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1.
Highly purified dog heart sarcolemmal membranes, with a content of approximately 5 pmol of muscarinic acetylcholine receptor (mAChR)/mg of protein, were analyzed for mAChR-mediated inhibition of adenylyl cyclase and ligand binding in the absence and the presence of guanine nucleotides. Adenylyl cyclase was found to be coupled to the mAChR, being attenuated approximately 30% in a GTP-dependent manner. Direct binding studies, using 3H-labeled oxotremorine M, showed high affinity binding (apparent KD = 10 nM) that was reduced on nucleotide addition. Dose-response curves for GDP, GTP, and guanyl-5'-yl imidodiphosphate showed them to be equipotent. On the basis of pirenzepine binding, only one type of mAChR, commonly referred to as M2, was detected. Direct binding of [3H]quinuclidinyl benzilate [( 3H]QNB) uncovered 50% more binding sites than 150 nM 3H-labeled oxotremorine M; addition of guanine nucleotides uncovered the existence of positive cooperativity in the binding of [3H]QNB. Agonist displacement curves of [3H]QNB binding, without and with guanine nucleotides, extended over several orders of magnitude, which is inconsistent with single site competitive kinetics. The results and their analysis by computer-assisted curve fitting indicated that the data are well fitted by a model in which a receptor is at least bivalent and exists in two states: one with and the other without cooperativity between its sites, with guanine nucleotides decreasing both the degree of cooperativity between the sites and the proportion of the receptor that is in the cooperative form. Since the guanine nucleotide effect is mediated by the Ni coupling protein, it is suggested that direct binding detects R'Ni complexes (cooperative), R"NiG complexes (cooperative but distinct from R'Ni), and R0 complexes (non-cooperative and unaffected by Ni or NiG), where R = mAChR, Ni = the inhibitory regulatory component of adenylyl cyclase unaffected by guanine nucleotide, and NiG = Ni affected by guanine nucleotide (G).  相似文献   

2.
We examined the soluble fraction from homogenates of 12-day embryonic chick heart for the presence of an endogenous modulator of muscarinic acetylcholine receptors (mAChR). Homogenates were separated into 100,000 g soluble and crude membrane fractions by differential centrifugation. Aliquots of membranes were incubated in the presence or absence of the soluble fraction and the muscarinic antagonist, [3H]quinuclidinyl benzilate ( [3H]QNB), and the data subjected to Scatchard analysis. In the presence of the soluble fraction, mAChR number decreased up to 70% and the affinity for [3H]QNB decreased six- to eightfold. These results suggested that an endogenous soluble factor (ESF) affected cholinergic ligand binding to the receptor. The amount of ESF extracted from less than 10 mg of brain was sufficient to reduce by 50% [3H]QNB binding to 50 fmol mAChR. ESF activity was partially purified by heat and acid treatment. The loss of receptors was dependent upon the amount of ESF added and was time dependent. QNB protected some receptors from loss due to ESF. The change in mAChR affinity for [3H]QNB was observed only if ESF was present continuously during the [3H]QNB binding assay. Ultrafiltration and gel filtration showed that ESF was less than 10,000 daltons and probably less than 700 daltons. ESF activity was blocked by EDTA. However, ESF was not a divalent cation since it was base labile, and removal of divalent cations with Chelex-100 did not inhibit ESF activity. ESF activity was also blocked by catechol, catecholamines, ascorbate, and dithiothreitol. ESF was present in embryonic but not in adult heart.  相似文献   

