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1.
《The Journal of cell biology》1990,111(6):2613-2622
The structural elements required for normal maturation and assembly of the nicotinic acetylcholine receptor alpha subunit were investigated by expression of mutated subunits in transfected fibroblasts. Normally, the wild-type alpha subunit acquires high affinity alpha bungarotoxin binding in a time-dependent manner; however, mutation of the 128 and/or 142 cysteines to either serine or alanine, as well as deletion of the entire 14 amino acids in this region abolished all detectable high affinity binding. Nonglycosylated subunits that had a serine to glycine mutation in the consensus sequence also did not efficiently attain high affinity binding to toxin. In contrast, mutation of the proline at position 136 to glycine or alanine, or a double mutation of the cysteines at position 192 and 193 to serines had no effect on the acquisition of high affinity toxin binding. These data suggest that a disulfide bridge between cysteines 128 and 142 and oligosaccharide addition at asparagine 141 are required for the normal maturation of alpha subunit as assayed by high affinity toxin binding. The unassembled wild-type alpha subunit expressed in fibroblasts is normally degraded with a t1/2 of 2 h; upon assembly with the delta subunit, the degradation rate slows significantly (t1/2 greater than 13 h). All mutated alpha subunits retained the capacity to assemble with a delta subunit coexpressed in fibroblasts; however, mutated alpha subunits that were not glycosylated or did not acquire high affinity toxin binding were rapidly degraded (t1/2 = 20 min to 2 h) regardless of whether or not they assembled with the delta subunit. Assembly and rapid degradation of nonglycosylated acetylcholine receptor (AChR) subunits and subunit complexes were also observed in tunicamycin- treated BC3H-1 cells, a mouse musclelike cell line that normally expresses functional AChR. Hence, rapid degradation may be one form of regulation assuring that only correctly processed and assembled subunits accumulate, and ultimately make functional receptors in AChR- expressing cells.  相似文献   

2.
3.
《The Journal of cell biology》1990,111(6):2601-2611
We have used fibroblast clones expressing muscle nicotinic acetylcholine receptor alpha and gamma, and alpha and delta subunits to measure the kinetics of subunit assembly, and to study the properties of the partially assembled products that are formed. We demonstrate by coimmunoprecipitation that assembly intermediates in fibroblasts coexpressing alpha and delta subunits are formed in a time-dependent manner. The alpha and gamma- and the alpha and delta-producing transfected cells form complexes that, when labeled with 125I-alpha- bungarotoxin, migrate in sucrose gradients at 6.3S, a value consistent with a hetero-dimer structure. An additional peak at 8.5S is formed from the alpha and gamma subunits expressed in fibroblasts suggesting that gamma may have more than one binding site for alpha subunit. The stability and specificity of formation of these partially assembled complexes suggests that they are normal intermediates in the assembly of acetylcholine receptor. Comparison of the binding of 125I-alpha- bungarotoxin to intact and detergent-extracted fibroblasts indicate that essentially all of the binding sites are retained in an intracellular pool. The fibroblast delta subunit has the electrophoretic mobility in SDS-PAGE of a precursor that does not contain complex carbohydrates. In addition, alpha gamma and alpha delta complexes had lectin binding properties expected of subunits lacking complex oligosaccharides. Therefore, fibroblasts coexpressing alpha and gamma or alpha and delta subunits produce discrete assembly intermediates that are retained in an intracellular compartment and are not processed by Golgi enzymes.  相似文献   

4.
P Blount  J P Merlie 《Neuron》1989,3(3):349-357
We have stably expressed in fibroblasts different pairs of alpha and non-alpha subunits of the mouse muscle nicotinic acetylcholine receptor (AChR). The gamma and delta, but not the beta, subunits associated efficiently with the alpha subunit, and they extensively modified its binding characteristics. The alpha gamma and alpha delta complexes formed distinctly different high affinity binding sites for the competitive antagonist d-tubocurarine that, together, completely accounted for the two nonequivalent antagonist binding sites in native AChR. The alpha delta complex and native AChR had similar affinities for the agonist carbamylcholine. In contrast, although the alpha gamma complex contains the higher affinity competitive antagonist binding site, it had an affinity for carbamylcholine that was an order of magnitude less than that of the alpha delta complex or the AChR. The comparatively low agonist affinity of the alpha gamma complex may represent an allosterically regulated binding site in the native AChR. These data support a model of two nonequivalent binding sites within the AChR and imply that the basis for this nonequivalence is the association of the alpha subunit with the gamma or delta subunit.  相似文献   

