Nicotine binding and nicotinic receptor subunit RNA after chronic nicotine treatment

Marks, M J; Pauly, JR; Gross, S D; Deneris, ES; Hermans-Borgmeyer, I; Heinemann, Sabine; Collins, A C

doi:10.1523/jneurosci.12-07-02765.1992

Cited by 498 publications

(424 citation statements)

References 34 publications

(37 reference statements)

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“…Interestingly, schizophrenics failed to show any upregulation in thalamus from baseline levels. In thalamus, upregulation in response to nicotine can be reduced and variable, particularly at low doses of nicotine (Marks et al 1992;Flores et al 1997;Ulrich et al 1997;Breese et al 1997a), indicating that thalamus may be refractory to nicotinic receptor upregulation. While neuroleptic treatment may have affected receptor upregulation of the high affinity receptors in thalamus, the lack of correlation may be related to the expression of other receptor subtypes (Marks et al 1992) that do not demonstrate the same degree of receptor upregulation to chronic nicotine treatment as the ␣4␤2 subtype (Fenster et al 1999).…”

Section: Discussionmentioning

confidence: 99%

“…This increase was shown to be dosedependent, based on the number of cigarettes smoked at death, and was reversible, with binding levels returning to control values in subjects who had quit smoking for at least two months prior to death (Breese et al 1997a). The up-regulation of receptor numbers does not appear to be under transcriptional regulation (Marks et al 1992). Rather, the increases may be related to changes in receptor turnover based on receptor desensitization, subunit composition, secondary structural changes in the receptor, or to modification of the receptor by protein kinases (Peng et al 1994;Baenziger and Chew 1997;Eilers et al 1997;Flores et al 1997;Hsu et al 1997;Xiao et al 1998;Fenster et al 1999).…”

Section: Previous Studies Have Suggested That An Abnormality In Neuromentioning

confidence: 99%

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Abnormal Regulation of High Affinity Nicotinic Receptors in Subjects with Schizophrenia

Breese

2000

Neuropsychopharmacology

303

212

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Previous studies have suggested that an abnormality in neuronal nicotinic acetylcholine receptor expression or function may be involved in the neuropathophysiology of schizophrenia. [ 3 H]-nicotine and [ 3 H]-epibatidine binding were compared in postmortem brain from control and schizophrenic subjects with varying smoking histories. In control subjects, increased receptor binding was seen in hippocampus, cortex, and caudate with increasing tobacco use. In contrast, schizophrenic smokers had reduced nicotinic receptor levels in these brain regions compared to control smokers. Chronic haloperidol and nicotine treatment, in the rat, was used to assess neuroleptic effects on receptor up-regulation by nicotine. A significant increase in cortical nicotinic receptors was seen in both nicotine treated as well as haloperidol and nicotine co-treated animals, suggesting that the abnormal regulation of high affinity neuronal nicotinic receptors in schizophrenics followingPrevious studies have shown that high affinity nicotinic receptor numbers increase in the brains of human subjects who smoke (Benwell et al. 1988;Breese et al. 1997a;Court et al. 1998). This increase was shown to be dosedependent, based on the number of cigarettes smoked at death, and was reversible, with binding levels returning to control values in subjects who had quit smoking for at least two months prior to death (Breese et al. 1997a). The up-regulation of receptor numbers does not appear to be under transcriptional regulation (Marks et al. 1992). Rather, the increases may be related to changes in receptor turnover based on receptor desensitization, subunit composition, secondary structural changes in the receptor, or to modification of the receptor by protein kinases (Peng et al. 1994;Baenziger and Chew 1997;Eilers et al. 1997;Flores et al. 1997;Hsu et al. 1997;Xiao et al. 1998;Fenster et al. 1999).In spite of the high degree of nicotine self-administration in schizophrenics (Lohr and Flynn 1992;Ziedonis et al. 1994;de Leon et al. 1995), few studies have examined the effect of smoking or neuroleptic treatment on nicotinic receptor regulation in this disease (Dalack et al. 1998). It has been suggested that nicotine self-administration in schizophrenics may control a neuronal deficit. In this regard, it has been shown that abnormal electro- NO . 4 physiological and eye-tracking deficits can be normalized by cigarette smoking or nicotine administration (Adler et al. 1992(Adler et al. , 1993Olincy et al. 1998). Smoking may also alleviate neuroleptic-induced extrapyramidal side effects (Decina et al. 1990;Goff et al. 1992;Sandyk 1993). Nicotine use increases haloperidol metabolism (Jann et al. 1986;Miller et al. 1990), requiring patients that smoke to take higher doses than non-smoking schizophrenics, often further increasing their smoking behavior (McEvoy et al. 1995). Interestingly, clozapine, which does not induce the motor dysfunctions seen with typical neuroleptics, reduces smoking behavior (George et al. 1995) and normalizes the electrophysiologi...

