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ABSTRACT: We characterized the functional and molecular properties of nicotinic acetylcholine receptors (AChRs) expressed by IMR-32, a human neuroblastoma cell line, and compared them to human alpha3 AChRs expressed in stably transfected human embryonic kidney (HEK) cells. IMR-32 cells, like neurons of autonomic ganglia, have been shown to express alpha3, alpha5, alpha7, beta2, and beta4 AChR subunits. From these subunits, several types of alpha3 AChRs as well as homomeric alpha7 AChRs could be formed. However, as we show, the properties of functional AChRs in these cells overwhelmingly reflect alpha3beta4 AChRs. alpha7 AChR function was not detected, yet we estimate that there are 70% as many surface alpha7 AChRs in IMR-32 when compared with alpha3 AChRs. Agonist potencies (EC(50) values) followed the rank order of 1,1-dimethyl-4-phenylpiperazinium (DMPP; 16+/-1 microM) > nicotine (Nic; 48 +/- 7 microM) > or = cytisine (Cyt; 57 +/- 3 microM) = acetylcholine (ACh; 59 +/- 6 microM). All agonists exhibited efficacies of at least 80% relative to ACh. The currents showed strong inward rectification and desensitized at a rate of 3 s(-1) (300 microM ACh; -60 mV). Assays that used mAbs confirmed the predominance of alpha3- and beta4-containing AChRs in IMR-32 cells. Although 18% of total alpha3 AChRs contained beta2 subunits, no beta2 subunit was detected on the cell surface. Chronic Nic incubation increased the amount of total, but not surface alpha3beta2 AChRs in IMR-32 cells. Nic incubation and reduced culture temperature increased total and surface AChRs in alpha3beta2 transfected HEK cells. Characterization of various alpha3 AChRs expressed in HEK cell lines revealed that the functional properties of the alpha3beta4 cell line best matched those found for IMR-32 cells. The rank order of agonist potencies (EC(50) values) for this line was DMPP (14 +/- 1 microM) = Cyt (18 +/- 1 microM) > Nic (56 +/- 15 microM > ACh (79 +/- 8 microM). The efficacies of both Cyt and DMPP were approximately 80% when compared with ACh and the desensitization rate was 2 s(-1). These data show that even with the potential to express several human nicotinic AChR subtypes, the functional properties of AChRs expressed by IMR-32 are completely attributable to alpha3beta4 AChRs.
The Journal of General Physiology 11/2001; 118(5):563-82. · 3.84 Impact Factor
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ABSTRACT: Human nicotinic acetylcholine receptor (AChR) subtypes alpha3 beta2, alpha3 beta2 alpha5, alpha3 beta4, and alpha3 beta4 alpha5 were stably expressed in cells derived from the human embryonic kidney cell line 293. alpha3 beta4 AChRs were found in prominent 2-micrometer patches on the cell surface, whereas most alpha3 beta2 AChRs were more diffusely distributed. The functional properties of the alpha3 AChRs in tsA201 cells were characterized by whole cell patch clamp using both acetylcholine and nicotine as agonists. Nicotine was a partial agonist on alpha3 beta4 AChRs and nearly a full agonist on alpha3 beta2 alpha5 AChRs. Chronic exposure of cells expressing alpha3 beta2 AChRs or alpha3 beta2 alpha5 AChRs to nicotine or carbamylcholine increased their amount up to 24-fold but had no effect on the amount of alpha3beta4 or alpha3 beta4 alpha5 AChRs, i.e. the up-regulation of alpha3 AChRs depended on the presence of beta2 but not beta4 subunits in the AChRs. This was also found to be true of alpha3 AChRs in the human neuroblastoma SH-SY5Y. In the absence of nicotine, alpha3 beta2 AChRs were expressed at much lower levels than alpha3 beta4 AChRs, but in the presence of nicotine, the amount of alpha3 beta2 AChRs exceeded that of alpha3 beta4 AChRs. Up-regulation was seen for both total AChRs and surface AChRs. Up-regulated alpha3beta2 AChRs were functional. The nicotinic antagonists curare and dihydro-beta-erythroidine also up-regulated alpha3 beta2 AChRs, but only by 3-5-fold. The channel blocker mecamylamine did not cause up-regulation of alpha3 beta2 AChRs and inhibited up-regulation by nicotine. Our data suggest that up-regulation of alpha3 beta2 AChRs in these lines by nicotine results from both increased subunit assembly and decreased AChR turnover.