5.
The structural organization of the high affinity receptor for immunoglobulin E has been investigated in plasma membrane vesicles from rat basophilic leukemia cells using lactoperoxidase-catalyzed 125I-iodination to label exposed polypeptide regions. Intact vesicles are predominantly right-side-out in orientation, and lactoperoxidase iodination of these vesicles results in labeling of the alpha subunit of receptor but not the beta and gamma subunits. Lysis of these vesicles to expose the cytoplasmic face of the membrane by two different methods permits labeling of the beta and gamma subunits with no increase in labeling of alpha. The results indicate that both the beta and gamma subunits of the receptor have segments exposed at the cytoplasmic side of the plasma membrane. These studies have also revealed a previously unidentified IgE binding component in the membrane vesicles; its 125I-labeling characteristics and some other properties are described.  相似文献   

6.
Clones carrying cDNA sequences for the delta subunit precursor of the acetylcholine receptor from calf skeletal muscle have been isolated. Nucleotide sequence analysis of the cloned cDNA has indicated that this polypeptide consists of 516 amino acids including a hydrophobic prepeptide of 21 amino acids. The delta subunit of the calf muscle acetylcholine receptor, like the alpha, beta and gamma subunits of the same receptor as well as the alpha and gamma subunits of its human counterpart, exhibits structural features common to all four subunits of the Torpedo electroplax receptor, apparently being oriented across the membrane in the same manner as proposed for the fish receptor subunits. The degree of amino acid sequence homology between the calf and Torpedo delta subunits (60%) is comparable to that between the beta subunits (59%) and to that between the gamma subunits (56%), but is lower than that between the alpha subunits of the two species (81%). This suggests that the alpha subunit evolved more slowly than the three other subunits. A dendrogram representing the sequence relatedness among the four subunit precursors of the mammalian and fish acetylcholine receptors has been constructed. Some regions of the delta subunit molecule, including the region containing the putative disulphide bridge and that encompassing the clustered putative transmembrane segments M1, M2 and M3, are relatively well conserved between calf and Torpedo. The relative pattern of regional homology is similar for all four subunit precursors.  相似文献   

7.
To study the functional and structural roles of the epsilon subunit in adult muscle acetylcholine receptor (AChR), we have co-expressed the alpha and epsilon subunits of the mouse receptor in transfected fibroblasts. Ligand binding studies suggest that association of epsilon with alpha subunit results in a lower association rate constant for 125I-labeled alpha-bungarotoxin binding than that of the unassembled alpha subunit, approaching that for toxin binding to the AChR. Furthermore, alpha epsilon complexes contain high affinity binding sites for competitive antagonists and agonists not present in the unassembled alpha subunit, but similar to one of the two nonequivalent binding sites in the adult AChR. Structural analysis of alpha epsilon complexes by sucrose gradient velocity centrifugation suggests that some of the complexes formed are trimers or tetramers of alpha and epsilon subunits. Comparison of these data with those previously obtained for alpha gamma complexes suggests that gamma and epsilon have homologous functional roles and identical structural positions in the fetal and adult AChRs, respectively.  相似文献   

8.
The identification of GTP-binding sites in the 54-kDa subunit of the signal recognition particle (SRP) and in both the alpha and beta subunits of the SRP receptor has complicated the task of defining the step in the protein translocation reaction that is controlled by the GTP-binding site in the SRP. Ribonucleotide binding assays show that the purified SRP can bind GDP or GTP. However, crosslinking experiments show that SRP54 can recognize the signal sequence of a nascent polypeptide in the absence of GTP. Targeting of SRP-ribosome-nascent polypeptide complexes, formed in the absence of GTP, to microsomal membranes likewise proceeds normally. To separate the GTPase cycles of SRP54 and the alpha subunit of the SRP receptor (SR alpha), we employed an SR alpha mutant that displays a markedly reduced affinity for GTP. We observed that the dissociation of SRP54 from the signal sequence and the insertion of the nascent polypeptide into the translocation site could only occur when GTP binding to SR alpha was permitted. These data suggest that the GTP binding and hydrolysis cycles of both SRP54 and SR alpha are initiated upon formation of the SRP-SRP receptor complex.  相似文献   