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Section: Discussionmentioning

confidence: 99%

Section: Previous Studies Have Suggested That An Abnormality In Neuromentioning

confidence: 99%

Abnormal Regulation of High Affinity Nicotinic Receptors in Subjects with Schizophrenia

Breese

2000

Neuropsychopharmacology

303

212

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“…The experiments described here used molecular biological, biochemical and pharmacological approaches in a series of studies that were designed to identify the subunit compositions of the nAChR subtypes that are expressed In situ hybridization has been used to characterize mRNA expression patterns in brain tissue. Figure 1 presents the results of in situ hybridization experiments that determined the mRNA expression patterns of the α2, α3, α4, α5, α6, α7, β2, β3, and β4 subunits in coronal sections of mouse (C57BL/6) brain [64]. The coronal sections shown in Figure 1 include the ventral tegmental area (VTA) and the substantia nigra (SN), brain regions that have high concentrations of dopaminergic neurons.…”

mentioning

confidence: 99%

“…Figure 1 presents the results of in situ hybridization experiments that determined the mRNA expression patterns of the α2, α3, α4, α5, α6, α7, β2, β3, and β4 subunits in coronal sections of mouse (C57BL/6) brain [64]. The coronal sections shown in Figure 1 include the ventral tegmental area (VTA) and the substantia nigra (SN), brain regions that have high concentrations of dopaminergic neurons.…”

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The subtypes of nicotinic acetylcholine receptors on dopaminergic terminals of mouse striatum

Grady

Salminen

Laverty

et al. 2007

Biochemical Pharmacology

228

221

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This review summarizes studies that attempted to determine the subtypes of nicotinic acetylcholine receptors (nAChR) expressed in the dopaminergic nerve terminals in the mouse. A variety of experimental approaches has been necessary to reach current knowledge of these subtypes, including in situ hybridization, agonist and antagonist binding, function measured by neurotransmitter release from synaptosomal preparations, and immunoprecipitation by selective antibodies. Early developments that facilitated this effort include the radioactive labeling of selective binding agents, such as [ 125 I]-α-bungarotoxin and [ 3 H]-nicotine, advances in cloning the subunits, and expression and evaluation of function of combinations of subunits in Xenopus oocytes. The discovery of epibatidine and α-conotoxin MII (α-CtxMII), and the development of nAChR subunit null mutant mice have been invaluable in determining which nAChR subunits are important for expression and function in mice, as well as allowing validation of the specificity of subunit specific antibodies. These approaches have identified five nAChR subtypes of nAChR that are expressed on dopaminergic nerve terminals. Three of these contain the α6 subunit (α4α6β2β3, α6β2β3, α6β2) and bind α-CtxMII with high affinity. One of these three subtypes (α4α6β2β3) also has the highest sensitivity to nicotine of any native nAChR that has been studied, to date. The two subtypes that do not have high affinity for α-CtxMII (α4β2, α4α5β2) are somewhat more numerous than the α6* subtypes, but do bind nicotine with high affinity. Given that our first studies detected readily measured differences in sensitivity to agonists and antagonists among these five nAChR subtypes, it seems likely that subtype selective compounds could be developed that would allow therapeutic manipulation of diverse nAChRs that have been implicated in a number of human conditions. Alterations in nicotinic cholinergic receptor (nAChRs) number or function have been implicated in psychopathologies such as anxiety, attention deficit hyperactivity disorder, depression, schizophrenia (reviewed in [1,2,3]), at least one form of familial epilepsy [4], and Parkinson's and Alzheimer's diseases [5]. It is not particularly surprising that nAChRs might play important roles in modulating several human diseases given that binding sites for nicotinic ligands such as [ 125 I]-α-bungarotoxin [6,7,8], [ 3 H]-nicotine [7,8] Corresponding author: Sharon R Grady e-mail: sharon.grady@colorado.edu phone: 303-492-9677 fax: 303-492-8063 mailing address: Institute for Behavioral Genetics University of Colorado 447UCB Boulder, CO 80309. Publisher's Disclaimer: This is a PDF file of an unedited manuscript that has been accepted for publication. As a service to our customers we are providing this early version of the manuscript. The manuscript will undergo copyediting, typesetting, and review of the resulting proof before it is published in its final citable form. Please note that during the production process errors may be discovered w...

