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1.
20% of the acetylcholine receptors in cultured chick skeletal muscle remain unbound following long-term growth of muscle in medium containing a potent, essentially irreversible receptor-blocking agent, α-bungarotoxin. About half the receptors which are unavailable for interaction with extracellular α-bungarotoxin are newly synthesized molecules which presumably are being processed and transported to the plasma membrane. When the muscle cultures are switched to a medium containing 2H, 13C, 15N-amino acids, these receptors are rapidly labeled, the fraction of labeled molecules beginning to plateau at 3 hr. Few labeled receptors appear in the plasma membrane during the first 3 hr of labeling with 2H, 13C, 15N-amino acids. After 3.5 hr of labeling, virtually all the receptors being incorporated into the plasma membrane are labeled receptors. The kinetics of labeling of the “pool” and “surface” receptors with 2H, 13C, 15N-amino acids confirm the “precursor-product” type relationship of pool and surface acetylcholine receptors.In this study, receptors synthesized in medium containing 2H, 13C, 15N-amino acids were resolved from 1H, 12C, 14N-receptors by velocity sedimentation in sucrose-deuterium oxide and sucrose-H2O gradients, and their densities were estimated from sedimentation rates in shallow gradients of various average density. Estimated densities were 1.32 g/cm3 for 1H, 12C, 14N-receptors and 1.41 g/cm3 for 2H, 13C, 15N-receptors. This density difference corresponds to 80% substitution of normal aminoacyl residues by 2H, 13C, 15N-residues in the denser receptor.  相似文献   

2.
alpha-Bungarotoxin was used to identify an integral membrane protein in the plasma membrane of chick sympathetic neurons. The synthesis, insertion into the plasma membrane, and turnover of the alpha-bungarotoxin receptor were studied using isotopically labeled amino acids (2H, 13C, 15N) to directly label receptor molecules. Neurons incubated in medium containing dense amino acids continued to insert unlabeled receptors from a pool of previously synthesized molecules for 2 h. Density-labeled receptors began to appear in the plasma membrane after this 2-h period. Synthesis of receptors, but not insertion into the surface, was blocked by cycloheximide (100 microgram/ml). Neither colchicine (0.05 microgram/ml) of actinomycin D (5 microgram/ml) has any effect on alpha-bungarotoxin receptor synthesis or insertion. Autoradiographic studied revealed that receptors occur on growth cones, axons, and cell bodies of single neurons and explanted ganglia. The rate of insertion of newly synthesized receptors into the plasma membrane of axons extending from explanted sympathetic ganglia was approximately the same as that into the cell body portion of the ganglion. Cytochalasin B (2 microgram/ml) rapidly distrupted growth cones but had no effect on receptor insertion. These experiments suggested that the growth cone is not the sole or even the primary site for insertion of this membrane protein. The kinetics of turnover of the alpha-bungarotoxin receptor were a first-order exponential with t 1/2 = 11 h. Neurons that had their surface receptors labeled with 125I-alpha-bungarotoxin produced [125I]iodotyrosine. This process was inhibited by low temperature (23 degrees C) and also by a metabolic inhibitor. This is interpreted as evidence that receptors turn over by a mechanism in which they are internalized and then proteolytically degraded.  相似文献   

3.
We have studied putative nicotinic acetylcholine receptors in the optic lobe of the newborn chick, using 125I-labeled alpha-bungarotoxin, a specific blocker of acetylcholine receptors in the neuromuscular junction, and [3H]acetylcholine, a ligand which in the presence of atropine selectively labels binding sites of nicotinic character in rat brain cortex (Schwartz et al., 1982). [3H]Acetylcholine binds reversibly to a single class of high affinity binding sites (KD = 2.2 X 10(-8) M) which occur at a tissue concentration of 5.7 pmol/g. A large fraction (approximately 60%) of these binding sites is solubilized by Triton X-100, sodium cholate, or the zwitterionic detergent 3-[(3-cholamidopropyl)dimethylammonio]-1-propanesulfonate. Solubilization increases the affinity for acetylcholine and several nicotinic drugs from 1.5- to 7-fold. The acetylcholine-binding macromolecule resembles the receptor for alpha-bungarotoxin present in the same tissue with respect to subcellular distribution, hydrodynamic properties, lectin binding, and agonist affinity rank order. It differs from the toxin receptor in affinity for nicotinic antagonists, sensitivity to thermal inactivation, and regional distribution. The solubilized [3H]acetylcholine binding activity is separated from the toxin receptor by incubation with agarose-linked acetylcholine, by affinity chromatography on immobilized Naja naja siamensis alpha-toxin, and by precipitation with a monoclonal antibody to chick optic lobe toxin receptor.  相似文献   