Journal of Biological Chemistry 11/1998; 273(44):28721-32. · 4.77 Impact Factor
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ABSTRACT: Functional effects of human alpha 5 nicotinic ACh receptor (AChR) subunits coassembled with alpha 3 and beta 2 or with alpha 3 and beta 4 subunits, were investigated in Xenopus oocytes. The presence of alpha 5 subunits altered some properties of both alpha 3 AChRs and differentially altered other properties of alpha 3 beta 2 AChRs vs. alpha 3 beta 4 AChRs. alpha 5 subunits increased desensitization and Ca++ permeability of all alpha 3 AChRs. The Ca++ permeabilities of both alpha 3 beta 2 alpha 5 and alpha 3 beta 4 alpha 5 AChRs were comparable to that of alpha 7 AChRs. As we have shown previously, alpha 5 subunits increased the ACh sensitivity of alpha 3 beta 2 AChRs 50-fold but had little effect on alpha 3 beta 4 AChRs. alpha 5 caused only subtle changes in the activation potencies of alpha 3 AChRs for nicotine, cytisine and 1,1-dimethyl-4-plenylpiperazinium (DMPP). However, alpha 5 increased the efficacies of nicotine and DMPP on alpha 3 beta 2 AChRs but decreased them on alpha 3 beta 4 AChRs. Immunoisolation of cloned human AChRs expressed in oocytes showed that alpha 5 efficiently coassembled with alpha 3 plus beta 2 and/or beta 4 subunits. As expected, human AChRs immunoisolated from SH-SY5Y neuroblastoma cells showed that AChRs containing alpha 3 and probably alpha 5 subunits were present, but alpha 4 AChRs were not. In brain, by contrast, alpha 4 beta 2 AChRs were shown to predominate over alpha 3 AChRs. Some of the brain alpha 4 beta 2 AChRs were found to contain alpha 5 subunits.
Journal of Pharmacology and Experimental Therapeutics 08/1998; 286(1):311-20. · 3.83 Impact Factor
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Annals of the New York Academy of Sciences 06/1998; 841:71-86. · 3.15 Impact Factor
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ABSTRACT: Water-soluble models of ligand-gated ion channels would be advantageous for structural studies. We investigated the suitability of three versions of the N-terminal extracellular domain (ECD) of the alpha7 subunit of the nicotinic acetylcholine receptor (AChR) family for this purpose by examining their ligand-binding and assembly properties. Two versions included the first transmembrane domain and were solubilized with detergent after expression in Xenopus oocytes. The third was truncated before the first transmembrane domain and was soluble without detergent. For all three, their equilibrium binding affinities for alpha-bungarotoxin, nicotine, and acetylcholine, combined with their velocity sedimentation profiles, were consistent with the formation of native-like AChRs. These characteristics imply that the alpha7 ECD can form a water-soluble AChR that is a model of the ECD of the full-length alpha7 AChR.
Journal of Biological Chemistry 02/1998; 273(2):964-73. · 4.77 Impact Factor
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ABSTRACT: Because chronic exposure to nicotine and nicotinic drugs might both activate and desensitize nicotinic acetylcholine receptors (AChRs), we sought to determine whether prolonged exposure to nicotine concentrations encountered in tobacco users differentially affects electrophysiological properties of major subtypes of human neuronal nicotinic AChRs. Xenopus laevis oocytes were injected with subunit cRNAs encoding (1) homomeric alpha7 AChRs, (2) heteromeric alpha4beta2 AChRs and (3) heteromeric alpha3 AChRs formed from combinations of alpha3, beta2, beta4 and alpha5 cRNAs. Acute activation required micromolar concentrations of nicotine. Chronic exposure to submicromolar concentrations of nicotine irreversibly inactivated many alpha4beta2 AChRs and alpha7 AChRs but inhibited alpha3 AChRs much less. Thus, although alpha3 AChRs are present in the brain in much smaller amounts than are alpha4beta2 AChRs or alpha7 AChRs, alpha3 AChRs in brain and autonomic ganglia may be able to play a relatively large role in acute responses to endogenous ACh or subsequent doses of nicotine after chronic exposure to nicotine. The behavioral effects of nicotine may typically reflect the sustained inhibition of alpha4beta2 AChRs and alpha7 AChRs in combination with the residual susceptibility of alpha3 AChRs and perhaps some other AChR subtypes for acute activation. Tolerance for nicotine exhibited by tobacco users may reflect the long-term irreversible functional inactivation of alpha4beta2 AChRs and alpha7 AChRs produced by chronic exposure to nicotine.