3.
Transection of the fimbria/fornix, producing a 75% reduction in the activity of the cholinergic marker choline-o-acetyltransferase (CAT EC. 2.3.1.6) in rat hippocampus, did not change the binding characteristics of the non-subtype selective, muscarinic cholinergic receptor antagonist ligand [3H](−)quinuclidinyl benzilate {[3H](−)QNB}. Pirenzepine competition for [3H](−)QNB binding in the hippocampus was best described by a computer derived model assuming two binding sites of high affinity (putative M1 receptors) and low affinity (putative M2 receptors). There was no change in the proportion of high and low affinity pirenzepine binding sites in the hippocampus following cholinergic deafferentation. Thus, these data provide no evidence for a discrete localization of either putative subtype of muscarinic receptor discriminated by pirenzepine restricted to the terminals of CAT containing neurons innervating the rat hippocampus.Chronic scopolamine treatment produced a 48% increase in the Bmax of [3H](−)QNB binding in the hippocampus, but again there was no change in the proportions of the sites discriminated by pirenzepine demonstrating that both putative subtypes were regulated identically. Similarly, carbachol competition for [3H](−)QNB was unaltered following cholinergic deafferentation or chronic scopolamine treatment. Furthermore, similar guanylyl-5′-imidodiphosphate [Gpp(NH)p] modulation of the proportions of high and low affinity carbachol binding sites was found in the hippocampus following transection of the fimbria/fornix or chronic scopolamine treatment. Thus there is no adaptation of receptor-effector coupling following these treatments that is reflected by changes in receptor recognition site characteristics.Carbachol competition for [3H]pirenzepine binding to putative M1 receptors in the hippocampus was biphasic and was also modulated by Gpp(NH)p. In the brainstem, there was a homogeneous population of putative M2 [3H](−)QNB binding sites having low affinity for pirenzepine. Carbachol competition for these binding sites was also biphasic and modulated by guanine nucleotides. Thus, both putative M1 and M2 muscarinic receptors, as defined by high or low affinity for pirenzepine respectively, may mediate their effects in rat brain via a guanine nucleotide regulatory subunit.  相似文献   

4.
The M1-selective (high affinity for pirenzepine) muscarinic acetylcholine receptor (mAChR) antagonist pirenzepine displaced both N-[3H]methylscopolamine [( 3H]NMS) and [3H]quinuclidinylbenzilate from intact human SK-N-SH neuroblastoma cells with a low affinity (Ki = 869-1,066 nM), a result indicating the predominance of the M2 or M3 (low affinity for pirenzepine) receptor subtype in these cells. Whereas a selective M2 agent, AF-DX 116 [11-2[[2-[(diethylamino)methyl]-1-piperidinyl]- acetyl]-5,11-dihydro-6H-pyrido[2,3-b][1,4]benzodiazepin-6-one) bound to the mAChRs with a very low affinity (Ki = 6.0 microM), 4-diphenylacetoxy-N-methylpiperidine methiodide (4-DAMP), an agent that binds with high affinity to the M3 subtype, potently inhibited [3H]NMS binding (Ki = 7.2 nM). 4-DAMP was also 1,000-fold more effective than AF-DX 116 at blocking stimulated phosphoinositide (PPI) hydrolysis in these cells. Covalent labeling studies (with [3H]propylbenzilycholine mustard) suggest that the size of the SK-N-SH mAChR (Mr = 81,000-98,000) distinguishes it from the predominant mAChR species in rat cerebral cortex (Mr = 66,000), an M1-enriched tissue. These results provide the first demonstration of a neural M3 mAChR subtype that couples to PPI turnover.  相似文献   

5.
Abstract

Digitonin solubilized muscarinic acetylcholine receptor (mAChR) of rat cerebral cortex membranes were chromatographed on the FPLC anion exchanger Mono Q. [3H]QNB (quinuclidinyl benzilate) and [3H]PZ (pirenzepine) binding activity was retarded from a NaCl free elution buffer and thereby separated from a part of the accompanying proteins. Elution of the column with a continuously increasing NaCl concentration desorbed the radioligand binding activities forming several peaks, two of which were nearly completely separated. Our data show that the mAChR in rat cerebral cortex consists of several entities with different electrical charges.  相似文献   

6.
[3H]Pirenzepine [( 3H]PZ) and [3H] (-)Quinuclidinylbenzilate [( 3H] (-)QNB) specific binding to soluble rat brain muscarinic cholinergic receptors was assessed as a function of time subsequent to receptor solubilization. The soluble brain muscarinic receptor is stable at 4 degrees C when assayed by [3H] (-)QNB binding (t 1/2 = 80 hrs). In contrast the pirenzepine state of the receptor decays rapidly (t 1/2 = 3.0 hrs). Prior occupation of the receptor with [3H] (-)QNB or [3H]PZ increases the receptor stability by two to five fold (t 1/2 QNB greater than 1,000 hrs; t 1/2 PZ = 6.5 hrs). These data indicate that pirenzepine binds to an allosteric state of the muscarinic receptor and that caution should be employed in the assignment of receptor subtypes based solely upon the binding of ligands which recognize unique conformational states.  相似文献   