4.
Immunohistochemical studies have previously shown that both the chick brain and chick ciliary ganglion neurons contain a component which shares antigenic determinants with the main immunogenic region of the nicotinic acetylcholine receptor from electric organ and skeletal muscle. Here we describe the purification and initial characterization of this putative neuronal acetylcholine receptor. The component was purified by monoclonal antibody affinity chromatography. The solubilized component sediments on sucrose gradients as a species slightly larger than Torpedo acetylcholine receptor monomers. It was affinity labeled with bromo[3H]acetylcholine. Labeling was prevented by carbachol, but not by alpha-bungarotoxin. Two subunits could be detected in the affinity-purified component, apparent molecular weights 48 000 and 59 000. The 48 000 molecular weight subunit was bound both by a monoclonal antibody directed against the main immunogenic region of electric organ and skeletal muscle acetylcholine receptor and by antisera raised against the alpha subunit of Torpedo receptor. Evidence suggests that there are two alpha subunits in the brain component. Antisera from rats immunized with the purified brain component exhibited little or no cross-reactivity with Torpedo electric organ or chick muscle acetylcholine receptor. One antiserum did, however, specifically bind to all four subunits of Torpedo receptor. Experiments to be described elsewhere (J. Stollberg et al., unpublished results) show that antisera to the purified brain component specifically inhibit the electrophysiological function of acetylcholine receptors in chick ciliary ganglion neurons without inhibiting the function of acetylcholine receptors in chick muscle cells. All of these properties suggest that this component is a neuronal nicotinic acetylcholine receptor with limited structural homology to muscle nicotinic acetylcholine receptor.  相似文献   

5.
A role for acetylcholine receptors in the fusion of chick myoblasts   总被引:5,自引:3,他引:2       下载免费PDF全文
The role of acetylcholine receptors in the control of chick myoblast fusion in culture has been explored. Spontaneous fusion of myoblasts was inhibited by the nicotinic acetylcholine receptor antagonists alpha-bungarotoxin, Naja naja toxin and monoclonal antibody mcAb 5.5. The muscarinic antagonists QNB and n-methyl scopolamine were without effect. Atropine had no effect below 1 microM, where it blocks muscarinic receptors; at higher concentrations, when it blocks nicotinic receptors also, atropine inhibited myoblast fusion. The inhibitions imposed by acetylcholine receptor antagonists lasted for approximately 12 h; fusion stimulated by other endogenous substances then took over. The inhibition was limited to myoblast fusion. The increases in cell number, DNA content, the level of creatine phosphokinase activity (both total and muscle-specific isozyme) and the appearance of heavy chain myosin, which accompany muscle differentiation, followed a normal time course. Pre-fusion myoblasts, fusing myoblasts, and young myotubes specifically bound labeled alpha-bungarotoxin, indicating the presence of acetylcholine receptors. The nicotinic acetylcholine receptor agonist, carbachol, induced uptake of [14C]Guanidinium through the acetylcholine receptor. Myoblasts, aligned myoblasts and young myotubes expressed the synthetic enzyme Choline acetyltransferase and stained positively with antibodies against acetylcholine. The appearance of ChAT activity in myogenic cultures was prevented by treatment with BUDR; nonmyogenic cells in the cultures expressed ChAT at a level which was too low to account for the activity in myogenic cultures. We conclude that activation of the nicotinic acetylcholine receptor is part of the mechanism controlling spontaneous myoblast fusion and that myoblasts synthesize an endogenous, fusion-inducing agent that activates the nicotinic ACh receptor.  相似文献   

