The role of cortical and hypothalamic histamine‐3 receptors in the modulation of central histamine neurotransmission: an <i>in vivo</i> electrophysiology and microdialysis study

Flik, Gunnar; Dremencov, Eliyahu; Cremers, Thomas; Folgering, Joost H.A.; Westerink, Ben H.C.

doi:10.1111/j.1460-9568.2011.07893.x

Cited by 25 publications

(24 citation statements)

References 39 publications

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“…Histamine acts through four receptors (H1-H4) and actively regulates arousal, feeding, learning and memory processes [56,57]. H1 and H2 receptors are expressed throughout the central nervous system, H3 receptors are limited to the brain, and H4 receptors are primarily located in the immune system, with limited action on the brain [58,59]. Specifically, H3 receptors are found in high concentrations throughout the cortex, hippocampus and striatum [54], the latter of which has been strongly associated with TS pathophysiology.…”

Section: Dopaminergic and Histaminergic Pathways In Tourette Syndromementioning

confidence: 99%

Histaminergic modulation in Tourette syndrome

Cox

Seri

Cavanna

2016

Expert Opinion on Orphan Drugs

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Section: Dopaminergic and Histaminergic Pathways In Tourette Syndromementioning

confidence: 99%

Histaminergic modulation in Tourette syndrome

Cox

Seri

Cavanna

2016

Expert Opinion on Orphan Drugs

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“…5 Blockade of human H 3 autoreceptor by thioperamide evokes the increase of the neuronal histamine release. 15 In peripheral tissues, H 3 receptors are expressed in neuro-endocrine organs and regulate their functions. For example, the activation of H 3 receptors inhibited the release of adrenocorticotropic hormone and prolactin from the pituitary gland and of histamine from enterochromaffin-like cells and histamine also release from cerebral neurones in rat cortex.…”

Section: -13mentioning

confidence: 99%

Untitled

2015

IJPSR

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ABSTRACT:The histamine H3 receptor is an G protein-coupled receptor that regulates neurotransmission in the central nervous system and plays a major role in cognitive and homeostatic functions. The third histamine receptor was discovered in 1983 by a traditional pharmacological approach, consisting of assessing the inhibitory effect of histamine on its own release from depolarized rat brain slices. Histamine H3 receptors are found mostly in central nervous system also to some extent in peripheral tissues and involved in the regulation of release of various neurotransmitters in brain. They have been implicated in diverse potential therapeutic applications such as sleep wake disorders, attentiondeficient hyperactivity disorder, epilepsy, cognitive impairment and obesity. This review is aimed to provide an overview of marketed preparations and also experimental H3 receptor antagonists under pipeline of drug discovery and development.

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“…Extracellular single-unit in vivo electrophysiological recordings were performed, as previously described (Dremencov et al 2007a(Dremencov et al , 2007b(Dremencov et al , 2009(Dremencov et al , 2017Flik et al 2011). Surgical anesthesia was maintained using propofol (20%) continuously administered intravenously (i.v., via a catheter placed in the lateral tail vein) at a rate 20 µl/min (for 300 g rat) by a microperfusion pump (CMA 102, Stockholm, Sweden).…”

Section: Electrophysiologymentioning

confidence: 99%

“…Microdialysis experiments were performed as previously described (Dremencov et al 2004a(Dremencov et al , 2005Westerink and Cremers 2007;Allers et al 2010;Cremers et al 2010;Bloms-Funke et al 2011;Flik et al 2011Flik et al , 2015Yamada et al 2013;Visser et al 2015). I-shaped probes (Hospal AN 69 membrane, Brainlink, Groningen, the Netherlands) were inserted in the PFC (5.0 mm dorsal from the brain surface, 4 mm exposed surface probe) or NAcc (7.9 mm dorsal from the brain surface, 1.5 mm exposed surface probe); experiments were carried out 24-48 hours after surgery.…”

Section: Microdialysismentioning

confidence: 99%

“…The flow was mixed (postcolumn) with a makeup flow of 0.15 ml/minute of the mobile phase (acetonitrile with 0.1% formic acid in ultrapure water with 0.1% formic acid), and directed to mass spectrometer (API 4000, Applied Biosystems, Foster City, CA, USA). Mass spectra were determined in multi-reaction mode (MRM) for 3-7 minutes (Dremencov et al 2004a(Dremencov et al , 2005Westerink and Cremers 2007;Allers et al 2010;Cremers et al 2010;Bloms-Funke et al 2011;Flik et al 2011Flik et al , 2015Yamada et al 2013;Visser et al 2015).…”

Section: Analysis Of Monoamines Levels In Dialysatesmentioning

confidence: 99%

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Purinergic regulation of brain catecholamine neurotransmission: In vivo electrophysiology and microdialysis study in rats

Dremencov¹,

Lacinová²,

Flik³

et al. 2017

gpb

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Abstract. It was previously reported that adenosine-2A (A 2A ) receptors interact with dopamine-2 (D 2 ) receptors on a molecular level. The aim of the current study was to investigate the functional output of this interaction. In vivo microdialysis was used to assess the effects of an antagonist of A 2A receptors, ZM 241385, and an antagonist of D 2 receptors haloperidol, either alone or in combination, on brain catecholamine levels. It was found that ZM 241385 did not alter catecholamine levels by its own, but potentiated haloperidol-induced dopamine and norepinephrine release in the nucleus accumbens and prefrontal cortex, respectively. In vivo electrophysiology was used to assess the effect of an agonist (CGS 216820) and an antagonist (ZM 241385) of A 2A receptors on the excitability of dopamine and norepinephrine neurons. It was found that CGS 216820 dose-dependently inhibited dopamine and norepinephrine neurons and ZM 241385 reversed this inhibition. In conclusion, those A 2A receptors modulate brain catecholamine transmission, and this modulation is mediated, at least in part, via the regulation of excitability of norepinephrine and dopamine neurons. The ability of antagonists of A 2A receptors to potentiate the effect of haloperidol on brain norepinephrine and dopamine levels may enhance its clinical efficacy as an antipsychotic drug.

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The role of cortical and hypothalamic histamine‐3 receptors in the modulation of central histamine neurotransmission: an in vivo electrophysiology and microdialysis study

Cited by 25 publications

References 39 publications

Histaminergic modulation in Tourette syndrome

Histaminergic modulation in Tourette syndrome

Untitled

Purinergic regulation of brain catecholamine neurotransmission: In vivo electrophysiology and microdialysis study in rats

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