Nociceptin/Orphanin FQ Modulation of Ionic Conductances in Rat Basal Forebrain Neurons

Chin, James; Harris, Kristin; MacTavish, David; Jhamandas, Jack H.

doi:10.1124/jpet.102.037945

Cited by 23 publications

(9 citation statements)

References 41 publications

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“… Bigoni et al ., 2000 ; Ozaki et al ., 2000a ; 2000b ; Ichikawa et al ., 2001 ) or those employing CompB for verifying that actions of N/OFQ are mediated through the NOP receptor (e.g. Chin et al ., 2002 ; Mela et al ., 2004 ). In vivo studies employing CompB are fewer, although an appreciable number have recently accumulated.…”

Section: Discussionmentioning

confidence: 99%

The NOP (ORL1) receptor antagonist Compound B stimulates mesolimbic dopamine release and is rewarding in mice by a non‐NOP‐receptor‐mediated mechanism

Koizumi

Sakoori

Midorikawa

et al. 2004

British J Pharmacology

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1 Compound B (1-[(3R, 4R)-1-cyclooctylmethyl-3-hydroxymethyl-4-piperidyl]-3-ethyl-1,3-dihydro-2H-benzimidazol-2-one, CompB) is a nociceptin/orphanin FQ (N/OFQ) antagonist showing high selectivity for the NOP (ORL1) receptor over classical opioid receptors. We studied the effect of subcutaneous CompB administration on the release of mesolimbic dopamine (DA) and the expression of hedonia in mice. 2 CompB (0.3-30 mg kg À1 ) dose dependently stimulated mesolimbic DA release as measured by in vivo freely moving microdialysis, without any change in locomotor activity. However, intracerebroventricular administered N/OFQ (endogenous agonist of the NOP receptor, 6 nmol) did not influence CompB-(10 mg kg À1 ) induced DA release, despite clearly suppressing release when administered alone. 3 Studies using NOP receptor knockout mice and no-net-flux microdialysis revealed mildly, but not statistically significantly higher endogenous DA levels in mice lacking the NOP receptor compared to wild-type mice. Administration of CompB (10 mg kg À1) induced identical increases in mesolimbic DA release in wild-type and NOP receptor knockout mice. 4 CompB was rewarding in approximately the same dose range in which CompB induced major increases in mesolimbic DA release when assayed using a conditioned place preference paradigm. The rewarding effect of CompB (30 mg kg À1 ) was maintained in NOP receptor knockout mice. 5 These results show that CompB stimulates mesolimbic DA release and is rewarding by an action independent of the NOP receptor, the precise site of which is unclear. Consequently, caution should be exercised when interpreting the results of studies using this drug, particularly when administered by a peripheral route.

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Section: Discussionmentioning

confidence: 99%

The NOP (ORL1) receptor antagonist Compound B stimulates mesolimbic dopamine release and is rewarding in mice by a non‐NOP‐receptor‐mediated mechanism

Koizumi

Sakoori

Midorikawa

et al. 2004

British J Pharmacology

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“…The protocol for preparation of tissue was reviewed and approved by the University of Alberta Health Sciences Laboratory Animal Services (Protocol number 154/04/05). Details of the procedure for acute dissociation of neurons from the DBB have been previously described (Chin et al, 2002). Briefly, brains were quickly removed from decapitated male Sprague Dawley rats (21-25 days postnatal) and placed in cold artificial cerebrospinal fluid (ACSF) that contained (in mM) 140 NaCl, 2.5 KCl, 1.4 CaCl 2 , 5 MgCl 2 , 10 HEPES, and 33 Dglucose (pH 7.4).…”

Section: Dissociation Proceduresmentioning

confidence: 99%

“…Dissociated cells were then plated on poly-L-lysine (0.005% w/ v)-coated cover slips and viewed under an inverted microscope (Zeiss Axiovert 35). Neurons were identified based upon previously established visual criteria (Chin et al, 2002). Basal forebrain neurons could be differentiated from glia based upon the presence of truncated dendrites at the conspicuously larger neurons.…”