6.
1. Intact synaptic acetylcholine receptors on freshly isolated rat skeletal-muscle fibres were characterized by their interaction with di-iodinated 125I-labelled alpha-bungarotoxin, acetylcholine and other cholinergic ligands at room temperature (22 deggrees C). 2. The time course and concentration dependence of 125I-labelled alpha-bungarotoxin association conformed to a bimolecular mechanism. In time-course experiments with different concentrations of 125I-labelled alpha-bungarotoxin (1.4--200 nM) the bimolecular-association rate constant, k + 1, was (2.27 +/- 0.49) x 10(4)M-1.S-1 (mean +/- S.D., N = 10). In concentration-dependence experiments, k + 1 was 2.10 x 10(4)M-1.S-1 and 1.74 x 10(4) M-1.S-1 with 10 and 135 min incubations respectively. In association experiments the first-order rate constant was proportional to the 125I-labelled alpha-bungarotoxin concentration. 125I-Labelled alpha-bungarotoxin dissociation was first order with a dissociation constant, k-1, less than or equal to 3 x 10(-6)S(-1) (half-life greater than or equal to 60 h.) The results indicated a single class of high-affinity toxin-binding sites at the end-plate with an equilibrium dissociation constant, Kd, equal to or less than 100 pM. The number of toxin-binding sites was (3.62 +/- 0.46) x 10(7) (mean +/- S.D., n = 22) per rat end-plate. 3. The apparent inhibitor dissociation constants, Ki, for reversible cholinergic ligands were determined by studying their effect at equilibrium on the rate of 125I-labelled alpha-bungarotoxin binding. There was heterogeneity of binding sites for cholinergic ligands, which were independent and non-interacting with antagonists. In contrast agonist affinity decreased with increasing receptor occupancy. Cholinergic ligands in excess inhibited over 90% of 125I-labelled alpha-bungarotoxin binding. 4. Cholinergic ligand binding was accompanied by an increase in entropy, which was greater for the agonist carbachol (delta So = +0.46 kJ.mol-1.K-1) than the antagonist tubocurarine (delta So = +0.26 kJ.mol-1.K-1). 5. The entropy and affinity changes that accompanied agonist binding suggested that agonists induced significant conformational changes in intact acetylcholine receptors. 6. The affinity and specificity of 125I-labelled alpha-bungarotoxin and tubocurarine binding to synaptic acetylcholine receptors from slow and fast muscle fibres were the same. 7. The study of binding only requires milligram amounts of tissue and may have application to other neurobiological studies and to the study of human neuromuscular disorders.  相似文献   

7.
8.
The nerve cord of the cockroach (Periplaneta americana) contains distinct saturable components of specific binding for the ligands N-[propionyl-3H]propionylated alpha-bungarotoxin and L-[benzilic-4,4'-3H]quinuclidinyl benzilate. N-[Propionyl-3H]propionylated alpha-bungarotoxin bound reversibly to homogenates with a Kd of 4.8 nM and Bmax of 910 fmol mg-1. The association rate constant (1.9 X 10(5) M-1 s-1) and dissociation rate constant (1.2 X 10(-4) s-1) yielded a Kd of 0.6 nM. Nicotinic ligands were found to displace toxin binding most effectively. The binding sites characterized in this way showed many similarities with the properties of the vertebrate neuronal alpha-bungarotoxin binding site. For a range of cholinergic ligands, inhibition constants calculated from toxin binding studies closely corresponded to their effectiveness in blocking the depolarizing response to acetylcholine recorded by electrophysiological methods from an identified cockroach motoneurone. The N-[propionyl-3H]propionylated alpha-bungarotoxin binding component therefore appears to be a constituent of a functional CNS acetylcholine receptor. Binding of L-[benzilic-4,4'-3H]quinuclidinyl benzilate was reversible with a Kd of 8 nM and Bmax of 138 fmol mg-1, determined from equilibrium binding experiments. The Kd calculated from the association rate constant (2.4 X 10(5) M-1 s-1) and dissociation rate constant (1.3 X 10(-4) s-1) was 1.9 nM. Muscarinic ligands were the most potent inhibitors of quinuclidinyl benzilate binding. The characteristics of this binding site resembled those of vertebrate CNS muscarinic cholinergic receptors. In contrast with vertebrate CNS, the nerve cord of Periplaneta americana contains more (approximately X 7) alpha-bungarotoxin binding sites than quinuclidinyl benzilate binding sites.  相似文献   