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Sex Differences in Availability of β₂*-Nicotinic Acetylcholine Receptors in Recently Abstinent Tobacco Smokers

Cosgrove

Esterlis²,

McKee³

et al. 2012

Arch Gen Psychiatry

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Context Sex differences exist in the reinforcing effects of nicotine, smoking cessation rates, and in response to nicotine replacement therapies. Sex differences in availability of nicotinic acetylcholine receptors containing the β2 subunit (β2*-nAChRs) may underlie differential nicotine and tobacco smoking effects and related behaviors in women and men. Objective To examine β2*-nAChR availability between male and female smokers and nonsmokers. To determine relationships between β2*-nAChR availability and tobacco smoking characteristics and female sex steroid hormones. Design Male (n=26) and female (n=28) tobacco smokers participated in one [123I]5-IA-85380 ([123I]5-IA) single photon emission computed tomography (SPECT) scan at 7–9 days of abstinence. Age-matched male (n=26) and female (n=30) nonsmokers participated in a single [123I]5-IA SPECT scan. All participants completed 1 magnetic resonance imaging study. Setting Academic Imaging Center Participants Tobacco smokers (n=54) and age- and sex-matched nonsmokers (n=56). Main Outcome Measure [123I]5-IA SPECT images were converted to equilibrium distribution volumes and analyzed using regions-of-interest. Results β2*-nAChR availability was significantly higher in male smokers compared to male nonsmokers in striatum, cortex and cerebellum, but female smokers did not have higher β2*-nAChR availability than female nonsmokers in any region. In women, β2*-nAChR availability in the cortex and cerebellum was negatively and significantly correlated with progesterone level on the day of the scan. In female smokers, on the day of the scan, progesterone levels were positively and significantly correlated with depressive symptoms, craving for a cigarette, and nicotine withdrawal. Conclusions The regulatory effects of nicotine in the brain, i.e., tobacco-smoking induced upregulation of β2*-nAChRs, appear to be distinctly different between men and women, and female sex hormones likely play a role in this regulation. These findings suggest an underlying neurochemical mechanism for the reported behavioral sex differences. In order to treat female smokers more effectively, it is critical that non-nicotinic mediated medications are explored.

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Nicotine binding and nicotinic receptor subunit RNA after chronic nicotine treatment

Cited by 498 publications

References 34 publications

Abnormal Regulation of High Affinity Nicotinic Receptors in Subjects with Schizophrenia

Abnormal Regulation of High Affinity Nicotinic Receptors in Subjects with Schizophrenia

The subtypes of nicotinic acetylcholine receptors on dopaminergic terminals of mouse striatum

Sex Differences in Availability of β₂*-Nicotinic Acetylcholine Receptors in Recently Abstinent Tobacco Smokers

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Nicotine binding and nicotinic receptor subunit RNA after chronic nicotine treatment

Cited by 498 publications

References 34 publications

Abnormal Regulation of High Affinity Nicotinic Receptors in Subjects with Schizophrenia

Abnormal Regulation of High Affinity Nicotinic Receptors in Subjects with Schizophrenia

The subtypes of nicotinic acetylcholine receptors on dopaminergic terminals of mouse striatum

Sex Differences in Availability of β2*-Nicotinic Acetylcholine Receptors in Recently Abstinent Tobacco Smokers

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Product

Resources

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Sex Differences in Availability of β₂*-Nicotinic Acetylcholine Receptors in Recently Abstinent Tobacco Smokers