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ABSTRACT: Genistein and 5-hydroxyindole (5-HI) potentiate the α7 nicotinic acetylcholine receptor current by primarily increasing peak amplitude, a property of type I α7 positive allosteric modulation. In this study, the effects of these two compounds were investigated at two different α7/5-HT(3) chimeras (chimera 1, comprising of extracellular α7 N-terminus fused to the remainder of 5-HT(3A), and chimera 2 containing an additional α7 encoded M2-M3 loop), and wild-type α7 and 5-HT(3A) receptors. Agonist-evoked responses, examined by expression of the chimeras in Xenopus laevis oocytes or HEK-293 cells, revealed that currents decayed slower and compounds {rank order: N-[(3R)-1-azabicyclo[2.2.2]oct-3-yl]-4-chlorobenzamide hydrochloride (PNU-282987)~2-(1,4-diazabicyclo[3.2.2]nonan-4-yl)-5-phenyl-1,3,4-oxadiazole (NS6784)>acetylcholine>choline} were more potent in chimera 2 than chimera 1 or α7 receptors. In chimera 2, genistein and 5-HI potentiated agonist-evoked responses (EC(50): 4-5 μM for genistein and 300-500 μM for 5-HI) and at higher concentrations evoked current directly consistent with ago-allosteric modulation. At chimera 1 and 5-HT(3A) receptors, neither compound directly evoked any current and 5-HI, only at chimera 1, was able to potentiate agonist-evoked responses. Genistein and 5-HI did not inhibit the binding of the α7 agonist [(3)H](1S,4S)-2,2-dimethyl-5-(6-phenylpyridazin-3-yl)-5-aza-2-azoniabicyclo[2.2.1] heptane ([(3)H]A-585539) to rat brain or chimera 2. In summary, this study supports the role of the M2-M3 loop being critical for the positive allosteric effect of genistein, but not 5-HI, and in agonist-evoked response fine-tuning. The identification of distinct α7 receptor modulatory sites offers unique opportunities for developing CNS therapeutics and understanding its pharmacology.
European journal of pharmacology 11/2010; 647(1-3):37-47. · 2.59 Impact Factor
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ABSTRACT: Alpha3-containing (alpha 3*) and alpha 7 nicotinic acetylcholine receptors (nAChRs) are expressed in human IMR-32 neuroblastoma cells and implicated in Ca(2+) signaling. In this study, we investigated the intracellular Ca(2+) transient generation evoked by selective activation of alpha 3* (agonist potency rank order: epibatidine>varenicline>nicotine approximately cytisine) and alpha 7 (rank order in the presence of alpha 7 positive allosteric modulator or PAM: A-795723>NS6784 approximately PNU-282987) using, respectively, varenicline and NS6784 (+alpha 7 PAM) by Ca(2+) imaging. Effects of inhibitors of nAChRs (MLA and mecamylamine), ER Ca(2+) ATPase pump (CPA and thapsigargin), Ca(2+)-induced Ca(2+) release (ryanodine and dantrolene), Ca(2+) channels (nitrendipine, diltiazem, and Cd(2+)), and removal of extracellular Ca(2+) were examined. alpha 7 PAMs, when tested in the presence of NS6784, were more active when added first, followed by the agonist, than in the reverse order. Removal of extracellular Ca(2+) - but not CPA, thapsigargin, ryanodine, dantrolene, nitrendipine, diltiazem, or Cd(2+) - diminished the alpha 7 agonist-evoked Ca(2+) transients. In contrast, only diltiazem and nitrendipine and removal of extracellular Ca(2+) inhibited the alpha 3*-mediated Ca(2+) transients. The differential effect of diltiazem and nitrendipine versus Cd(2+) was due to direct inhibition of alpha 3* nAChRs as revealed by Ca(2+) imaging in HEK-293 cells expressing human alpha 3 beta 4 nAChRs and patch clamp in IMR-32 cells. In summary, this study provides evidence that alpha 3* and alpha 7 nAChR agonist-evoked global Ca(2+) transient generation in IMR-32 cells does not primarily involve voltage-dependent Ca(2+) channels, intracellular Ca(2+) stores, or Ca(2+)-induced Ca(2+) release. These mechanisms may, however, be still involved in other forms of nAChR-mediated Ca(2+) signaling.
Neurochemistry International 10/2010; 57(3):269-77. · 2.86 Impact Factor
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Clark A Briggs, Jens Halvard Grønlien,
Peter Curzon,
Daniel B Timmermann,
Hilde Ween,
Kirsten Thorin-Hagene,
Paige Kerr,
David J Anderson,
John Malysz,
Tino Dyhring,
Gunnar M Olsen,
Dan Peters,
William H Bunnelle,
Murali Gopalakrishnan
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ABSTRACT: Several agonists of the alpha7 nicotinic acetylcholine receptor (nAChR) have been developed for treatment of cognitive deficits. However, agonist efficacy in vivo is difficult to reconcile with rapid alpha7 nAChR desensitization in vitro; and furthermore, the correlation between in vitro receptor efficacy and in vivo behavioural efficacy is not well delineated. The possibility that agonists of this receptor actually function in vivo as inhibitors via desensitization has not been finally resolved.
