-
[show abstract]
[hide abstract]
ABSTRACT: Here we validate the design and use of a novel, customized electrophysiology system (Slice XVIvo™) that is capable of recording from 16 independent brain slices. The system consists of 16 independent recording chambers in which individual electrodes can be manually manipulated and fixed in order to stimulate and record extracellular responses from 16 brain slices simultaneously. Responses from each brain slice are elicited with individual stimulus isolator units and recorded through separate channels, thus allowing for independent control and analysis of the evoked extracellular activity from each slice. The system was designed to fit on a standard anti-vibration table, thus the Slice XVIvo™ system occupies considerably less space than other currently available multi-slice recording systems. We have demonstrated the utility of the system to obtain stable, extracellular responses from the CA1 region of the hippocampus, as well as induce long-term potentiation. Additionally, we show the utility of the Slice XVIvo™ system to significantly improved throughput for testing compounds in an oxygen and glucose deprivation assay. Overall, we have designed, created and validated a considerably cost- and space-efficient electrophysiology system that greatly improves throughput while minimizing the number of animals used in experiments.
Journal of neuroscience methods 10/2012; · 2.30 Impact Factor
-
Jiahui Zhang,
Yun-De Xiao,
Kristen G Jordan,
Phil S Hammond,
Katherine M Van Dyke,
Anatoly A Mazurov,
Jason D Speake,
Patrick M Lippiello,
John W James,
Sharon R Letchworth, Merouane Bencherif,
Terry A Hauser
[show abstract]
[hide abstract]
ABSTRACT: Nicotinic α4β2(*) agonists are known to be effective in a variety of preclinical pain models, but the underlying mechanisms of analgesic action are not well-understood. In the present study, we characterized activation and desensitization properties for a set of seventeen novel α4β2(*)-selective agonists that display druggable physical and pharmacokinetic attributes, and correlated the in vitro pharmacology results to efficacies observed in a mouse formalin model of analgesia. ABT-894 and Sazetidine-A, two compounds known to be effective in the formalin assay, were included for comparison. The set of compounds displayed a range of activities at human (α4β2)(2)β2 (HS-α4β2), (α4β2)(2)α5 (α4β2α5) and (α4β2)(2)α4 (LS-α4β2) receptors. We report the novel finding that desensitization of α4β2(*) receptors may drive part of the antinociceptive outcome. Our molecular modeling approaches revealed that when receptor desensitization rather than activation activitiesat α4β2(*) receptors are considered, there is a better correlation between analgesia scores and combined in vitro properties. Our results suggest that although all three α4β2 subtypes assessed are involved, it is desensitization of α4β2α5 receptors that plays a more prominent role in the antinociceptive action of nicotinic compounds. For modulation of Phase I responses, correlations are significantly improved from an r(2) value of 0.53 to 0.67 and 0.66 when HS- and LS-α4β2 DC(50) values are considered, respectively. More profoundly, considering the DC(50) at α4β2α5 takes the r(2) from 0.53 to 0.70. For Phase II analgesia scores, adding HS- or LS-α4β2 desensitization potencies did not improve the correlations significantly. Considering the α4β2α5 DC(50) value significantly increased the r(2) from 0.70 to 0.79 for Phase II, and strongly suggested a more prominent role for α4β2α5 nAChRs in the modulation of pain in the formalin assay. The present studies demonstrate that compounds which are more potent at desensitization of α4β2(*) receptors display better analgesia scores in the formalin test. Consideration of desensitization propertiesat α4β2(*) receptors, especially at α4β2α5, in multiple linear regression analyses significantly improves correlations with efficacies of analgesia. Thus, α4β2(*) nicotinic acetylcholine receptor desensitization may contribute to efficacy in the mediation of pain, and represent a mechanism for analgesic effects mediated by nicotinic agonists.