Journal of Pharmacology and Experimental Therapeutics 12/1997; 283(2):675-83. · 3.83 Impact Factor
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ABSTRACT: Chronic exposure to nicotine has been reported to increase the number of nicotinic acetylcholine receptors (AChRs) in brain. The mechanism of up-regulation for the alpha4beta2 AChR subtype, which accounts for the majority of high affinity nicotine binding in mammalian brain, has previously been shown to involve a decrease in the rate of alpha4beta2 AChR turnover. Here, we report an investigation of the extent and mechanism of nicotine-induced up-regulation of alpha3 AChRs and alpha7 AChR subtypes expressed in the human neuroblastoma cell line SH-SY5Y. Up-regulation of human alpha3 AChRs and alpha7 AChRs, unlike alpha4beta2 AChRs, requires much higher nicotine concentrations than are encountered in smokers; the extent of increase of surface AChRs is much less; and the mechanisms of up-regulation are different than with alpha4beta2 AChRs. The mechanisms of up-regulation may be different for alpha3 AChRs or alpha7 AChRs. Chronic treatment with nicotine or carbamylcholine, but not d-tubocurarine, mecamylamine, or dihydro-beta-erythroidine, induced a 500-600% increase in the number of alpha3 AChRs but only a 30% increase in alpha7 AChRs. Chronic nicotine treatment did not increase affinity for nicotine or increase the amount of RNA for alpha3 or alpha7 subunits. The effect of nicotine on up-regulation of alpha7 AChRs was partially blocked by either d-tubocurarine or mecamylamine. The effect of nicotine treatment on the number of alpha3 AChRs was only slightly blocked by the antagonists d-tubocurarine, mecamylamine, or dihydro-beta-erythroidine at concentrations that efficiently block alpha3 AChR function. Most of the nicotine-induced increase in alpha3 AChRs was found to be intracellular. The alpha3 AChRs, which accumulate intracellularly, were shown to have been previously exposed on the cell surface by their susceptibility to antigenic modulation. The data suggest that chronic exposure to nicotine may induce a conformation of cell surface alpha3 AChRs that at least in this cell line are consequently internalized but not immediately destroyed.