Two structurally related alpha7 nAChR agonists were characterized and used to assess the degree of efficacy required in a behavioural paradigm.
NS6784 activated human and rat alpha7 nAChR with EC(50)s of 0.72 and 0.88 microM, and apparent efficacies of 77 and 97% respectively. NS6740, in contrast, displayed little efficacy at alpha7 nAChR (<2% in oocytes, < or =8% in GH4C1 cells), although its agonist-like properties were revealed by adding a positive allosteric modulator of alpha7 nAChRs or using the slowly desensitizing alpha7V274T receptor. In mouse inhibitory avoidance (IA) memory retention, NS6784 enhanced performance as did the 60% partial agonist A-582941. In contrast, NS6740 did not enhance performance, but blocked effects of A-582941.
Collectively, these findings suggest that a degree of alpha7 nAChR agonist efficacy is required for behavioural effects in the IA paradigm, and that such behavioural efficacy is not due to alpha7 nAChR desensitization. Also, a partial agonist of very low efficacy for this receptor could be used as an inhibitor, in the absence of alpha7 nAChR antagonists with favourable CNS penetration.
British Journal of Pharmacology 11/2009; 158(6):1486-94. · 4.41 Impact Factor
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ABSTRACT: alpha4beta2 neuronal nicotinic receptors (nAChRs) can exist in high and low sensitivity states possibly due to distinct stoichiometries during subunit assembly: (alpha4)(2)(beta2)(3) pentamer (high sensitivity, HS) and (alpha4)(3)(beta2)(2) pentamer (low sensitivity, LS). To determine if there is a linkage between HS or LS states and receptor-mediated responses in brain, we profiled several clinically studied alpha4beta2* nAChR agonists for the displacement of radioligand binding to alpha4beta2 [(3)H]-cytisine sites in rat brain membranes, effects on stimulation of [(3)H]-dopamine release from slices of rat prefrontal cortex and striatum, and activation of HS and LS human alpha4beta2 nAChRs expressed in Xenopus laevis oocytes. Binding affinities (pK(i)) and potency (pEC(50)) values for [(3)H]-dopamine release closely correlated with a rank order: varenicline>(-)-nicotine>AZD3480>dianicline congruent with ABT-089. Further, a good correlation was observed between [(3)H]-dopamine release and HS alpha4beta2 pEC(50) values, but not between [(3)H]-dopamine release and LS alpha4beta2. The relative efficacies of the agonists ranged from full to partial agonists. Varenicline behaved as a partial agonist in stimulating [(3)H]-dopamine release and activating both HS and LS alpha4beta2 nAChRs expressed in oocytes. Conversely, ABT-089, AZD3480 and dianicline exhibited little efficacy at LS alpha4beta2 (<5%), were more effective at HS alpha4beta2 nAChRs, and in stimulating cortical and striatal [(3)H]-dopamine release >or=30%. In the presence of alpha-conotoxin MII to block alpha6beta2* nAChRs, the alpha4beta2* alpha-conotoxin-insensitive [(3)H]-dopamine release stimulated by these ligands correlates well with their interactions at HS, but not LS. In summary, this study provides support for HS alpha4beta2* nAChR involvement in neurotransmitter release.
Biochemical pharmacology 06/2009; 78(7):844-51. · 4.25 Impact Factor
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Daniel B Timmermann, Jens Halvard Grønlien,
Kathy L Kohlhaas,
Elsebet Ø Nielsen,
Eva Dam,
Tino D Jørgensen,
Philip K Ahring,
Dan Peters,
Dorte Holst,
Jeppe K Christensen,
Jeppe K Chrsitensen,
John Malysz,
Clark A Briggs,
Murali Gopalakrishnan,
Gunnar M Olsen
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ABSTRACT: Augmentation of nicotinic alpha7 receptor function is considered to be a potential therapeutic strategy aimed at ameliorating cognitive and mnemonic dysfunction in relation to debilitating pathological conditions, such as Alzheimer's disease and schizophrenia. In the present report, a novel positive allosteric modulator of the alpha7 nicotinic acetylcholine receptor (nAChR), 1-(5-chloro-2-hydroxy-phenyl)-3-(2-chloro-5-trifluoromethyl-phenyl)-urea (NS1738), is described. NS1738 was unable to displace or affect radioligand binding to the agonist binding site of nicotinic receptors, and it was devoid of effect when applied alone in electrophysiological paradigms. However, when applied in the presence of acetylcholine (ACh), NS1738 produced a marked increase in the current flowing through alpha7 nAChRs, as determined in both oocyte electrophysiology and patch-clamp recordings from mammalian cells. NS1738 acted by increasing the peak amplitude of ACh-evoked currents at all concentrations; thus, it increased the maximal efficacy of ACh. Oocyte experiments indicated an increase in ACh potency as well. NS1738 had only marginal effects on the desensitization kinetics of alpha7 nAChRs, as determined from patch-clamp studies of both transfected cells and cultured hippocampal neurons. NS1738 was modestly brain-penetrant, and it was demonstrated to counteract a (-)-scopolamine-induced deficit in acquisition of a water-maze learning task in rats. Moreover, NS1738 improved performance in the rat social recognition test to the same extent as (-)-nicotine, demonstrating that NS1738 is capable of producing cognitive enhancement in vivo. These data support the notion that alpha7 nAChR allosteric modulation may constitute a novel pharmacological principle for the treatment of cognitive dysfunction.