9.
We have determined whether the process of agonist-mediated phosphorylation of the muscarinic receptor correlates with the process of muscarinic receptor desensitization in chick cardiac tissue. Exposure of ventricular slices to the agonist carbachol under conditions previously shown to lead to large increases in muscarinic receptor phosphorylation (Kwatra, M. M., and Hosey, M. M. (1986) J. Biol. Chem. 261, 12429-12432) resulted in decreased affinity of the muscarinic receptor for agonists. The agonist oxotremorine mimicked and the antagonist atropine prevented the effects of carbachol on receptor phosphorylation and agonist affinity. The time courses and concentration dependences for agonists to induce phosphorylation of the muscarinic receptor and decreases in agonist affinity were similar. Treatment of chick atria with acetylcholine under conditions which led to receptor phosphorylation resulted in decreased sensitivity of these preparations to the negative inotropic effect of carbachol. Taken together, the results support the concept that phosphorylation of cardiac muscarinic receptors may be related to the process of receptor desensitization. The mechanism by which agonists induce receptor phosphorylation was also investigated. The phosphorylated amino acids formed in response to agonists were serine and threonine. The protein kinase C activator phorbol myristate acetate had no effect on receptor phosphorylation or agonist affinity, nor did it prevent the effects of carbachol on either of these parameters. Receptor phosphorylation also was unaffected by the calmodulin antagonists W-7 and W-13, by elevation of cyclic nucleotides, and by agonists which activate other cardiac receptor systems. The results suggest that the phosphorylation of cardiac muscarinic receptors requires agonist occupancy of the receptor and/or may involve the participation of a selective protein kinase.  相似文献   

10.
Carbamidomethylation of the reduced Cys29-Cys33 bridge of alpha-bungarotoxin (Bungarus multicinctus postsynaptic neurotoxin) did not alter the LD50 or irreversibility of the toxin, while carboxymethylated alpha-bungarotoxin was less potent and its neuromuscular blocking action in mouse diaphragm was reversible. The circular dichroic spectra of both modified toxins were similar but slightly different from that of native toxin. Neuromuscular transmission in the chick biventer cervicis nerve-muscle preparation could be blocked by the carboxymethylated toxin, and reactivated by washing, whereas the response of the muscle to extrinsic acetylcholine could also be blocked but was hardly restored by washing. These results suggest that carboxymethylated toxin can differentiate between junctional and extrajunctional acetylcholine receptors in chick skeletal muscle.  相似文献   

11.
Four stable, hybrid-cell lines secreting monoclonal antibodies to distinct determinants on the nicotinic acetylcholine receptor from chick muscle have been established. These were characterised by the following criteria: immunoglobulin isotype, ability to produce experimental autoimmune myasthenia gravis in mice and reactivity towards homologous and heterologous acetylcholine receptor proteins. Two monoclonal antibodies were found to inhibit the reaction of alpha-bungarotoxin with homologous acetylcholine receptor; in addition one of these, on binding to receptor-toxin, induced a rapid dissociation of the complex (t1/2 = 0.5 h at 23 degrees C). Three of the antibody preparations recognised epitopes on this receptor from muscle of other species and two of these caused experimental autoimmune myasthenia gravis in BALB/c mice following passive transfer. The latter two recognised to significant extents the alpha-bungarotoxin binding component purified from chick optic lobe and brain cortex. Sedimentation analysis demonstrated that two of the monoclonal antibodies form a distinct size (s20, w = 12S) of complex with the receptor of chick muscle which most probably corresponds to a 1:1 attachment of antibody and receptor; this may involve cross-linking of two determinants within the same oligomer. A similar observation was made with the alpha-bungarotoxin binding component from optic lobe using one of the cross-reacting antibodies. Another monoclonal antibody was found to be capable of forming much heavier complexes with the receptor from chick muscle, these are thought to involve inter-molecular cross-linking of oligomers. The observed properties of these antibodies are discussed in relation to their myasthenogenicity and with reference to the extent of structural similarities between the peripheral nicotinic acetylcholine receptor and the alpha-bungarotoxin binding protein from brain.  相似文献   