Molecular Pharmacology 06/1997; 51(5):776-84. · 4.88 Impact Factor
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ABSTRACT: Nicotinic acetylcholine receptors formed from combinations of alpha3, beta2, beta4, and alpha5 subunits are found in chicken ciliary ganglion neurons and some human neuroblastoma cell lines. We studied the co-expression of various combinations of cloned human alpha3, beta2, beta4, and alpha5 subunits in Xenopus oocytes. Expression on the surface membrane was found only for combinations of alpha3beta2, alpha3beta4, alpha3beta2alpha5, and alpha3beta4alpha5 subunits but not for other combinations of one, two, or three of these subunits. alpha5 subunits assembled inside the oocyte with beta2 but not with alpha3 subunits or other alpha5 subunits. alpha5 subunits coassembled very efficiently with alpha3beta2 or alpha3beta4 combinations. The presence of alpha5 subunits had very little effect on the binding affinities for epibatidine of receptors containing also alpha3 and beta2 or alpha3 and beta4 subunits. The presence of alpha5 subunits increased the rate of desensitization of both receptors containing also alpha3 and beta2 or alpha3 and beta4 subunits. In the case of receptors containing alpha3 and beta4 subunits, the addition of alpha5 subunits had little effect on the responses to acetylcholine or nicotine. However, in the case of receptors containing alpha3 and beta2 subunits, the addition of alpha5 subunits reduced the EC50 for acetylcholine from 28 to 0.5 microM and the EC50 for nicotine from 6.8 to 1.9 microM, while increasing the efficacy of nicotine from 50% on alpha3beta2 receptors to 100% on alpha3beta2alpha5 receptors. Both alpha3beta2 and alpha3beta2alpha5 receptors expressed in oocytes sedimented at the same 11 S value as native alpha3-containing receptors from the human neuroblastoma cell line SH-SY5Y. In the receptors from the neuroblastoma alpha3, beta2, and alpha5 subunits were co-assembled, and 56% of the receptor subtypes containing alpha3 subunits also contained beta2 subunits. The beta2 subunit-containing receptors from SH-SY5Y cells exhibited the high affinity for epibatidine characteristic of receptors formed from alpha3 and beta2 or alpha3, beta2, and alpha5 subunits rather than the low affinity exhibited by receptors formed from alpha3 and beta4 or alpha3, beta4, and alpha5 subunits. Nicotine, like the structurally similar toxin epibatidine, also distinguishes by binding affinity two subtypes of receptors containing alpha3 subunits in SH-SY5Y cells. The affinities of alpha3beta2 receptors expressed in oocytes were similar to the affinities of native alpha3 containing receptors from SH-SY5Y cells for acetylcholine, cytisine, and 1,1-dimethyl-4-phenylpiperazinium.
Journal of Biological Chemistry 08/1996; 271(30):17656-65. · 4.77 Impact Factor
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Progress in brain research 02/1996; 109:125-37. · 3.04 Impact Factor
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ABSTRACT: Pharmacological properties of the (+)- and (-)-isomers of synthetic epibatidine, exo-2-(6-chloro-3-pyridyl)-7-azabicyclo-[2.2.1]heptane, were compared with nicotine and acetylcholine on several subtypes of chicken and human nicotinic acetylcholine receptors (AChRs). Both isomers of epibatidine behaved as extremely potent full agonists on chicken (alpha 3 beta 2, alpha 3 beta 4, alpha 4 beta 2, alpha 7, and alpha 8) and human (alpha 3 beta 2, alpha 3 beta 4, and alpha 7) neuronal AChRs expressed in Xenopus oocytes. Currents induced by epibatidine were effectively blocked by the nicotinic antagonists hexamethonium and mecamylamine. Apparent affinity was 100 to 1000-fold higher for epibatidine than for nicotine or acetylcholine. EC50 values ranged from 1 nM (for homomeric chicken alpha 8) to 2 microM (for homomeric chicken alpha 7). Epibatidine showed comparatively lower affinity for muscle-type AChRs from Torpedo and humans (EC50 values, 1.6 and 16 microM respectively). In binding assays, epibatidine was used on AChR subtypes immunoisolated from chicken brain and retina (alpha 4 beta 2, alpha 7, and alpha 8), the human neuronal cell line SH-SY5Y (alpha 3 and alpha 7), Torpedo electric organ (alpha 1 beta 1 gamma delta), or the human rhabdomyosarcoma cell line TE671 (alpha 1 beta 1 gamma delta). Both isomers of epibatidine exhibited extremely high affinity for all neuronal AChRs tested, with KI values ranging from 0.6 pM (human alpha 3 AChRs) to 0.6 microM (chicken alpha 7 AChRs). In contrast, epibatidine had lower affinity for Torpedo muscle-type AChRs (KI approximately 5 microM). Racemic [3H]epibatidine was an effective labeling reagent for human alpha 3 beta 2 AChRs, exhibiting a KD (0.14 nM) similar to the KI values observed for unlabeled (+)-epibatidine (0.23 nM) or (-)-epibatidine (0.16 nM).
Molecular Pharmacology 11/1995; 48(4):774-82. · 4.88 Impact Factor
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Annals of the New York Academy of Sciences 06/1995; 757:100-16. · 3.15 Impact Factor