Journal of Pharmacology and Experimental Therapeutics 11/2007; 323(1):294-307. · 3.83 Impact Factor
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ABSTRACT: Selective modulation of alpha7 nicotinic acetylcholine receptors (nAChRs) is thought to regulate processes impaired in schizophrenia, Alzheimer's disease, and other dementias. One approach to target alpha7 nAChRs is by positive allosteric modulation. Structurally diverse compounds, including PNU-120596, 4-naphthalene-1-yl-3a,4,5,9b-tetrahydro-3-H-cyclopenta[c]quinoline-8-sulfonic acid amide (TQS), and 5-hydroxyindole (5-HI) have been identified as positive allosteric modulators (PAMs), but their receptor interactions and pharmacological profiles remain to be fully elucidated. In this study, we investigated interactions of these compounds at human alpha7 nAChRs, expressed in Xenopus laevis oocytes, along with genistein, a tyrosine kinase inhibitor. Genistein was found to function as a PAM. Two types of PAM profiles were observed. 5-HI and genistein predominantly affected the apparent peak current (type I) whereas PNU-120596 and TQS increased the apparent peak current and evoked a distinct weakly decaying current (type II). Concentration-responses to agonists [ACh, 3-[(3E)-3-[(2,4-dimethoxyphenyl)methylidene]-5,6-dihydro-4H-pyridin-2-yl]pyridine dihydrochloride (GTS-21), and N-[(3R)-1-azabicyclo[2.2.2]oct-3-yl]-4-chlorobenzamide hydrochloride (PNU-282987)] were potentiated by both types, although type II PAMs had greater effects. When applied after alpha7 nAChRs were desensitized, type II, but not type I, PAMs could reactivate alpha7 currents. Both types of PAMs also increased the ACh-evoked alpha7 window currents, with type II PAMs generally showing larger potentiation. None of the PAMs tested increased nicotine-evoked Ca(2+) transients in human embryonic kidney 293 cells expressing human alpha4beta2 or alpha3beta4 nAChRs, although some inhibition was noted for 5-HI, genistein, and TQS. In summary, our studies reveal two distinct alpha7 PAM profiles, which could offer unique opportunities for modulating alpha7 nAChRs in vivo and in the development of novel therapeutics for central nervous system indications.
Molecular Pharmacology 10/2007; 72(3):715-24. · 4.88 Impact Factor
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ABSTRACT: α3-Containing (α3*) and α7 nicotinic acetylcholine receptors (nAChRs) are expressed in human IMR-32 neuroblastoma cells and implicated in Ca2+ signaling. In this study, we investigated the intracellular Ca2+ transient generation evoked by selective activation of α3* (agonist potency rank order: epibatidine > varenicline > nicotine ≈ cytisine) and α7 (rank order in the presence of α7 positive allosteric modulator or PAM: A-795723 > NS6784 ≈ PNU-282987) using, respectively, varenicline and NS6784 (+α7 PAM) by Ca2+ imaging. Effects of inhibitors of nAChRs (MLA and mecamylamine), ER Ca2+ ATPase pump (CPA and thapsigargin), Ca2+-induced Ca2+ release (ryanodine and dantrolene), Ca2+ channels (nitrendipine, diltiazem, and Cd2+), and removal of extracellular Ca2+ were examined. α7 PAMs, when tested in the presence of NS6784, were more active when added first, followed by the agonist, than in the reverse order. Removal of extracellular Ca2+ – but not CPA, thapsigargin, ryanodine, dantrolene, nitrendipine, diltiazem, or Cd2+ – diminished the α7 agonist-evoked Ca2+ transients. In contrast, only diltiazem and nitrendipine and removal of extracellular Ca2+ inhibited the α3*-mediated Ca2+ transients. The differential effect of diltiazem and nitrendipine versus Cd2+ was due to direct inhibition of α3* nAChRs as revealed by Ca2+ imaging in HEK-293 cells expressing human α3β4 nAChRs and patch clamp in IMR-32 cells. In summary, this study provides evidence that α3* and α7 nAChR agonist-evoked global Ca2+ transient generation in IMR-32 cells does not primarily involve voltage-dependent Ca2+ channels, intracellular Ca2+ stores, or Ca2+-induced Ca2+ release. These mechanisms may, however, be still involved in other forms of nAChR-mediated Ca2+ signaling.
Neurochemistry International.