12.
Activation of M3 muscarinic receptors in HT-29 cells by carbachol rapidly increases polyphosphoinositide breakdown. Pretreatment of these cells with carbachol (0.1 mM) for 5 h completely inhibits the subsequent ability of carbachol to increase [3H]inositol monophosphate ([3H]InsP) accumulation, paralleled by a total loss of muscarinic binding sites. In contrast, protein kinase C (PK-C)-mediated desensitization by incubation with phorbol esters [PMA (phorbol 12-myristate 13-acetate)], leading to a time- and dose-dependent inhibition of cholinergically stimulated InsP release (95% inhibition after 4 h with 0.1 microM-PMA), is accompanied by only a 40% decrease in muscarinic receptor binding, which suggests an additional mechanism of negative-feedback control. Neither carbachol nor PMA pretreatment had any effect on receptor affinity. Incubation with carbachol for 15 min caused a small increase of membrane-associated PK-C activity (15% increase, P less than 0.05) as compared with the potency of phorbol esters (PMA) (3-4-fold increase, P less than 0.01). Long-term incubation (4-24 h) with PMA resulted in a complete down-regulation of cytosolic and particulate PK-C activity. Stimulation of InsP release by NaF (20 mM) was not affected after a pretreatment with phorbol esters or carbachol, demonstrating an intact function of G-protein and phospholipase-C (PL-C) at the effector side. Determination of PL-C activity in a liposomal system with [3H]PtdInsP2 as substrate, showed no change in PL-C activity after carbachol (13 h) and short-term PMA (2.5 h) pretreatment, whereas long-term preincubation with phorbol esters (13 h) caused a small but significant decrease in PL-C activity (19%, P less than 0.05). Our results indicate that agonist-induced desensitization of phosphoinositide turnover occurs predominantly at the receptor level, with a rapid loss of muscarinic receptors. Exogenous activation of PK-C by phorbol esters seems to dissociate the interaction between receptor and G-protein/PL-C, without major effects on total cellular PL-C activity.  相似文献   

13.
Acetylcholine treatment of [3H]inositol pre-labelled cultured chick embryo myotubes results in the stimulation of phosphatidylinositol breakdown, as shown by the measurement of inositol-1-phosphate accumulating in the presence of lithium. The described effect is dependent on agonist concentration and incubation time, and is inhibited by tubocurarine and alpha-bungarotoxin. The activation of phosphatidylinositol breakdown by acetylcholine at extrajunctional nicotinic receptors is likely to be involved in the modulation of the functional activity of the receptor.  相似文献   

14.
A human neuroblastoma cell line, IMR32, has been characterized as far as morphology, membrane receptors for neurotransmitters, and uptake and release of [3H]3,4-dihydroxyphenylethylamine ([3H]dopamine). These cells expressed at their surface both nicotinic and muscarinic cholinergic receptors, revealed by [125I]alpha-bungarotoxin and [3H]quinuclidinylbenzilate ([3H]QNB) binding, respectively. [125I]alpha-Bungarotoxin binding was efficiently inhibited by alpha-bungarotoxin, nicotine, carbachol, and d-tubocurarine. [3H]QNB binding was competitively inhibited by atropine, pirenzepine, and carbachol. Hexamethonium did not affect the binding of either ligand. In competition experiments with [3H]QNB, pirenzepine recognized only one binding site with "low affinity," and carbachol recognized two sites with different affinities. beta-adrenergic receptors were present in a very low amount, whereas alpha-adrenergic and dopaminergic receptors were not detectable. IMR32 cells had an imipramine-sensitive [3H]dopamine uptake, but carbachol, high levels of K+, the calcium ionophore A23187, and alpha-latrotoxin were not able to induce release of [3H]dopamine that had been taken up. The ultrastructural analysis showed that IMR32 cells contained very few dense-core vesicles, suggesting a low storage capacity for neurotransmitter. These cells could be an useful in vitro model for studying neurotransmitter receptors of the human CNS.  相似文献   

