Rescue of Amyloid-Beta-Induced Inhibition of Nicotinic Acetylcholine Receptors by a Peptide Homologous to the Nicotine Binding Domain of the Alpha 7 Subtype

Alzheimer''s disease (AD) is characterized by brain accumulation of the neurotoxic amyloid-β peptide (Aβ) and by loss of cholinergic neurons and nicotinic acetylcholine receptors (nAChRs). Recent evidence indicates that memory loss and cognitive decline in AD correlate better with the amount of soluble Aβ than with the extent of amyloid plaque deposits in affected brains. Inhibition of nAChRs by soluble Aβ40 is suggested to contribute to early cholinergic dysfunction in AD. Using phage display screening, we have previously identified a heptapeptide, termed IQ, homologous to most nAChR subtypes, binding with nanomolar affinity to soluble Aβ40 and blocking Aβ-induced inhibition of carbamylcholine-induced currents in PC12 cells expressing α7 nAChRs. Using alanine scanning mutagenesis and whole-cell current recording, we have now defined the amino acids in IQ essential for reversal of Aβ40 inhibition of carbamylcholine-induced responses in PC12 cells, mediated by α7 subtypes and other endogenously expressed nAChRs. We further investigated the effects of soluble Aβ, IQ and analogues of IQ on α3β4 nAChRs recombinantly expressed in HEK293 cells. Results show that nanomolar concentrations of soluble Aβ40 potently inhibit the function of α3β4 nAChRs, and that subsequent addition of IQ or its analogues does not reverse this effect. However, co-application of IQ makes the inhibition of α3β4 nAChRs by Aβ40 reversible. These findings indicate that Aβ40 inhibits different subtypes of nAChRs by interacting with specific receptor domains homologous to the IQ peptide, suggesting that IQ may be a lead for novel drugs to block the inhibition of cholinergic function in AD.     

烟碱型乙酰胆碱受体及其亚单位的结构功能

烟碱型乙酰胆碱受体是配体门控的离子通道蛋白,每个受体由5个亚单位组成,每个亚单位具有4个跨膜α螺旋结构域。通道孔由5个亚单位的M2结构域(α螺旋)环绕围成,它们放射状地排列,使通道孔在膜中部逐渐变细。另外15个α螺旋相互盘绕,构成通道的外环。至今已确认了17种亚单位,它们由一个共同起源的基因家族编码,在中枢神经系统、周围神经系统和肌肉组织广泛表达。众多的亚单位,再加上组织表达的特异性导致受体类型的多样性,结果使该受体具有广泛的生理、药理特性和功能。进年来,基因敲除等现代遗传操作技术提供了在体内研究各类型受体的有效手段,使人类对该受体及亚单位的结构和功能有了长足的认识。     

Calcium Regulation of Agonist Binding to α7-Type Nicotinic Acetylcholine Receptors in Adult and Fetal Rat Hippocampus

Abstract: Quantitative autoradiography was used to compare the binding properties of α7-type nicotinic acetylcholine receptors in fetal and adult rat hippocampus. Whereas there were high levels of ¹²⁵I-α-bungarotoxin (¹²⁵I-α-BTX) binding throughout fetal hippocampal field CA1, there was a significant decrease in binding site density in the adult. The affinity of ¹²⁵I-α-BTX binding, as well as α-cobratoxin and nicotine potency to displace ¹²⁵I-α-BTX, did not change with age. Addition of Ca²⁺ to the assay buffer did not alter ¹²⁵I-α-BTX binding, or α-cobratoxin inhibition of ¹²⁵I-α-BTX binding, although it significantly increased nicotine affinity at both ages. The effect of Ca²⁺ on agonist affinity was dose-dependent, with an EC₅₀ value of 0.25–0.5 m M . Ca²⁺ also significantly increased the cooperativity of nicotine displacement curves in stratum oriens of the adult, but not in the fetus. These findings indicate that the properties of hippocampal ¹²⁵I-α-BTX binding sites are largely similar across age. Ca²⁺ selectively enhances the affinity of agonist binding, with no change in antagonist binding. This ionic effect may result from potentiation of agonist binding to a desensitized state of the α7 nicotinic acetylcholine receptor and may represent an important neuroprotective mechanism.     