European journal of pharmaceutical sciences: official journal of the European Federation for Pharmaceutical Sciences 10/2012; · 2.61 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: High-throughput compound screening using electrophysiology-based assays represents an important tool for biomedical research and drug discovery programs. The recent development and availability of devices capable of performing high-throughput electrophysiology-based screening have brought the need to validate these tools by producing data that are consistent with results obtained with conventional electrophysiological methods. In this study, we compared the response properties of hα3β4 and hα4β2 nicotinic receptors to their endogenous ligand acetylcholine (ACh) using three separate electrophysiology platforms: Dynaflow (low-throughput, manual system), PatchXpress 7000A (medium-throughput automated platform), and IonWorks Barracuda (high-throughput automated platform). We found that despite the differences in methodological approaches between these technologies, the EC(50) values from the ACh dose-response curves were consistent between all three platforms. In addition, we have validated the IonWorks Barracuda for both competitive and uncompetitive inhibition assays by using the competitive nicotinic antagonist dihydro-beta-erythroidin (DHβE) and uncompetitive nicotinic antagonist mecamylamine. Furthermore, we have demonstrated the utility of a custom-written algorithm for generating dose-response curves from multiple extrapolated current metrics that allows for discriminating between competitive and uncompetitive inhibition while maintaining high-throughput capacity. This study provides validation of the consistency of results using low-, medium-, and high-throughput electrophysiology platforms and supports their use for screening nicotinic compounds.
Journal of Biomolecular Screening 09/2012; · 2.05 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: The long prevailing hypothesis of schizophrenia pathogenesis implicates dopaminergic systems in the mesolimbic pathways as responsible for the positive symptoms of schizophrenia (hallucinations and delusions) and those in the mesocortical pathway as contributing to the negative symptoms (e.g., social disconnection, flattened affect and anhedonia). Several challenges to the dopamine hypothesis and the proposal of an alternative hypothesis implicating glutamate have provided additional support for the development of non-dopaminergic drugs for the management of schizophrenia symptomatology. Furthermore, preclinical and clinical evidence of alpha7 neuronal nicotinic acetylcholine receptor-mediated benefits in the triad of positive symptoms, negative symptoms and cognitive dysfunction in schizophrenia, as well as the genetic linkage of this receptor to the disease, have added another level of complexity. Thus schizophrenia is increasingly believed to involve multi-neurotransmitter deficits, all of which may contribute to altered dopaminergic tone in the mesolimbic, mesocortical and other areas of the brain. In this paper we provide a model that reconciles the dopamine, glutamate and alpha7 cholinergic etiopathogenesis and is consistent with the clinical benefit derived from therapies targeted to these individual pathways.
Medical Hypotheses 02/2012; 78(5):594-600. · 1.39 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Fast solution exchange techniques have revolutionized the study of synaptic transmission and promise to remain an important neuroscience research tool. Here we provide evidence for the hypothesis that using continuous, rapid transitions through an agonist solution can significantly increase the exchange rate around a cell by reducing the diffusion boundary at the membrane. This novel approach of rapid solution exchange during whole-cell recordings - described as a "liquid bullet" (LB) application - takes advantage of a bidirectional solution flow around the cell, allowing for a full solution exchange within a range of several milliseconds. An exchange rate (10-90% rise time) of about 2 ms could be achieved during both agonist application and washout. We recorded whole-cell currents from cells expressing the rapidly desensitizing α7 neuronal nicotinic receptor (NNR) subtype that exhibited very fast rise times of around 4-5 ms. We further demonstrated the advantages of a LB application over conventional methods by the ability of this method to elicit concentration-dependent responses for rapidly desensitizing compounds that were not measurable with conventional agonist applications. In addition, we illustrate the utility of this approach for frequency-based assays through fast, repeated agonist applications at frequencies of 1 Hz and 30 Hz. This approach could therefore be useful for the study of rapid agonist-receptor interactions that closely mimic the physiological conditions in the synaptic cleft during bursts of neuronal activity.
