionmentioning

confidence: 77%

Cholinesterase-like organocatalysis by imidazole and imidazole-bearing molecules

Nieri

Carpi

Fogli

et al. 2017

Sci Rep

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Organocatalysis, which is mostly explored for its new potential industrial applications, also represents a chemical event involved in endogenous processes. In the present study, we provide the first evidence that imidazole and imidazole derivatives have cholinesterase-like properties since they can accelerate the hydrolysis of acetylthiocholine and propionylthiocholine in a concentration-dependent manner. The natural imidazole-containing molecules as L-histidine and histamine show a catalytic activity, comparable to that of imidazole itself, whereas synthetic molecules, as cimetidine and clonidine, were less active. In the experimental conditions used, the reaction progress curves were sigmoidal and the rational of such unexpected behavior as well as the mechanism of catalysis is discussed. Although indirectly, findings of the present study suggests that imidazolic compounds may interfere with the homeostasis of the cholinergic system in vivo.

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Section: Discussionmentioning

confidence: 77%

Cholinesterase-like organocatalysis by imidazole and imidazole-bearing molecules

Nieri

Carpi

Fogli

et al. 2017

Sci Rep

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“…The same group reported the synthesis of selective ligands for H 3 R, including the agonist (R)-α-methylhistamine and the antagonist thioperamide [44] . Using selective H 3 R agonists and antagonists it was shown that signal transduction by the H 3 R is mediated by pertussis toxin-sensitive G i /G o proteins leading to a decrease in intracellular cAMP concentrations [45,46] and to a decrease in extracellular Ca 2+ influx in neurons [47] .…”

Section: Histamine In the Brainmentioning

confidence: 99%

Histamine Receptors and Antihistamines: From Discovery to Clinical Applications

Cataldi¹,

Borriello

Granata

et al. 2014

Chemical Immunology and Allergy

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The synthesis and the identification of histamine marked a milestone in both pharmacological and immunological research. Since Sir Henry Dale and Patrick Laidlaw described some of its physiological effects in vivo in 1910, histamine has been shown to play a key role in the control of gastric acid secretion and in allergic disorders. Using selective agonists and antagonists, as well as molecular biology tools, four histamine receptors (H1R, H2R, H3R and H4R) have been identified. The Nobel Prize in Physiology and Medicine was awarded to Daniel Bovet in 1957 for the discovery of antihistamines (anti-H1R) and to Sir James Black in 1988 for the identification of anti-H2R antagonists. Anti-H1R and anti-H2R histamine receptor antagonists have revolutionized the treatment of certain allergic disorders and gastric acid-related conditions, respectively. More recently, anti-H3R antagonists have entered early-phase clinical trials for possible application in obesity and a variety of neurologic disorders. The preferential expression of H4R by several immune cells and its involvement in the development of allergic inflammation provide the rationale for the use of anti-H4R antagonists in allergic and in other immune-related disorders.

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“…Schlicker et al (1994) indicated that H 3 receptormediated inhibition of noradrenaline release was dependent of Ca 2ϩ influx. Also, Blandizzi et al (2001) suggested that H 3 receptor-inhibition of intestinal acetylcholine release could be mediated by modulation of N-type calcium channels. A direct coupling of G protein ␤␥ complexes to Ca 2ϩ channels might produce these effects of H 3 receptors on voltage-dependent calcium channels (Diverse-Pierluissi et al, 1997 and 2000).…”

Section: Discussionmentioning

confidence: 99%

Presynaptic H₃Autoreceptors Modulate Histamine Synthesis through cAMP Pathway

2002

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Histamine H 3 receptors modulate histamine synthesis, although little is known about the transduction mechanisms involved. To investigate this issue, we have used a preparation of rat brain cortical miniprisms in which histamine synthesis can be modulated by depolarization and by H 3 receptor ligands. When the miniprisms were incubated in presence of forskolin, dibutyryl-cAMP, or 3-isobutyl-1-methylxanthine (IBMX), histamine synthesis was stimulated in 34, 29, and 47%, respectively. These stimulations could be prevented by the selective cAMP protein kinase blocker Rp-adenosine 3Ј,5Ј-cyclic monophosphothioate triethylamine (Rp-cAMPs). Preincubation with the H 3 receptor agonist imetit prevented IBMX-(100% blockade) and forskolin-(70% blockade) induced stimulation of histamine synthesis. The H 3 inverse agonist thioperamide enhanced histamine synthesis in the presence of 1 mM IBMX or 30 mM potassium (ϩ47 and ϩ45%, respectively). Similarly, the H 3 antagonist clobenpropit enhanced histamine synthesis in the presence of 30 mM potassium (ϩ 59%). The cAMP-dependent protein kinase blockers Rp-cAMPs and PKI14 -22 could impair the effects of thioperamide and clobenpropit, respectively. These results indicate that the adenylate cyclase-protein kinase A pathway is involved in the modulation of histamine synthesis by H 3 autoreceptors present in histaminergic nerve terminals.

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H 3 receptor-mediated inhibition of intestinal acetylcholine release: pharmacological characterization of signal transduction pathways

Cited by 16 publications

References 39 publications

Cholinesterase-like organocatalysis by imidazole and imidazole-bearing molecules

Cholinesterase-like organocatalysis by imidazole and imidazole-bearing molecules

Histamine Receptors and Antihistamines: From Discovery to Clinical Applications

Presynaptic H₃Autoreceptors Modulate Histamine Synthesis through cAMP Pathway

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H 3 receptor-mediated inhibition of intestinal acetylcholine release: pharmacological characterization of signal transduction pathways

Cited by 16 publications

References 39 publications

Cholinesterase-like organocatalysis by imidazole and imidazole-bearing molecules

Cholinesterase-like organocatalysis by imidazole and imidazole-bearing molecules

Histamine Receptors and Antihistamines: From Discovery to Clinical Applications

Presynaptic H3Autoreceptors Modulate Histamine Synthesis through cAMP Pathway

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Product

Resources

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Presynaptic H₃Autoreceptors Modulate Histamine Synthesis through cAMP Pathway