A Small Library of 1,2,3‐Triazole Analogs of CAP‐55: Synthesis and Binding Affinity at Nicotinic Acetylcholine Receptors

Alpha7 nicotinic acetylcholine receptor is emerging as a central regulator in inflammatory processes, as documented by increasing studies reported in the literature. For instance, the activation of this nicotinic receptor subtype in resident macrophages inhibits the production of pro‐inflammatory cytokines, thereby attenuating local inflammatory responses, and may open a new window in the treatment of chronic inflammatory disease, such as Crohn's disease, rheumatoid arthritis, psoriasis, and asthma. In continuation of our ongoing research for the development of new cholinergic drug candidates, we selected the nicotine derivative CAP55, which was previously shown to exert anti‐inflammatory effects via nicotinic stimulation, as a suitable compound for lead optimization. Through the isosteric replacement of its 3,5‐disubstituted 4,5‐dihydroisoxazole core with a 1,4‐disubstituted 1,2,3‐triazole ring, we could rapidly generate a small library of CAP55‐related analogs via a one‐pot copper(I)‐catalyzed azide‐alkyne cycloaddition. Receptor binding assays at nAChRs led to the identification of two promising derivatives, compounds 4 and 10 , worthy of further pharmacological studies.     

Architecture of the Neuronal Nicotinic Acetylcholine Receptor Ion Channel at the Binding Site of bis-Ammonium Blockers

Structure-activity relationships of 56 pentamethylenbis-ammonium compounds, the blockers of the neuronal nicotinic acetylcholine receptor (nAChR) ion channel, have been studied to estimate the cross-sectional dimensions of the channel pore. The cat superior cervical sympathetic ganglion in situ and isolated guinea pig ileum were used to evaluate the potency of the compounds to block ganglionic transmission. Minimum-energy conformations of each compound were calculated by the molecular mechanics method. A topographic model of the binding site of the blockers was proposed. It incorporates two narrowings, a large and a small one. The small narrowing is located between the large one and the cytoplasmic end of the pore. The cross-sectional dimensions of the large and small narrowings estimated from the dimensions of the blockers are 6.1 × 8.3 ? and 5.5 × 6.4 ?, respectively, the distance between the narrowings along the pore being approximately 7 ?. Most potent blockers would occlude the pore via binding to the channel at the levels of both narrowings. Less potent blockers are either too large or too small to bind to both narrowings simultaneously: large blockers would occlude the pore at the level of large narrowing, while small blockers would pass the large narrowing and occlude the pore at the level of small narrowing only. A comparison of the topographic model with a molecular five-helix bundle model of nAChR pore predicts Serine and Threonine rings to be the most probable candidates for the large and small narrowings, respectively. Received: 6 September 1995/Revised: 12 March 1996     

Differential Effects of Hypoxia on Ligand Binding Properties of Nicotinic and Muscarinic Acetylcholine Receptors on Cultured Bovine Adrenal Chromaffin Cells

Abstract: Hypoxia is known to disturb neuronal signal transmission at the synapse. Presynaptically, hypoxia is reported to suppress the release of neurotransmitters, but its postsynaptic effects, especially on the function of neurotransmitter receptors, have not yet been elucidated. To clarify the postsynaptic effects, we used cultured bovine adrenal chromaffin cells as a model of postsynaptic neurons and examined specific binding of l -[³H]nicotine (an agonist for nicotinic acetylcholine receptors: nAChRs) and ²²Na⁺ flux under control and hypoxic conditions. Experiments were performed in media preequilibrated with a gas mixture of either 21% O₂/79% N₂ (control) or 100% N₂ (hypoxia). Scatchard analysis of the specific binding to the cells revealed that the K_D under hypoxic conditions was twice as large as that under control conditions, whereas the B _max was unchanged. When the specific [³H]nicotine binding was kinetically analyzed, the association constant ( k ₁) but not the dissociation constant ( k ₋₁) was decreased to 40% of the control value by hypoxia. When the binding assay was performed using the membrane fraction, these changes were not observed. Nicotine-evoked ²²Na⁺ flux into the cells was suppressed by hypoxia. In contrast, specific [³H]quinuclidinyl benzilate binding to the intact cells was unaffected by hypoxia. These results demonstrate that hypoxia specifically suppresses the function of nAChRs (and hence, neuronal signal transmission through nAChRs), primarily by acting intracellularly.     