Journal of neuroscience methods 02/2012; 206(1):23-33. · 2.30 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Varenicline, a widely used and successful smoking cessation agent, acts as a partial agonist at nicotinic acetylcholine receptors. Here, we explore the effects of varenicline at human and mouse 5-Hydroxytryptamine(3) (5-HT(3)) receptors. Application of varenicline to human 5-HT(3) receptors expressed in Xenopus laevis oocytes reveal it is almost a full agonist (R(max) = 80%) with an EC(50) (5.9 μM) 3-fold higher than 5-HT. At mouse 5-HT(3) receptors varenicline is a partial agonist (R(max) = 35%) with an EC(50) (18 μM) 20-fold higher than 5-HT. Displacement of the competitive 5-HT(3) receptor antagonist [(3)H]granisetron reveals similar IC(50) values for varenicline at mouse and human receptors expressed in human embryonic kidney 293 cells, although studies in these cells using a membrane potential-sensitive dye show that again varenicline is a 4- or 35-fold less potent agonist than 5-HT in human and mouse receptors, respectively. Thus the data suggest that the efficacy, but not the affinity, of varenicline is greater at human 5-HT(3) receptors compared with mouse. Docking studies provide a possible explanation for this difference, because they suggest distinct orientations of the ligand in the mouse versus human 5-HT(3) agonist binding sites. Additional binding selectivity studies in a broad panel of recombinant receptors and enzymes confirmed an interaction with 5-HT(3) receptors but revealed no additional interactions of varenicline. Therefore, activation of human 5-HT(3) receptors may be responsible for some of the side effects that preclude use of higher doses during varenicline treatment.
Journal of Pharmacology and Experimental Therapeutics 07/2011; 339(1):125-31. · 3.83 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: A number of hypotheses have been put forth to explain the underlying abnormalities of schizophrenia. The widely held dopamine hypothesis suggests that positive symptoms are related to elevated subcortical dopamine transmission and that negative symptoms and cognitive impairments are associated with decreased cortical dopamine function. However, recent evidence suggests broader involvement of serotonergic, glutamatergic and other neurotransmitter systems and a growing body of evidence supports a role for nicotinic cholinergic systems. Based on post-mortem studies, there is a decreased density of neuronal nicotinic receptors (NNRs), especially the alpha7 NNR subtype, in the brains of schizophrenics. The alpha7 NNR subtype is the most abundant in the mammalian brain and has been shown to modulate multiple neuronal pathways that are compromised in schizophrenia, including dopaminergic, serotonergic, glutamatergic and GABAergic pathways. Familial linkage studies have associated regions of chromosome 15, which contains the alpha7 NNR gene, with schizophrenia and polymorphisms have been described in the promoter region of the alpha7 NNR gene. Observations from both animal and human studies that alpha7 NNR agonists can improve positive and negative symptoms as well as cognition to varying degrees further support the involvement of this receptor subtype in multiple deficits of schizophrenia and suggest that it may be feasible to develop novel therapies targeting alpha7 NNRs to treat all domains of the disease.
Current pharmaceutical biotechnology 03/2011; 12(3):437-48. · 3.40 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Inflammatory disorders are characterized by the influx of immune cells into the vascular wall of veins and/or arteries in response to stimuli such as oxidized-LDL and various pathogens. These factors stimulate the local production of pro-inflammatory cytokines by macrophages and other cells that promote various inflammatory diseases such as atherosclerosis, Crohn's, Alzheimer's and diabetes. Numerous cytokines play a significant role in this process, though tumor necrosis factor (TNF) and various interleukins are thought to be among the most important regulators. These proinflammatory cytokines promote the above-described diseases by inducing endothelial cell dysfunction. In this brief commentary we will discuss some of the latest advances and discoveries in the treatment of these inflammatory diseases, making use of alpha7 nicotinic acetylcholine receptor (alpha7 nAChR) agonists.
Pharmaceutical Research 02/2011; 28(2):413-6. · 4.09 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: In recent years the etiopathology of a number of debilitating diseases such as type 2 diabetes, arthritis, atherosclerosis, psoriasis, asthma, cystic fibrosis, sepsis, and ulcerative colitis has increasingly been linked to runaway cytokine-mediated inflammation. Cytokine-based therapeutic agents play a major role in the treatment of these diseases. However, the temporospatial changes in various cytokines are still poorly understood and attempts to date have focused on the inhibition of specific cytokines such as TNF-α. As an alternative approach, a number of preclinical studies have confirmed the therapeutic potential of targeting alpha7 nicotinic acetylcholine receptor-mediated anti-inflammatory effects through modulation of proinflammatory cytokines. This "cholinergic anti-inflammatory pathway" modulates the immune system through cholinergic mechanisms that act on alpha7 receptors expressed on macrophages and immune cells. If the preclinical findings translate into human efficacy this approach could potentially provide new therapies for treating a broad array of intractable diseases and conditions with inflammatory components.