15.
Functional properties of acetylcholine receptors from intact TE671 human medulloblastoma cells were examined using tracer ion flux, ligand competition against 125I-labeled alpha-bungarotoxin binding, and single channel recording measurements. 125I-Labeled alpha-bungarotoxin binds to surface receptors with the forward rate constant 1.8 X 10(5) M-1 s-1 and dissociates with the rate constant 4.6 X 10(-5) s-1, at 21 degrees C; the apparent dissociation constant is 2.6 X 10(-10) M. alpha-Bungarotoxin binds to at least two sites/receptor, but blocks agonist-induced 22Na+ uptake when bound to only one site. The reversible antagonists, dimethyl-d-tubocurarine and gallamine, occupy two sites which exhibit nearly equivalent affinities, but block agonist-induced uptake by occupying only one site. Strong agonists activate rapid sodium uptake with relatively low affinity, but desensitize with a much higher affinity; among agonists, the ratio of low to high affinity dissociation constants ranges from 1600 to 4000. By using the estimated dissociation constants, the allosteric model of Monod, Wyman, and Changeux (MWC) can be fitted to the concentration dependencies of both steady-state agonist occupancy and desensitization. The fitting analysis discloses an allosteric constant of 3 X 10(-5), which is the ratio of activatable to desensitized receptors in the absence of agonist. The rate of recovery from desensitization can exceed the rate of onset of desensitization elicited by low concentrations of agonist, further supporting the general MWC framework. Single channel recordings show that the channel opening probability is greater than 0.7 at high agonist concentrations. Favorable channel opening is shown to only slightly oppose strong desensitization.  相似文献   

16.
Presynaptic nicotinic acetylcholine receptors on striatal nerve terminals modulate the release of dopamine. We have compared the effects of a number of nicotinic agonists and antagonists on a perfused synaptosome preparation preloaded with [3H]dopamine. (-)-Nicotine, acetylcholine, and the nicotinic agonists cytisine and 1,1-dimethyl-4-phenylpiperazinium iodide (DMPP), at micromolar concentrations, stimulated the release of [3H]dopamine from striatal nerve terminals. Carbamylcholine was a much weaker agonist. The actions of (-)-nicotine, cytisine, and DMPP were inhibited by low concentrations of the nicotinic antagonists dihydro-beta-erythroidine, mecamylamine, pempidine, and neosurugatoxin; alpha-bungarotoxin was without effect, and extending the time of exposure to this toxin resulted in only very modest inhibition. This pharmacology points to a specific nicotinic receptor mechanism that is clearly distinct from that at the neuromuscular junction. Atropine failed to antagonise the effects of acetylcholine and carbamylcholine, suggesting that no muscarinic component is involved. The nicotinic receptor ligands (-)-[3H]nicotine and 125I-alpha-bungarotoxin bound to specific sites enriched in the synaptosome preparation. Drugs tested on the perfused synaptosomes were examined for their ability to interact with these two ligand binding sites in brain membranes. The differential sensitivity to the neurotoxins alpha-bungarotoxin and neosurugatoxin of the 125I-alpha-bungarotoxin and (-)-[3H]nicotine binding sites, respectively, leads to a tentative correlation of the (-)-[3H]nicotine site with the presynaptic nicotinic receptor on striatal nerve terminals.  相似文献   

17.
The ability of muscarinic receptors, present in either the cell surface or sequestered compartments of intact human SK-N-SH neuroblastoma cells, to stimulate phosphoinositide hydrolysis has been examined. When cells were first exposed to carbachol for 1 h at 37 degrees C, approximately 50% of the cell surface receptors became sequestered, and this was accompanied by a comparable reduction in the subsequent ability of muscarinic agonists to stimulate phosphoinositide turnover, as monitored by the release of labeled inositol phosphates at 10 degrees C. At this temperature, muscarinic receptor cycling between the two cell compartments is prevented. Upon warming the carbachol-pretreated cells to 37 degrees C, receptor cycling is reinitiated and stimulated phosphoinositide turnover is fully restored within 5-8 min. When measured at 10 degrees C, the reduction of stimulated phosphoinositide turnover observed following carbachol pretreatment was similar in magnitude for both hydrophilic (carbachol, oxotremorine-M) and lipophilic (arecoline, oxotremorine-2, and L-670,548) agonists. The loss of response for both groups of agonists could be prevented if the incubation temperature was maintained at 37 degrees C, rather than at 10 degrees C. At the latter temperature carbachol pretreatment of SK-N-SH cells reduced the maximum release of inositol phosphates elicited by either carbachol or L-670,548 but not the agonist concentrations required for half-maximal stimulation. Radioligand binding studies, carried out at 10 degrees C, indicate that following receptor sequestration, significantly higher concentrations of carbachol were required to occupy the available muscarinic receptor sites. In contrast the lipophilic full agonist L-670,548 recognized receptors present in control and carbachol-pretreated cells with comparable affinities. Analysis of the inositol lipids present after carbachol pretreatment indicate that only a minimal depletion of the substrates necessary for phospholipase C activation had occurred. The results indicate that the agonist-induced sequestration of muscarinic receptors from the cell surface results in a loss of stimulated phosphoinositide hydrolysis when measured under conditions in which the return of the sequestered receptors to the cell surface is prevented. Thus, only those receptors present at the cell surface are linked to phospholipase C activation.  相似文献   