Messenger RNA Levels and Binding Sites of Muscarinic Acetylcholine Receptors in Gastrointestinal Muscle Layers from Healthy Dairy Cows

Acetylcholine interacts with muscarinic receptors (M) to mediate gastrointestinal (GI) smooth muscle contractions. We have compared mRNA levels and binding sites of M₁to M₅ in muscle tissues from fundus abomasi, pylorus, ileum, cecum, proximal loop of the ascending colon (PLAC), and external loop of the spiral colon (ELSC) of healthy dairy cows. The mRNA levels were measured by quantitative RT-PCR. The inhibition of [³H]-QNB (1-quinuclidinyl-[phenyl-4-³H]-benzilate) binding by M antagonists [atropine (M_{1 ? 5}), pirenzepine (M₁), methoctramine (M₂), 4-DAMP (M₃), and tropicamide (M₄)] was used to identify receptors at the functional level. Maximal binding (B_max) was determined through saturation binding with atropine as a competitor. The mRNA levels of M₁, M₂, M₃, and M₅ represented 0.2, 48, 50, and 1.8%, respectively, of the total M population, whereas mRNA of M₄ was undetectable. The mRNA levels of M₂ and of M₃ in the ileum were lower (P < 0.05) than in other GI locations, which were similar among each other. Atropine, pirenzepine, methoctramine, and 4-DAMP inhibited [³H]-QNB binding according to an either low- or high-affinity receptor pattern, whereas tropicamide had no effect on [³H]-QNB binding. The [³H]-QNB binding was dose-dependent and saturable. B_max in fundus, pylorus, and PLAC was lower (P < 0.05) than in the ELSC, and in the pylorus lower (P < 0.05) than in the ileum. B_max and mRNA levels were negatively correlated (r = -0.3; P < 0.05). In conclusion, densities of M are different among GI locations, suggesting variable importance of M for digestive functions along the GI tract.     

Determinants of Phencyclidine Potency on the Nicotinic Acetylcholine Receptors from Muscle and Electric Organ

1.Phencyclidine (PCP) is an inhibitor of the nicotinic acetylcholine receptor (AChR) with characteristics of an open-channel blocker. The location of PCP binding site on the AChR molecule is unknown.2.PCP inhibits the AChR from electric organ with a higher potency than muscle AChR. To find the molecular basis of this difference, we expressed the two native and six hybrid receptors, and two receptors containing mutated mouse subunits in Xenopus laevis oocytes. The inhibition of ACh-induced current in these receptors by PCP was studied using whole-cell voltage-clamp. All hybrid receptors generated robust ACh-induced currents, while incomplete receptors (-less or -less) did not.3.PCP potency was higher on hybrids containing Torpedo and subunits regardless of the and subunit origin. A mouse subunit containing the asparagine 6 to the serine mutation in the M2 segment conferred a high sensitivity to PCP.4.These results support the conclusion that the amino acid residues at the position 6 of the M2 segments contribute to the PCP potency difference between Torpedo and mouse receptors.5.Another noncompetitive inhibitor of the AChR, the cembranoid eupalmerin acetate (EUAC), also inhibited the electric organ receptor with a somewhat higher potency than muscle AChR. However, the IC₅₀ values for EUAC inhibition of hybrid receptors did not follow the pattern observed for PCP. Therefore, these two inhibitors interact differently with the AChR molecule.     