Cellular and Molecular Life Sciences CMLS 10/2010; 68(6):931-49. · 6.57 Impact Factor
-
Sharon R Grady,
Ryan M Drenan,
Scott R Breining,
Daniel Yohannes,
Charles R Wageman,
Nikolai B Fedorov,
Sheri McKinney,
Paul Whiteaker, Merouane Bencherif,
Henry A Lester,
Michael J Marks
[show abstract]
[hide abstract]
ABSTRACT: Mammalian brain expresses multiple nicotinic acetylcholine receptor (nAChR) subtypes that differ in subunit composition, sites of expression and pharmacological and functional properties. Among known subtypes of receptors, alpha 4 beta 2* and alpha 6 beta 2*-nAChR have the highest affinity for nicotine (where * indicates possibility of other subunits). The alpha 4 beta 2*-nAChRs are widely distributed, while alpha 6 beta 2*-nAChR are restricted to a few regions. Both subtypes modulate release of dopamine from the dopaminergic neurons of the mesoaccumbens pathway thought to be essential for reward and addiction. alpha 4 beta 2*-nAChR also modulate GABA release in these areas. Identification of selective compounds would facilitate study of nAChR subtypes. An improved understanding of the role of nAChR subtypes may help in developing more effective smoking cessation aids with fewer side effects than current therapeutics. We have screened a series of nicotinic compounds that vary in the distance between the pyridine and the cationic center, in steric bulk, and in flexibility of the molecule. These compounds were screened using membrane binding and synaptosomal function assays, or recordings from GH4C1 cells expressing h alpha 7, to determine affinity, potency and efficacy at four subtypes of nAChRs found in brain, alpha 4 beta 2*, alpha 6 beta 2*, alpha 7 and alpha 3 beta 4*. In addition, physiological assays in gain-of-function mutant mice were used to assess in vivo activity at alpha 4 beta 2* and alpha 6 beta 2*-nAChRs. This approach has identified several compounds with agonist or partial agonist activity that display improved selectivity for alpha 6 beta 2*-nAChR.
Neuropharmacology 06/2010; 58(7):1054-66. · 4.81 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Type 2 diabetes has become a pervasive public health problem. The etiology of the disease has not been fully defined but appears to involve abnormalities in peripheral and central nervous system pathways, as well as prominent inflammatory components. Because nicotinic acetylcholine receptors (nAChRs) are known to interact with anti-inflammatory pathways and have been implicated in control of appetite and body weight, as well as lipid and energy metabolism, we examined their role in modulating biological parameters associated with the disease. In a model of type 2 diabetes, the homozygous leptin-resistant db/db obese mouse, we measured the effects of a novel alpha7 nAChR-selective agonist [5-methyl-N-[2-(pyridin-3-ylmethyl)-1-azabicyclo[2.2.2]oct-3-yl]thiophene-2-carboxamide (TC-7020)] on body mass, glucose and lipid metabolism, and proinflammatory cytokines. Oral administration of TC-7020 reduced weight gain and food intake, reduced elevated glucose and glycated hemoglobin levels, and lowered elevated plasma levels of triglycerides and the proinflammatory cytokine tumor necrosis factor-alpha. These changes were reversed by the alpha7-selective antagonist methyllycaconitine, confirming the involvement of alpha7 nAChRs. Prevention of weight gain, decreased food intake, and normalization of glucose levels were also blocked by the Janus kinase 2 (JAK2) inhibitor alpha-cyano-(3,4-dihydroxy)-N-benzylcinnamide (AG-490), suggesting that these effects involve linkage of alpha7 nAChRs to the JAK2-signal transducer and activator of transcription 3 signaling pathway. The results show that alpha7 nAChRs play a central role in regulating biological parameters associated with diabetes and support the potential of targeting these receptors as a new therapeutic strategy for treatment.