9.
M Criado  V Sarin  J L Fox  J Lindstrom 《Biochemistry》1986,25(10):2839-2846
The sequence alpha 127-143 of the alpha subunit of the acetylcholine receptor has been proposed to contain several important features: (1) the acetylcholine binding site, (2) the only N-glycosylation site of the alpha subunit, at asparagine-alpha 141, and (3) two cysteine residues, at alpha 128 and alpha 142, that may participate in a disulfide bond known to be near the binding site. We tested these hypotheses by using antisera to receptor and its subunits and monoclonal antibodies to the synthetic peptide alpha 127-143 cyclized by a disulfide bond between alpha 128 and alpha 142. Antisera to receptor and its alpha subunit were able to immunoprecipitate the iodinated peptide, and this reaction was inhibited by soluble receptor, but not by membrane-bound receptor. alpha-Bungarotoxin did not inhibit antiserum binding to solubilized receptor. Similarly, cholinergic ligands had little or no effect on binding to immobilized receptors of anti-peptide monoclonal antibodies. In addition, these monoclonal antibodies, when bound to the receptor, did not affect toxin binding kinetics. By contrast, preincubation with concanavalin A did inhibit monoclonal antibody binding. Reduction of the receptor significantly decreased the binding of three of the monoclonal antibodies, but subsequent alkylation with N-ethylmaleimide or the affinity labeling reagent bromoacetylcholine had no additional effect on binding. A dithiothreitol concentration about 100-fold higher that the one needed to reduce the disulfide near the acetylcholine binding site was necessary to inhibit monoclonal antibody binding. We conclude that the sequence alpha 127-143 is not fully exposed on the surface when the receptor is in the membrane.(ABSTRACT TRUNCATED AT 250 WORDS)  相似文献   

10.
The subunits of ovine lutropin prepared by acid dissociation and salt precipitation were characterized by end group analysis, tryptic peptide mapping, SDS gel electrophoresis and biological activity. No evidence of internal peptide cleavage was found in the alpha subunit. The subunits possessed low activity. The alpha and beta subunits recombined effectively to generate a complex that had full receptor binding activity and in vitro biological activity. The recombinants of subunits prepared by countercurrent distribution showed only 50% activity in both assays. The salt precipitation method alpha subunit could be completely reduced and reoxidized in the absence of denaturants. The reoxidized alpha subunit combines with the native beta subunit generating full activity. However, this recombined hormone tends to lose activity with time, suggesting that the reoxidation may not fully restore the native structur of the reduced alpha subunit. The native lutropin alpha subunit effectively combined with follitropin beta subunit generating complete follitropin activity.  相似文献   

11.
We have determined the crystal structure at 1.8 A resolution of a complex of alpha-bungarotoxin with a high affinity 13-residue peptide that is homologous to the binding region of the alpha subunit of acetylcholine receptor. The peptide fits snugly to the toxin and adopts a beta hairpin conformation. The structures of the bound peptide and the homologous loop of acetylcholine binding protein, a soluble analog of the extracellular domain of acetylcholine receptor, are remarkably similar. Their superposition indicates that the toxin wraps around the receptor binding site loop, and in addition, binds tightly at the interface of two of the receptor subunits where it inserts a finger into the ligand binding site, thus blocking access to the acetylcholine binding site and explaining its strong antagonistic activity.  相似文献   

12.
Each subunit of the nicotinic acetylcholine receptor (AChR) contains two conserved cysteine residues, which are known to form a disulfide bond, in the N-terminal extracellular domain. The role of this retained structural feature in the biogenesis of the AChR was studied by expressing site-directed mutant alpha and beta subunits together with other normal subunits from Torpedo californica AChR in Xenopus oocytes. Mutation of the cysteines at position 128 or 142 in the alpha subunit, or in the beta subunit, did not prevent subunit assembly. All Cys128 and Cys142 mutants of the alpha and beta subunits were able to associate with coexpressed other normal subunits, although associational efficiency of the mutant alpha subunits with the delta subunit was reduced. Functional studies of the mutant AChR complexes showed that the mutations in the alpha subunit abolished detectable 125I-alpha-bungarotoxin (alpha-BuTX) binding in whole oocytes, whereas the mutations in the beta subunit resulted in decreased total binding of 125I-alpha-BuTX and no detectable surface 125I-alpha-BuTX binding. Additionally, all mutant subunits, when co-expressed with the other normal subunits in oocytes, produced small acetylcholine-activated membrane currents, suggesting incorporation of only small numbers of functional mutant AChRs into the plasma membrane. The functional acetylcholine-gated ion channel formed with mutant alpha subunits, but not mutant beta subunits, could not be blocked by alpha-BuTX. Thus, a disulfide bond between Cys128 and Cys142 of the AChR alpha or beta subunits is not needed for acetylcholine-binding. However, this disulfide bond on the alpha subunit is necessary for formation of the alpha-BuTX-binding site. These results also suggest that the most significant effect caused by disrupting the conserved disulfide loop structure is intracellular retention of most of the assembled AChR complexes.  相似文献   