Section: Dissociation Proceduresmentioning

confidence: 99%

β-Amyloid enhances intracellular calcium rises mediated by repeated activation of intracellular calcium stores and nicotinic receptors in acutely dissociated rat basal forebrain neurons

et al. 2007

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Beta-amyloid, a 39-43 amino acid peptide, may exert its biological effects via neuronal nicotinic acetylcholine receptors. Using the ratiometric dye, fura-2, we examined the effect of soluble beta-amyloid(1-42) on the concentration of intracellular Ca(2+) ([Ca(2+)](i)) in acutely dissociated rat basal forebrain neurons. Focal applications of nicotine (0.5-20 mM), evoked dose-dependent increases in intracellular [Ca(2+)](i) that were mediated by the entry of extracellular Ca(2+) via nicotinic acetylcholine receptors, and the release of intracellular Ca(2+) from stores. With repeated nicotine challenges, the nicotinic responses were potentiated by 98 +/- 12% (P < 0.05) while beta-amyloid(1-42)(100 nM) was present for approximately 5 min. This potentiation became larger during the subsequent washout of beta-amyloid(1-42), which was associated with a gradual rise in baseline [Ca(2+)](i). Application of beta-amyloid(1-42)by itself did not alter [Ca(2+)](i), and beta-amyloid(1-42)also had no significant effect on the response to repeated KCl challenges. Therefore, beta-amyloid(1-42) caused neither gross disturbance of cellular Ca(2+) homeostasis nor enhancement of voltage-gated Ca(2+) channels. Interestingly, beta-amyloid(1-42) transiently potentiated the response to repeated caffeine challenges, which was also associated with a transient rise in baseline [Ca(2+)](i). beta-amyloid(1-42) potentiation of nicotine-evoked rises in [Ca(2+)](i) was reversed by the SERCA pump inhibitor, thapsigargin, and the mitochondrial Na(+)/Ca(2+) exchanger inhibitor, CGP-37157. These results suggest that the dysregulation of [Ca(2+)](i) by beta-amyloid(1-42) during multiple challenges with nicotine or caffeine involved the sensitization or overfilling of intracellular stores that are maintained by SERCA pump and Ca(2+) efflux from the mitochondria.

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“…In addition, N/OFQ was found to inhibit voltage-gated calcium currents. Although we cannot rule out an effect on other ionic currents known to be modulated by N/OFQ such as BK and delayed rectifier currents (Chin et al 2002;Qu et al 2007), we conclude that the majority of the observed inhibition of MCH neurons results from modulation of GIRK and calcium channel activity.…”

Section: Discussionmentioning

confidence: 93%

GIRK channel-mediated inhibition of melanin-concentrating hormone neurons by nociceptin/orphanin FQ

Parsons

Hirasawa

2011

Journal of Neurophysiology

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Targeting the melanin-concentrating hormone (MCH) system has been suggested as a potential treatment for obesity, anxiety disorders, as well as addiction. Despite the therapeutic potential of MCH agonists and antagonists, the endogenous factors regulating MCH activity, in particular those implicated in anxiety and reward, are ill-defined. The present study investigated the cellular effects of nociceptin/orphanin FQ (N/OFQ), an endogenous opioid with anxiolytic and antireward properties, on MCH neurons. We found that N/OFQ induced a concentration-dependent reversible outward current in MCH neurons (EC(50) = 50.7 nM), an effect that was blocked by the competitive antagonist of the nociceptin opioid peptide (NOP) receptor UFP-101. N/OFQ-induced outward currents persisted in TTX, reversed near the potassium equilibrium potential, and displayed inward rectification, suggesting direct postsynaptic potassium channel activation. Tertiapin-Q completely abolished the N/OFQ effect, whereas glibenclamide did not, implicating protein G-dependent inwardly rectifying potassium (GIRK) and not ATP-sensitive potassium (K(ATP)) channels as the effector ion channel. The N/OFQ-induced outward current desensitized during repeated applications and occluded the inhibitory effect of dynorphin, suggesting that dynorphin and N/OFQ activate the same pathway. N/OFQ also reversibly inhibited voltage-gated calcium currents in MCH neurons. In conclusion, our study indicates N/OFQ as a robust endogenous regulator of MCH neurons, which may play a role in anxiety and drug addiction.

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Nociceptin/Orphanin FQ Modulation of Ionic Conductances in Rat Basal Forebrain Neurons

Cited by 23 publications

References 41 publications

The NOP (ORL1) receptor antagonist Compound B stimulates mesolimbic dopamine release and is rewarding in mice by a non‐NOP‐receptor‐mediated mechanism

The NOP (ORL1) receptor antagonist Compound B stimulates mesolimbic dopamine release and is rewarding in mice by a non‐NOP‐receptor‐mediated mechanism

β-Amyloid enhances intracellular calcium rises mediated by repeated activation of intracellular calcium stores and nicotinic receptors in acutely dissociated rat basal forebrain neurons

GIRK channel-mediated inhibition of melanin-concentrating hormone neurons by nociceptin/orphanin FQ

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