Characterization and Localization of Adrenal Nicotinic Acetylcholine Receptors: Evidence that mAb35-Nicotinic Receptors Are the Principal Receptors Mediating Adrenal Catecholamine Secretion

Abstract: Adrenal chromaffin cells contain at least two subtypes of nicotinic acetylcholine receptors (nAChRs). These studies were designed to identify and characterize the subtype of nAChR mediating adrenal catecholamine release using the monoclonal antibody mAb35, which recognizes the α-subunit of muscle nAChRs and cross-reacts with some neuronal nAChRs. Immunocytochemical studies demonstrated that mAb35 interacts with specific sites on cultured chromaffin cells. Pretreatment with mAb35 reduced nAChR-stimulated catecholamine release (IC₅₀ of ∼10 n M ). mAb35 had no effects on release stimulated through non-nAChR mechanisms. Unlike agonist-induced nAChR desensitization, the mAb35-induced reduction in nAChR-mediated secretion developed slowly. Although not immediately reversible, nAChR-stimulated release recovered after mAb35 removal. However, unlike recovery from agonist pretreatment, recovery from mAb35 pretreatment was relatively slow and was partially blocked by vinblastine. Hybridization of adrenal chromaffin RNA with a rat α3 cDNA revealed two strong bands and two fainter bands: two higher-molecular-weight bands, 6.9 and 8.5 kb; a strong band of 3.2 kb; and a lower amount of a 2.3-kb RNA. With recovery of nAChR function after agonist or mAb35 treatment, no significant effects on α3 subunit mRNA levels were seen. In summary, these studies demonstrate the presence of mAb35-nAChRs on adrenal chromaffin cells and provide evidence that these receptors represent the major population that regulates secretory events in adrenal chromaffin cells.     

Functional Neurochemical Evidence for the Presence of Presynaptic Nicotinic Acetylcholine Receptors at the Terminal Region of Myenteric Motoneurons: A Study with Epibatidine

The aim of this study was to verify the presence of presynaptic nicotinic acetylcholine receptors (nAChRs) at the terminals of myenteric motoneurons using a potent and highly selective nicotinic agonist, epibatidine. We examined contraction, and release of [³H]ACh on a guinea-pig longitudinal muscle strip preparation. First, we compared the ability of epibatidine and nicotine to induce isometric contraction and found epibatidine (EC₅₀ = 23.1 nM) to be 300-fold more potent than nicotine (EC₅₀ = 7.09 M). The release and contraction induced by 30 nM epibatidine were inhibited by the nicotinic antagonist mecamylamine (3 M) and the Na1-channel blocker TTX (1 M), indicating that the effects are mediated via nAChRs and are fully dependent on the propagation of action potentials. Atropine (0.1 M) significantly increased the [³H]ACh release but could not block contraction suggesting that a substantial part of the response develops via a noncholinergic mechanism. Epibatidine at a higher concentration (300 nM) induced contraction, which was only partly (45%) inhibited by TTX (1 M). The TTX-resistant contraction, however, was completely blocked by mecamylamine (3 M). Our data provide functional neurochemical evidence for the existence of presynaptic nAChRs at myenteric motoneuron terminals and suggest that these receptors can be activated only/by a higher concentration of agonists.     

Agonist and Antagonist Binding of Muscarinic Acetylcholine Receptors Purified from Porcine Brain: Interconversion of High- and Low-Affinity Sites by Sulfhydryl Reagents

The affinity for muscarinic ligands of a preparation of muscarinic acetylcholine receptors purified from porcine brain was examined by means of competitive binding of [3H]quinuclidinylbenzylate and unlabeled ligands, followed by computer-assisted nonlinear regression analysis. The displacements by antagonists fitted a single-site model. In contrast, the displacements by agonists did not fit the single-site model and could be explained by assuming two populations of binding sites. The proportion of the sites with high affinity for muscarinic agonists (H-sites) ranged from 25 to 35% of the total number of sites. GTP had no effect on the displacements by agonists, a finding indicating that H-sites did not result from interaction between receptors and GTP-binding proteins. In the presence of dithiothreitol, the affinity for muscarinic ligands decreased. The largest effects were observed on the affinity for pirenzepine and that of H-sites for carbachol. Preincubation of the preparation with 5,5'-dithiobis(2-nitrobenzoic acid) resulted in an increase in the proportion of H-sites to 75% of the total number of binding sites. The results of sucrose density gradient centrifugation of the preparation indicated apparent heterogeneity as to molecular size of the receptors, but this heterogeneity did not correlate with that of the affinity for agonists. In addition, the receptors were detected as a single band on sodium dodecyl sulfate-polyacrylamide gel electrophoresis of the preparation, regardless of the presence or absence of disulfide-reducing reagents. These results suggest that the redox state of thiol groups in the receptor molecules is relevant to their affinities for ligands.(ABSTRACT TRUNCATED AT 250 WORDS)     