13.
The nicotinic acetylcholine receptor has a subunit stoichiometry of alpha 2 beta gamma delta; all 5 subunits contain N-linked oligosaccharides. We investigated what role trimming of the oligosaccharides played in the post-translational processing of the subunits and assembly of the receptor by examining the receptor synthesized in the presence of an inhibitor of oligosaccharide trimming, 1-deoxynojirimycin. BC3H-1 cells express one-third fewer receptors when grown in the presence of 1-deoxynojirimycin. The receptor subunits that are expressed have decreased mobility by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, indicating an inhibition of oligosaccharide trimming. In control cells, 40% of the translated alpha subunit acquires the capacity to bind alpha-bungarotoxin with a half-time of 40 min before assembly with the other subunits; the rest is rapidly degraded. In 1-deoxynojirimycin-treated cells approximately the same amount of alpha subunit is translated as in control cells, but that alpha subunit is degraded more rapidly, and only 25% acquires the capacity to bind alpha-bungarotoxin. From these results, we conclude that oligosaccharide processing either may aid in protecting the alpha subunit primary translation product from degradation or may be required for the conformational change or other post-translational modification(s) necessary for formation of the alpha-bungarotoxin binding form of the alpha subunit, which is then protected from proteolytic degradation. The cell surface receptor that is expressed in the presence of 1-deoxynojirimycin, however, is not altered in its affinity for cholinergic ligands. Thus, we conclude that differential N-linked oligosaccharide trimming of the 2 alpha subunits does not appear to play a part in the differences in affinities of the 2 alpha subunits for cholinergic ligands.  相似文献   

14.
Analysis of the role of glycosylation of the human fibronectin receptor   总被引:11,自引:0,他引:11  
1-Deoxymannojirimycin (MNJ), an inhibitor of Golgi alpha-mannosidase IA and IB, was used to assess the possible roles of asparagine-linked oligosaccharides in the structure and function of the integrin fibronectin receptor from cultured human fibroblasts. These cells normally attach well to fibronectin substrates and have only mature forms of the fibronectin receptor on their surfaces. MNJ inhibits the intracellular trimming of high mannose oligosaccharides, and cells treated with 0.2 mg/ml MNJ synthesize only immature precursor forms of both the alpha and beta subunits of the fibronectin receptor. The immature receptor polypeptides were found to be nonfunctional by two criteria: 1) cells treated with MNJ attached poorly to fibronectin substrates; and 2) receptor from the treated cells was defective in binding to fibronectin affinity columns. The precursor forms of the fibronectin receptor subunits were found on the surfaces of cells treated with MNJ, demonstrating that processing of receptor carbohydrates to mature forms was not necessary for receptor insertion into the plasma membrane. A monoclonal antibody that specifically bound the alpha subunit of the fibronectin receptor immunoprecipitated both alpha and beta subunit polypeptides from both control cells and cells treated with MNJ. Similarly, a monoclonal antibody that specifically bound only the beta subunit also immunoprecipitated both alpha and beta subunit polypeptides of the receptor from extracts of both control and MNJ-treated cells. These results indicate that receptor assembly can occur in the absence of complete oligosaccharide processing. Thus, oligosaccharide processing to the mature form of the fibronectin receptor is important for its binding function but not for receptor assembly or insertion into the plasma membrane.  相似文献   

15.
We report the isolation and sequence of a cDNA clone that encodes a locust (Schistocerca gregaria) nervous system nicotinic acetylcholine receptor (AChR) subunit (alpha L1). The calculated molecular weight of the unglycosylated polypeptide, which contains in the proposed extracellular domain two adjacent cysteine residues which are characteristic of alpha (ligand binding) subunits, is 60,641 daltons. Injection into Xenopus oocytes, of RNA synthesized from this clone in vitro, results in expression of functional nicotinic receptors in the oocyte membrane. In these, nicotine opens a cation channel; the receptors are blocked by both alpha-bungarotoxin (alpha-Bgt) and kappa-bungarotoxin (kappa-Bgt). Reversible block of the expressed insect AChR by mecamylamine, d-tubocurarine, tetraethylammonium, bicuculline and strychnine has also been observed. These data are entirely consistent with previously reported electrophysiological studies on in vivo insect nicotinic receptors and also with biochemical studies on an alpha-Bgt affinity purified locust AChR. Thus, a functional receptor exhibiting the characteristic pharmacology of an in vivo insect nicotinic AChR can be expressed in Xenopus oocytes by injection with a single subunit RNA.  相似文献   