Journal of Pharmacology and Experimental Therapeutics 09/2009; 332(1):173-80. · 3.83 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Evidence supports the premise that alpha7 nicotinic acetylcholine receptors in the central nervous system, sometimes referred to as neuronal nicotinic receptors (NNRs), play a central role in the development of Alzheimer's disease (AD) pathophysiology. Moreover, these receptors may represent the key to unifying aspects of the cholinergic hypothesis of AD with many of the apparently disparate mechanisms such as beta-amyloid deposition, tau hyperphosphorylation, and ApoE4 abnormalities variously proposed to underlie the progression of the disease. We hypothesize that neuronal degeneration in incipient AD is the result of coincident events involving, at their core, deficits in alpha7 NNR function. The resulting hypocholinergic tone could potentially have serious consequences since alpha7 NNRs are known to modulate fundamental pathways involved in cell survival such as JAK2-STAT3. This hypothesis predicts that any factors that compromise alpha7 function have the potential to negatively impact neuronal viability. For example, such factors could include deficits in the primary neurotransmitter acetylcholine (ACh), underactivity of normal cognitive processes that stimulate alpha7 NNRs (i.e., use-dependency), or the reported binding of beta-amyloid and ApoE4 to alpha7 NNRs, all of which could effectively decouple the receptors from key pro-survival pathways. Since these pathways are known to negatively modulate GSK-3beta, which regulates tau phosphorylation, downstream effects such as tau hyperphosphorylation would be expected to arise. Conversely, the maintenance of normal alpha7 NNR activity by adequate levels of ACh or other NNR agonists would be expected to support normal cholinergic tone, prevent the binding of beta-amyloid and ApoE4 and preserve the integrity of the neurons. We therefore propose that decreased cholinergic tone is at the apex of AD pathophysiology, with factors such as beta-amyloid and ApoE4 playing a contributory role rather that a causal one and hyperphosphorylation of tau representing a detector of concomitant hypocholinergic tone and beta-amyloid deposition. Thus the convergence of beta-amyloid deposition and/or ApoE4 binding and co-localization with alpha7 NNRs, which are favored under conditions of low cholinergic tone, and the downstream cascade of tau hyperphosphorylation through disinhibition of GSK-3beta appear to explain and reconcile many of the discordant findings in this very active area of CNS research.
Medical Hypotheses 09/2009; 74(2):281-5. · 1.39 Impact Factor
-
Merouane Bencherif
[show abstract]
[hide abstract]
ABSTRACT: A number of studies have confirmed the potential for neuronal nicotinic acetylcholine receptor (NNR)-mediated neuroprotection and, more recently, its anti-inflammatory effects. The mechanistic overlap between these pathways and the ubiquitous effects observed following diverse insults suggest that NNRs modulate fundamental pathways involved in cell survival. These results have wide-reaching implications for the design of experimental therapeutics that regulate inflammatory and anti-apoptotic responses through NNRs and represent an initial step toward understanding the benefits of novel therapeutic strategies for the management of central nervous system disorders that target neuronal survival and associated inflammatory processes.
Acta Pharmacologica Sinica 07/2009; 30(6):702-14. · 1.95 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Direct comparison of pyridine versus pyrimidine substituents on a small but diverse set of ligands indicates that the pyrimidine substitution has the potential to enhance affinity and/or functional activity at alpha6 subunit-containing neuronal nicotinic receptors (NNRs) and decrease activation of ganglionic nicotinic receptors, depending on the scaffold. The ramifications of this structure-activity relationship are discussed in the context of the design of small molecules targeting smoking cessation.
Bioorganic & medicinal chemistry letters 06/2009; 19(15):4359-63. · 2.65 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: It has been suggested that the interaction of antipsychotic medications with neuronal nicotinic receptors may increase the cognitive dysfunction associated with schizophrenia and may explain why current therapies only partially address this core feature of the illness. In the present studies we compared the effects of the atypical antipsychotics quetiapine, clozapine and N-desmethylclozapine to those of the typical antipsychotics haloperidol and chlorpromazine on the alpha4beta2 and alpha7 nicotinic receptor subtypes. The binding of [(3)H]-nicotine to rat cortical alpha4beta2 receptors and [(3)H]-methyllycaconitine to rat hippocampal alpha7 receptors was not affected by any of the compounds tested. However, Rb(+) efflux evoked either by nicotine or the selective alpha4beta2 agonist TC-1827 from alpha4beta2 receptors expressed in SH-EP1 cells and nicotine-evoked [(3)H]-dopamine release from rat striatal synaptosomes were non-competitively inhibited by all of the antipsychotics. Similarly, alpha-bungarotoxin-sensitive epibatidine-evoked [(3)H]-norepinephrine release from rat hippocampal slices and acetylcholine-activated currents of alpha7 nicotinic receptors expressed in oocytes were inhibited by haloperidol, chlorpromazine, clozapine and N-desmethylclozapine. The inhibitory effects on nicotinic receptor function produced by the antipsychotics tested occurred at concentrations similar to plasma levels achieved in schizophrenia patients, suggesting that they may lead to clinically relevant effects on cognition.