7.
Some atypical muscarinic drugs were compared with classical drugs with respect to inhibition of specific binding of [3H]pirenzepine ([3H]PZ) and [3H]quinuclidinyl benzilate ([3H]QNB) to membrane preparations of rat brain. The interactions of the agonists McN-A343 and carbachol with [3H]QNB at muscarinic sites in brain stem preparations were differently modulated in the presence of an excess of PZ. Moreover, McN-A343 exhibited a preferential affinity for [3H]PZ sites in whole brain membranes whereas carbachol bound with high affinity to [3H]QNB sites in brain stem preparations. Various muscarinic agonists and antagonists displayed different affinity patterns in the [3H]PZ and [3H]QNB binding. These data are indicative of two populations of pharmacologically distinguishable binding sites and support the concept of muscarinic receptor heterogeneity in rat brain.  相似文献   

8.
The distribution and down-regulation of the muscarinic acetylcholine receptor (mAChR) were studied in dissociated cells from right (RCC) and left (LCC) cerebral cortex. For this purpose [3H]quinuclidinyl benzilate (QNB) and [3H]pirenzepine (Pz), two muscarinic antagonists, were used. The mAChR binding sites detected with [3H]QNB were asymmetrically distributed between the two hemispheres, the majority being found in the RCC. Asymmetry was also evident in the distribution of the mAChR subtypes (M1 and M2) detected with [3H]Pz. Under basal conditions the RCC had roughly 50% more M1 subtype than the LCC. The pharmacological and kinetic parameters were similar for both antagonists in RCC and LCC, indicating that the observed lateralization was due to a different density of the receptor rather than to different kinetics of binding of the two radioligands. After sustained stimulation with the agonist carbamoylcholine, the receptor sites detected with [3H]Pz, i.e. the M1 subtype of mAChR, decreased at a higher rate in the RCC (44%) than in the LCC (25% of controls), demonstrating that the down-regulation process is more active in the right than in the left cortex, and thus implying that there is better coupling between the stimulated mAChR and its effector system in the former.  相似文献   

9.
Although prior studies have supported the validity of measuring total muscarinic receptor binding in postmortem brain, there has not been a study of postmortem effects on muscarinic receptor subtypes, M1 and M2, defined by high and low affinity for pirenzepine, respectively. We have examined in rat brain the effect of postmortem delay at room temperature, storage at 4 degrees C and -20 degrees C, and multiple freeze/thaw cycles on total muscarinic binding, measured with [3H]quinuclidinylbenzilate ([3H]QNB) and on M1 muscarinic binding, measured with [3H]pirenzepine ([3H]Pir). We found that delay at room temperature up to 4 h, or storage at 4 degrees C for 24 h or at -20 degrees C for 4 weeks, or 3 freeze/thaw cycles had no effect on [3H]QNB or [3H]Pir binding. Exposure of brain to room temperature for 15 h, however, led to an increase in [3H]QNB binding, without change in [3H]Pir. Scatchard analysis showed an increase in binding sites without a change in affinity. We conclude that [3H]QNB and [3H]Pir are valid measures of total and M1 muscarinic binding, respectively, under these circumstances, but that caution must be used in the interpretation of indirect measures of M2 binding.  相似文献   

10.
Heterogeneity of the muscarinic receptor population in the rat central and peripheral lung was found in competition binding experiments against [3H]quinuclidinyl benzilate [( 3H]QNB) using the selective antagonists pirenzepine, AF-DX 116 and hexahydrosiladifenidol (HHSiD). Pirenzepine displaced [3H]QNB with low affinity from preparations of central airways indicating the absence of M1 receptors in the trachea and bronchi. Muscarinic receptors in the central airways are comprised of both M2 and M3 receptors since AF-DX 116, an M2-selective antagonist, bound with high affinity to 70% of the available sites while HHSiD, an M3-selective antagonist bound with high affinity to the remaining binding sites. In the peripheral lung, pirenzepine bound with high affinity to 14% of the receptor population, AF-DX 116 bound with high affinity to 79% of the binding sites while HHSiD bound with high affinity to 18% of the binding sites. The presence of M1 receptors in the peripheral airways but not in the central airways was confirmed using [3H]telenzepine, an M1 receptor ligand. [3H]Telenzepine showed specific saturable binding to 8% of [3H]QNB labeled binding sites in homogenates of rat peripheral lung, while there was no detectable specific binding in homogenates of rat trachea or heart. The results presented here demonstrate that there are three muscarinic receptor subtypes in rat lungs, and that the distribution of the different subtypes varies within the lungs. Throughout the airways, the dominant muscarinic receptor subtype is M2. In the trachea and bronchi the remaining receptors are M3, while in the peripheral lungs, the remaining receptors are both M1 and M3.  相似文献   