16.
Assembly of Torpedo acetylcholine receptors in Xenopus oocytes   总被引:3,自引:2,他引:1       下载免费PDF全文
To study pathways by which acetylcholine receptor (AChR) subunits might assemble, Torpedo alpha subunits were expressed in Xenopus oocytes alone or in combination with beta, gamma, or delta subunits. The maturation of the conformation of the main immunogenic region (MIR) on alpha subunits was measured by binding of mAbs and the maturation of the conformation of the AChR binding site on alpha subunits was measured by binding of alpha-bungarotoxin (alpha Bgt) and cholinergic ligands. The size of subunits and subunit complexes was assayed by sedimentation on sucrose gradients. It is generally accepted that native AChRs have the subunit composition alpha 2 beta gamma delta. Torpedo alpha subunits expressed alone resulted in an amorphous range of complexes with little affinity for alpha Bgt or mAbs to the MIR, rather than in a unique 5S monomeric assembly intermediate species. A previously recognized temperature-dependent failure in alpha subunit maturation may cause instability of the monomeric assembly intermediate and accumulation of aggregated denatured alpha subunits. Coexpression of alpha with beta subunits also resulted in an amorphous range of complexes. However, coexpression of alpha subunits with gamma or delta subunits resulted in the efficient formation of 6.5S alpha gamma or alpha delta complexes with high affinity for mAbs to the MIR, alpha Bgt, and small cholinergic ligands. These alpha gamma and alpha delta subunit pairs may represent normal assembly intermediates in which Torpedo alpha is stabilized and matured in conformation. Coexpression of alpha, gamma, and delta efficiently formed 8.8S complexes, whereas complexes containing alpha beta and gamma or alpha beta and delta subunits are formed less efficiently. Assembly of beta subunits with complexes containing alpha gamma and delta subunits may normally be a rate-limiting step in assembly of AChRs.  相似文献   

17.
The nicotinic acetylcholine receptor of mammalian skeletal muscle is a multisubunit membrane glycoprotein whose synthesis is regulated by developmental and physiological cues. We report here the identification and characterization of the primary translation product of alpha subunit mRNA. The alpha subunit synthesized in rabbit reticulocyte lysate is approximately 2000 larger in apparent molecular weight than the native alpha subunit polypeptide found in acetylcholine receptor. Evidence from peptide maps and the effect of co-translational incubation with dog pancreas microsomes suggests that the in vitro product differs in two ways from native alpha subunit: 1) it is synthesized with an NH2-terminal signal peptide which is removed in vivo, and 2) the in vitro product is not glycosylated. We have characterized the alpha subunit mRNA activity by using a quantitative the membrane-bound polysome fraction. It is poly(A+) and approximately 2000 nucleotides long. Finally, we have shown that in BC3H-1 cells, alpha subunit mRNA is regulated developmentally. We detected a 10-fold increase in the relative abundance of alpha subunit mRNA in cells which had undergone the transition from log phase growth to differentiated myoblast.  相似文献   

18.
Two monoclonal antibodies (mAb 254 and 255) were obtained against a synthetic peptide corresponding to the sequence 235-242 of the alpha-subunit of Torpedo acetylcholine receptor. These mAbs could bind to receptor in native membrane vesicles only when these vesicles were permeabilized, suggesting that the sequence alpha 235-242 is exposed on the cytoplasmic surface of the receptor. Further evidence for the cytoplasmic localization of this sequence was partial competition for binding between these mAbs and mAbs previously demonstrated to bind to the cytoplasmic part of the receptor. A model is proposed which accounts for all the experimental data obtained thus far on the transmembrane orientation of the subunit polypeptide chains.  相似文献   

19.
20.
We have determined the subunit stoichiometry of chicken neuronal nicotinic acetylcholine receptors expressed in Xenopus oocytes by quantitation of the amount of radioactivity in individual subunits of [35S] methionine-labeled receptors. The chicken neuronal nicotinic acetylcholine receptor appears to be a pentamer of two alpha 4 acetylcholine-binding subunits and three beta 2 structural subunits. We also show that these expressed receptors bind L-[3H]nicotine with high affinity, are transported to the surface of the oocyte outer membrane, and cosediment on sucrose gradients with acetylcholine receptors isolated from chicken brain. Using this unique and generally applicable method of determining subunit stoichiometry of receptors expressed in oocytes, we obtained the expected (alpha 1) 2 beta 1 gamma delta stoichiometry for muscle-type acetylcholine receptors assembled from coexpression of either Torpedo alpha 1 or human alpha 1 subunits, with Torpedo beta 1, gamma, and delta subunits.  相似文献   

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