Minireview: Nicotinic Acetylcholine Receptors on Hippocampal Neurons: Distribution on the Neuronal Surface and Modulation of Receptor Activity

Abstract

The recent development of a technique that uses infrared microscopy for the visualization of well-defined areas on the surface of neurons, and a computerized system of micromanipulators led to the discovery that functional nicotinic acetylcholine receptors (nAChRs) are expressed at higher density on the dendrites than on the soma of rat hippocampal neurons. The finding that the expression of α-bungarotoxin-sensitive, α7-bearing, nAChRs and dihydro-β-erythroidine-sensitive,α4β2 nAChRs tends to increase along the dendritic length suggests that these receptors may be highly involved in the integration of synaptic functions in hippocampal neurons. The present report also discusses the finding that ligands such as the anticholinesterase galanthamine can modulate the nAChR activity by binding to a novel receptor site, and that 5-hydroxytryptamine (5-HT) may serve as an endogenous ligand for this site. The ability of 5-HT to modulate the nAChR function in vivo supports the concept that the overall CNS function is determined not only by the neuronal network established by the neuronal wiring, but also by a chemical network established by the ability of a single substance to act as the primary neurotransmitter in one system and as a co-transmitter in another system.     

Two Classes of [3H]Spiperone Binding Sites in Bovine Neurohypophysis: D-2 Receptors and Putative 5-Ht2 Receptors

Abstract

Binding of [³H]spiperone was studied in membranes obtained from bovine neurohypophyses devoid of intermediate lobe tissue. Non-linear Scatchard plot suggested the presence of more than a single class of binding sites. Competition experiments using ketanserin, a ligand selective for 5-HT₂ receptors, were carried out to ascertain whether serotonergic, in addition to dopaminergic receptors, might be responsible for the heterogeneity of [³H]spiperone binding. Computer-assisted modeling suggested the presence of two classes of binding sites for ketanserin (K_a = 1.6 ± 0.2 and 366.7 ± 20.5 nM, respectively). The K_a value for ketanserin binding to the high-affinity sites, as well as the K_a of [³H]spiperone for these sites suggested by the 2 sites model indicate that they represent serotonin 5-HT₂ receptors. The [³H]spiperone K_a at the ketanserin low-affinity sites (65 ± 7 pM) and the rank order of inhibitory potencies for several antagonists show that the lowaffinity sites represent dopamine D-2 receptors.     

Nicotinic Acetylcholine Receptors Control Encoding and Retrieval of Associative Recognition Memory through Plasticity in the Medial Prefrontal Cortex

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Location in Muscarinic Acetylcholine Receptors of Sites for [3H]Propylbenzilcholine Mustard Binding and for Phosphorylation with Protein Kinase C