11.
An inhibitor to the muscarinic acetylcholine receptor (mAChR) was purified from the venom of Crotalus atrox (western diamondback rattlesnake). The inhibitor was found to be a 30-kDa homodimer protein with phospholipase A2 activity. In order to determine the subtype selectivity of the purified inhibitor, the inhibitory effect on the binding of two orthosteric antagonists, [3H]quinuclidinyl benzilate ([3H]QNB) and [3H]N-methylscopolamine methyl chloride ([3H]NMS), to five subtypes of cloned human mAChR was tested. The purified inhibitor reduced the binding of [3H]QNB and/or [3H]NMS to all subtypes of the mAChR while showing the highest inhibitory effect on the M5 subtype. The Kd values of the receptors for the antagonists were increased in the presence of the inhibitor; however, the Bmax values were not changed. The effects of the purified inhibitor on the dissociation of [3H]NMS from the receptors were also investigated. Dissociation of the antagonist was remarkably slowed down by addition of the inhibitor. These findings may suggest an allosteric action of the purified inhibitor. In addition, the present study indicates that the presence of mAChR inhibitors is quite common in snake venoms.  相似文献   

12.
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   

13.
Membranes of neuron-like NG108-15 hybrid cells bind [3H]quinuclidinyl benzilate (QNB) with high affinity and specificity. Greater than 90% of total [3H]QNB binding is to sites having the pharmacological specificity of muscarinic acetylcholine receptors. Three significant features characterize the interaction of ligands with these sites: (1) Specific binding of [3H]QNB at equilibrium follows a simple adsorption isotherm with an apparent KD of 1 × 10?10 M; (2) Rates of [3H]QNB association and dissociation are biphasic and, as the binding reaction proceeds, the fraction of readily dissociable [3H]QNB decreases; (3) Competition against [3H]QNB for specific binding sites by antagonists gives a slope of 1 when analyzed on Hill plots, but competition for binding sites by agonists gives a slope of less than 1. A simple two-step model for activation is proposed to account for these features.  相似文献   

14.
J P Joad  T B Casale 《Life sciences》1987,41(13):1577-1584
Quinuclidinyl benzilate, a muscarinic antagonist, has previously been used in its tritiated form ([3H]-QNB) to study the lung muscarinic receptor. We investigated whether a newer iodinated form of QNB ([125I]-QNB) of higher specific activity would be an appropriate ligand to study the human peripheral lung muscarinic receptor. Both the tritiated and iodinated ligands bound specifically to human lung at 23 degrees C. At 37 degrees C the specific binding of [3H]-QNB increased slightly, but no specific binding of [125I]-QNB was found. The data from multiple equilibrium binding experiments covering a wide range of radiolabeled QNB concentrations were combined and analyzed using the computer modeling program, LIGAND. The tritiated QNB identified a single affinity human lung binding site with a Kd of 46 +/- 9 pM and a receptor concentration of 34 +/- 3 fmol/mg protein. The iodinated QNB identified a single higher affinity human lung binding site (Kd = 0.27 +/- 0.32 pM) of much smaller quantity (0.62 +/- 0.06 fmol/mg protein). Competition studies comparing the binding of unlabeled QNB relative to labeled QNB indicated that unlabeled QNB had the same Kd as that measured for [3H]-QNB, but a 5 log greater Kd than that measured for [125I]-QNB. Other muscarinic receptor agonists and antagonists competed with [3H]-QNB, but not [125I]-QNB for binding to muscarinic receptors with the expected magnitude and rank order of potency. We conclude that of the 2 radiolabeled forms of QNB available, only the tritiated form should be used to study the human peripheral lung muscarinic receptor.  相似文献   