Neuropharmacology 06/2009; 57(2):183-91. · 4.81 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Our laboratories have previously identified the alpha7 nAChR-JAK2 pathway as playing a central role in nicotine-induced neuroprotection. We have also reported that the angiotensin II (Ang II) AT(2) receptor induced activation of SHP-1 induces the tyrosine dephosphorylation of JAK2 that results in a complete neutralization of the alpha7 nAChR-JAK2 pro-survival cascade. In this study, we investigated the effects of inhibiting the alpha7 nAChR-JAK2 pro-survival cascade on the nicotine-induced production of the survival factor Bcl-2 and the transcriptional activation of NF-kappaB, AP-1, STAT1, STAT3, and STAT5. We report that nicotine induced the production of Bcl-2 and increased the transcriptional activation of NF-kappaB, AP-1, STAT1, and STAT3, and with the exception of AP-1, the other transcription factors (NF-kappaB, STAT1, and STAT3) were significantly reduced by JAK2 inhibition. We also demonstrate that, via transfection of either Bcl-2 antisense or NF-kappaB, STAT1 and STAT3 transcription factor decoys oligodeoxyribonucleotides into PC12 cells, nicotine induces its neuroprotection in PC12 cells via activation of the alpha7 nAChR-JAK2-(NF-kappaB; STAT3)-Bcl-2 pro-survival pathway. Finally, the neuroprotective nicotine-induced production of Bcl-2 appears to fully counteract the Abeta (1-42)-induced apoptosis of PC12 cells by blocking Abeta (1-42)-induced mitochondrial release of cytosolic cytochrome C.
Brain research 12/2008; 1256:1-7. · 2.46 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: (+/-)-Mecamylamine is a racemic mixture of a widely used brain-permeant noncompetitive inhibitor of muscle-type and neuronal nicotinic receptors (NNRs). The present studies evaluated whether the stereoisomers of this drug show different profiles for inhibition of the high-sensitivity (HS) and low-sensitivity (LS) isoforms of the human alpha4beta2 NNR subtype expressed in subclonal human epithelial 1 cells. We found that at low concentrations (micromolar range), TC-5214 [S-(+)-mecamylamine] was more effective than TC-5213 [R-(-)-mecamylamine] in inhibiting the LS alpha4beta2 NNRs. In addition, we demonstrated that TC-5214 potentiated and TC-5213 inhibited agonist-induced activation of HS alpha4beta2 NNRs. The stereoselectivity of mecamylamine enantiomers at HS and LS alpha4beta2 receptors demonstrates that TC-5214 is the preferred stereoisomer for selective activation of HS, whereas it is more effective in suppressing LS receptor function. This feature could be relevant to therapeutic applications where such a selective mechanism of action is required.