Muscarinic acetylcholine receptors purified from porcine cerebra or atria were covalently labeled with [3H]propylbenzilylcholine mustard ([3H]PrBCM), and then the labeled receptors were subjected to limited hydrolysis with trypsin, V8 protease, and lysyl endopeptidase, followed by analysis involving sodium dodecyl sulfate-polyacrylamide gel electrophoresis, fluorography, autoradiography, or immunostaining. The labeled peptides were located on the basis of their reactivity with antibodies raised against three synthetic peptides with partial sequences of the m1 or m2 receptor, and of their sensitivity to endoglycosidase F, which was taken as evidence that they contain glycosylation sites near the N terminus. The [3H]PrBCM-binding site in both cerebral and atrial receptors was found to be located between the N terminus and the second intracellular loop, because the size of the smallest deglycosylated peptide that contained both the [3H]PrBCM-binding and glycosylation sites was approximately 16 kDa. Cerebral receptors were 32P-phosphorylated with protein kinase C, and the major phosphorylation sites in cerebral muscarinic receptors were found to be located in a C-terminal segment including a part of the third intracellular loop, because a 32P-labeled peptide of 12-14 kDa reacted with anti-(m1 C-terminal peptide) antiserum. The presence of an intramolecular disulfide bond, probably between Cys 98 and Cys 178 in the first and second extracellular loops, respectively, was suggested by the finding that a peptide of approximately 17 kDa containing the [3H]PrBCM-binding site, but not the glycosylation sites, was partly converted to a peptide of approximately 12 kDa on treatment with beta-mercaptoethanol.     

Neuronal Nicotinic Acetylcholine Receptors in Drosophila: Antibodies Against an α-Like and a Non-α-Subunit Recognize the Same High-Affinity α-Bungarotoxin Binding Complex

ALS and ARD proteins are thought to represent a ligand binding and a structural subunit, respectively, of Drosophila nicotinic acetylcholine receptors (nAChRs). Here, antibodies raised against fusion constructs encompassing specific regions of the ALS and ARD proteins were used to investigate a potential association of these two polypeptides. Both ALS and ARD antisera removed 20-30% of the high-affinity binding sites for the nicotinic antagonist 125I-alpha-bungarotoxin (125I-alpha-Btx) from detergent extracts of fly head membranes. Combinations of both types of antisera also precipitated the same fraction of alpha-Btx binding sites, a result suggesting that both polypeptides are components of the previously defined class I 125I-alpha-Btx binding sites in the Drosophila CNS. 125I-alpha-Btx binding to a MS2 polymerase-ALS fusion protein containing the predicted antagonist binding region showed that the ALS protein indeed constitutes the ligand binding subunit of a nicotinic receptor complex. These data are consistent with neuronal nAChRs in Drosophila containing at least two types of subunits, ligand binding and structural ones.     

Neonicotinoid Binding,Toxicity and Expression of Nicotinic Acetylcholine Receptor Subunits in the Aphid Acyrthosiphon pisum

Neonicotinoid insecticides act on nicotinic acetylcholine receptor and are particularly effective against sucking pests. They are widely used in crops protection to fight against aphids, which cause severe damage. In the present study we evaluated the susceptibility of the pea aphid Acyrthosiphon pisum to the commonly used neonicotinoid insecticides imidacloprid (IMI), thiamethoxam (TMX) and clothianidin (CLT). Binding studies on aphid membrane preparations revealed the existence of high and low-affinity binding sites for [³H]-IMI (Kd of 0.16±0.04 nM and 41.7±5.9 nM) and for the nicotinic antagonist [¹²⁵I]-α-bungarotoxin (Kd of 0.008±0.002 nM and 1.135±0.213 nM). Competitive binding experiments demonstrated that TMX displayed a higher affinity than IMI for [¹²⁵I]-α-bungarotoxin binding sites while CLT affinity was similar for both [¹²⁵I]-α-bungarotoxin and [³H]-IMI binding sites. Interestingly, toxicological studies revealed that at 48 h, IMI (LC₅₀ = 0.038 µg/ml) and TMX (LC₅₀ = 0.034 µg/ml) were more toxic than CLT (LC₅₀ = 0.118 µg/ml). The effect of TMX could be associated to its metabolite CLT as demonstrated by HPLC/MS analysis. In addition, we found that aphid larvae treated either with IMI, TMX or CLT showed a strong variation of nAChR subunit expression. Using semi-quantitative PCR experiments, we detected for all insecticides an increase of Apisumα10 and Apisumβ1 expressions levels, whereas Apisumβ2 expression decreased. Moreover, some other receptor subunits seemed to be differently regulated according to the insecticide used. Finally, we also demonstrated that nAChR subunit expression differed during pea aphid development. Altogether these results highlight species specificity that should be taken into account in pest management strategies.