18.
We have studied the effect of saline and acid extracts of chick brain on the total number of acetylcholine (ACh) receptors and the number of receptor clusters in cultured chick muscle cells. Myotubes in 7-day cultures responded more rapidly to brain extract than did myotubes in 4-day cultures, so the older cells were used in subsequent bioassays. A large percentage of the receptor inducing activity was soluble in 2% trifluoroacetic acid (TFA), and this material appeared by Sephadex G-25 chromatography to be about 1000 daltons in size. Activity was retained on octadecasilyl silica and was further purified by reverse-phase high-pressure liquid chromatography using a TFA-acetonitrile gradient system. Material that eluted between 35 and 40% acetonitrile, termed C4018, was 500- to 1000-fold more potent than saline extract. The receptor accumulation induced by C4018 was associated with an increased rate of receptor incorporation, presumably receptor synthesis, rather than to a decrease in receptor degradation. An increase in incorporation was detected as early as 3 hr after C4018 was added to 7-day cultures and the effect was maximal after 10 hr. C4018 also promoted the aggregation of receptors that were already incorporated in the surface membrane at the time to addition. It is not yet known if aggregation of "old" receptors and increased receptor synthesis are related or if the two phenomena are mediated by the same molecule.  相似文献   

19.
Current studies suggest that several distinct populations of nicotinic acetylcholine (ACh) receptors exist. One of these is the muscle-type nicotinic receptors with which neuromuscular nicotinic receptor ligands and the snake toxin alpha-bungarotoxin interact. alpha-Bungarotoxin potently binds to these nicotinic receptors and blocks their function, two characteristics that have made the alpha-toxin a very useful probe for the characterization of these sites. In neuronal tissues, several populations of nicotinic receptors have been identified which, although they share a nicotinic pharmacology, have unique characteristics. The alpha-bungarotoxin-insensitive neuronal nicotinic receptors, which may be involved in mediating neuronal excitability, bind nicotinic agonists with high affinity but do not interact with alpha-bungarotoxin. Subtypes of these alpha-toxin-insensitive receptors appear to exist, as evidenced by findings that some are inhibited by neuronal bungarotoxin whereas others are not. In addition to the alpha-bungarotoxin-insensitive sites, alpha-bungarotoxin-sensitive neuronal nicotinic receptors are also present in neuronal tissues. These latter receptors bind alpha-bungarotoxin with high affinity and nicotinic agonists with an affinity in the microM range. The function of the nicotinic alpha-bungarotoxin receptors are as yet uncertain. Thymopoietin, a polypeptide linked to immune function, appears to interact specifically with nicotinic receptor populations that bind alpha-bungarotoxin. Thus, in muscle tissue where alpha-bungarotoxin both binds to the receptor and blocks activity, thymopoietin also potently binds to the receptor and inhibits nicotinic receptors-mediated function. In neuronal tissues, thymopoietin interacts only with the nicotinic alpha-bungarotoxin site and not the alpha-bungarotoxin-insensitive neuronal nicotinic receptor population. These observations that thymopoietin potently and specifically interacts with nicotinic alpha-bungarotoxin-sensitive receptors in neuronal and muscle tissue, together with findings that thymopoietin is an endogenously occurring agent, could suggest that this immune-related polypeptide represents a ligand for the alpha-bungarotoxin receptors. The function of thymopoietin at the alpha-bungarotoxin receptor is as yet uncertain; however, a potential trophic, as well as other roles are suggested.  相似文献   

20.
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