Journal of Pharmacology and Experimental Therapeutics 11/2008; 328(2):525-32. · 3.83 Impact Factor
-
Ryan M Drenan,
Sharon R Grady,
Paul Whiteaker,
Tristan McClure-Begley,
Sheri McKinney,
Julie M Miwa,
Sujata Bupp,
Nathaniel Heintz,
J Michael McIntosh, Merouane Bencherif,
Michael J Marks,
Henry A Lester
[show abstract]
[hide abstract]
ABSTRACT: Alpha6-containing (alpha6*) nicotinic ACh receptors (nAChRs) are selectively expressed in dopamine (DA) neurons and participate in cholinergic transmission. We generated and studied mice with gain-of-function alpha6* nAChRs, which isolate and amplify cholinergic control of DA transmission. In contrast to gene knockouts or pharmacological blockers, which show necessity, we show that activating alpha6* nAChRs and DA neurons is sufficient to cause locomotor hyperactivity. alpha6(L9'S) mice are hyperactive in their home cage and fail to habituate to a novel environment. Selective activation of alpha6* nAChRs with low doses of nicotine, by stimulating DA but not GABA neurons, exaggerates these phenotypes and produces a hyperdopaminergic state in vivo. Experiments with additional nicotinic drugs show that altering agonist efficacy at alpha6* provides fine tuning of DA release and locomotor responses. alpha6*-specific agonists or antagonists may, by targeting endogenous cholinergic mechanisms in midbrain or striatum, provide a method for manipulating DA transmission in neural disorders.
Neuron 11/2008; 60(1):123-36. · 14.74 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Both clinical and preclinical data support a potential therapeutic benefit of modulating the activity of CNS neuronal nicotinic receptors (NNRs) to treat depression and anxiety disorders. Based on the notion that the depressive states involve hypercholinergic tone, we have examined the potential palliative role of NNR antagonism in these disorders, using TC-5214 (S-(+) enantiomer of mecamylamine), a noncompetitive NNR antagonist. TC-5214 demonstrated positive effects in a number of animal models of depression and anxiety. TC-5214 was active in the forced swim test in rats (minimum effective dose (MED)=3 mg/kg i.p.), a classical depression model. It was also active in the behavioral despair test in mice (0.1-3.0 mg/kg i.p.), another model of depression. In the social interaction paradigm in rats, a model of generalized anxiety disorder (GAD), TC-5214 was active at a dose of 0.05 mg/kg s.c. In the light/dark chamber paradigm in rats, a model of GAD and phobia, TC-5214 was also active at a dose of 0.05 mg/kg s.c. Although TC-5214 shows modest selectivity among NNR subtypes, the antidepressant and anxiolytic effects seen in these studies are likely attributable to antagonist effects at the alpha4beta2 NNRs. This is supported by the observation of similar effects with alpha4beta2-selective partial agonists such as cytisine and with alpha4beta2-selective antagonists such as TC-2216. TC-5214 was well tolerated in acute and chronic toxicity studies in mice, rats, and dogs, showed no mutagenicity and displayed safety pharmacology, pharmacokinetic and metabolic profiles appropriate for therapeutic development. Overall, the results support a novel nicotinic cholinergic antagonist mechanism for antidepressant and anxiolytic effects and highlight the potential of NNR antagonists such as TC-5214 as therapeutics for the treatment of anxiety and depression.
CNS Neuroscience & Therapeutics 02/2008; 14(4):266-77. · 4.44 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Nicotine is of therapeutic value in ulcerative colitis, but its administration is connected with adverse events. Nicotine derivatives are currently being tested to maintain the therapeutic effects and minimize adverse events. TC-2403-12 is a (E)-metanicotine hemigalactarate. The aim of this study was to determine the effectiveness of TC-2403-12 in the inhibition of TNF- and lipopolysaccharide (LPS)-induced cell activation.
Colonic epithelial cells (CEC), monocytes (MM6), granulocytes, and the intestinal epithelial cell line HT-29 were stimulated with TNF and LPS and treated with TC-2403-12. IL-8 secretion in the cell supernatants and NF-kappaB activation were determined by ELISA. Apoptosis was quantified by flow cytometry.
In MM6 cells, IL-8 secretion was significantly decreased to 30% of control after TC-2403-12 treatment, with best results after pretreatment for 24 h. This decrease in cell activation was not due to apoptosis and was not mediated by inhibition of NF-kappaB activation. IL-8 production in neutrophils and primary CEC also tended to be decreased after TC-2403-12 treatment. TC-2403-12 had no influence on IL-8 secretion of HT-29 cells.
TC-2403-12 effectively inhibited TNF- and LPS-induced IL-8 production in different cell types. No toxic effects occurred at the concentrations used. Preincubation of cells with TC-2403-12 showed the best effects.
International Journal of Colorectal Disease 04/2007; 22(3):303-12. · 2.38 Impact Factor