15.
Peripheral nerve injury or amputation leads to extensive changes within the central representations of the mammalian body surface. The mechanisms responsible for post-traumatic reorganization of these maps in adults may also, at least partly, underlie a more general feature of the somatosensory system--the capacity for stimulus-dependent plasticity. Acetylcholine has been implicated in both of these processes. We studied the binding of the ligands [3H]QNB and [3H]pirenzepine in rat hindlimb somatosensory cortex from 1 to 14 days following sciatic nerve transection. Although the [3H]QNB binding was not different from normal levels in tissue homogenates of the affected somatosensory cortex, differences were demonstrated when binding was measured on a layer-by-layer basis. [3H]QNB binding was changed only in certain layers, at certain times. The predominant effects appeared to be a decrease in binding in the middle layers from 4 to 14 days after the transection. Combining the [3H]QNB data with data obtained from the more M1-selective ligand [3H]pirenzepine suggested that complex changes occur among several muscarinic receptors, including receptors with non-M1 subtype characteristics. Moreover, unilateral nerve transection affects the hindlimb somatosensory regions in both hemispheres.  相似文献   

16.
We previously reported that muscarinic acetylcholine receptors (mAChRs) from porcine brains are glycoproteins. When porcine brain membranes were solubilized with digitonin or 3-[(3-cholamidopropyl)dimethylammonio]-1-propane sulfonate (CHAPS), approximately 20% of the receptors were solubilized, most (90% or more) of which bound to Sepharose 4B conjugated with wheat germ agglutinin (WGA). In contrast, when membranes were solubilized with Lubrol PX, a much larger fraction (approximately 60%) of the receptors were solubilized. However, about a third of this solubilized receptor population remained unbound to WGA-Sepharose even in the presence of an excess amount of the lectin-Sepharose. These results suggested a structural heterogeneity of the mAChR in terms of its carbohydrate moiety. The effects of lectins on the ligand binding properties of mAChRs were also studied. WGA or concanavalin A (ConA) was found to cause a 2- to 3-fold increase in the affinity of membrane-bound receptors to an antagonist [3H]quinuclidinyl benzylate [( 3H]QNB) without affecting the maximum number of sites, whereas the lectins had no significant effects on the binding of the agonist [3H]cis-methyldioxolane. When the membranes were dissolved with detergents, lectin did not increase the [3H]QNB affinity: These lectins caused an approximately 2 fold decrease in the affinity of digitonin-solubilized receptors for [3H]QNB. Thus the lectins exert differential effects on agonist and antagonist binding to the brain membrane mAChRs, most likely by modulating some intermolecular interactions.  相似文献   

17.
Tunicamycin, a potent inhibitor of protein glycosylation, was used to study the role of protein glycosylation in the regulation of muscarinic acetylcholine receptor (mAChR) number in cultures of N1E-115, a murine neuroblastoma cell line. At a concentration of 0.35 microgram/ml, tunicamycin inhibited macromolecular incorporation of [3H]mannose by 75-80%, whereas incorporation of [3H]leucine was reduced by only 10%. Treatment with tunicamycin caused a 30% decrease in total membrane mAChR number within 48 h as determined by a filter-binding assay using [3H]quinuclidinyl benzilate ([3H]QNB), a highly specific muscarinic antagonist. Tunicamycin also inhibited the recovery of total membrane mAChR by 70% following carbachol-induced down-regulation. The rate of mAChR degradation (control t1/2 12-14 h) was unaffected by incubation with tunicamycin. Intact cell binding studies using [3H]QNB (a membrane-permeable ligand) to measure total cellular (internal plus cell surface) mAChR and [3H]N-methylscopolamine ([3H]NMS, a membrane-impermeable ligand) to measure cell surface mAChR were conducted to determine whether tunicamycin selectively depleted cell surface mAChR. With 12 h of treatment with tunicamycin, cell surface mAChR number declined by 35%, whereas total cellular mAChR fell by only 10%. The ratio of cell surface receptor to total receptor decreased by 45% after 24 h. These results indicate that protein glycosylation is required for the maintenance of cell surface mAChR number. Incubation with tunicamycin causes a selective depletion of cell surface mAChR, implying that protein glycosylation plays a critical role in transport and/or incorporation of mAChR into the plasma membrane.  相似文献   

18.
Muscarinic receptors in brain membranes from honey bees, houseflies, and the American cockroach were identified by their specific binding of the non-selective muscarinic receptor antagonist [3H]quinuclidinyl benzilate ([3H]QNB) and the displacement of this binding by agonists as well as subtype-selective antagonists, using filtration assays. The binding parameters, obtained from Scatchard analysis, indicated that insect muscarinic receptors, like those of mammalian brains, had high affinities for [3H]QNB (KD = 0.47 nM in honey bees, 0.17 nM in houseflies and 0.13 nM in the cockroach). However, the receptor concentration was low (108, 64.7, and 108 fmol/mg protein for the three species, respectively). The association and dissociation rates of [3H]QNB binding to honey bee brain membranes, sensitivity of [3H]QNB binding to muscarinic agonists, and high affinity for atropine were also features generally similar to muscarinic receptors of mammalian brains. In order to further characterize the three insect brain muscarinic receptors, the displacement of [3H]QNB binding by subtype-selective antagonists was studied. The rank order of potency of pirenzepine (PZ), the M1 selective antagonist, 11-[2-[dimethylamino)-methyl)1-piperidinyl)acetyl)-5,11- dihydro-6H-pyrido(2,3-b)-(1,4)-benzodiazepin-6 one (AF-DX 116), the M2-selective antagonist, and 4-DAMP (4-diphenylacetoxy-N-methylpiperidine methiodide) the M3-selective antagonist, was also the same as that of mammalian brains, i.e., 4-DAMP greater than PZ greater than AF-DX 116. The three insect brain receptors had 27-50-fold lower affinity for PZ (Ki 484-900 nM) than did the mammalian brain receptor (Ki 16 nM), but similar to that reported for the muscarinic receptor subtype cloned from Drosophila. Also, the affinity of insect receptors for 4-DAMP (Ki 18.9-56.6 nM) was much lower than that of the M3 receptor, which predominates in rat submaxillary gland (Ki of 0.37 nM on [3H]QNB binding). These drug specificities of muscarinic receptors of brains from three insect species suggest that insect brains may be predominantly of a unique subtype that is close to, though significantly different from, the mammalian M3 subtype.  相似文献   

19.
Mice of the inbred strains C57BL/6 and DBA/2 show strain-dependent behavioural differences which have been correlated with variations in brain cholinergic systems. In the present study, the density of muscarinic cholinergic receptors in both strains of mice was determined by autoradiographic methods using [3H]quinuclidinyl benzilate (QNB) and [3H]pirenzepine as ligands. C57BL/6 mice showed a significantly lower [3H]QNB binding level in the frontal cortex by one third as compared to DBA/2 mice. In the striatum and the cholinergic pontomesencephalic nucleus laterodorsalis tegmenti the [3H]QNB binding was lower in C57BL/6 by 28% and 31%, respectively. The [3H]pirenzepine binding level was found to be significantly higher in C57BL/6 temporal cortex (by 22%). These results are discussed in relation to interstrain differences in cholinergic cell density and in the activity of cholinergic enzymes.  相似文献   

20.
The mechanisms of carbachol-induced muscarinic acetylcholine receptor (mAChR) down-regulation, and recovery following carbachol withdrawal, were studied in the neuroblastoma x glioma hybrid NG108-15 cell line by specific ligand binding assays. N-[3H]Methylscopolamine ([3H]NMS) and [3H]quinuclidinyl benzilate ([3H]QNB) were used as the ligands for the cell surface and total cellular mAChRs, respectively. Exposure of cells to 1 mM carbachol for 16 h decreased the specific binding of [3H]NMS and [3H]QNB by approximately 80%. Bacitracin (1-4 mg/ml) and methylamine (1-15 mM), inhibitors of transglutaminase and of endocytosis, prevented agonist-induced loss of surface mAChRs. Pretreatment of cells with the antimicrotubular agents nocodazole (0.1-10 microM) and colchicine (1-10 microM) prevented carbachol-induced loss of [3H]QNB binding, but not that of [3H]NMS binding. These results indicate that agonist-induced mAChR down-regulation occurs by endocytosis, followed by microtubular transport of receptors to their intracellular degradation sites. When carbachol was withdrawn from the culture medium following treatment of cells for 16 h, receptors recovered and were incorporated to the surface membrane. This recovery process was antagonized by monovalent ionophores monensin (0.1 microM) and nigericin (40 nM), which interfere with Golgi complex function. Receptor recovery was also prevented by the antimicrotubular agent nocodazole. Thus, recovery of receptors appears to be mediated via Golgi complex and microtubular transport to the surface membrane.  相似文献   

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