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1.
HLA class II MHC molecule alpha- and beta-chains are normally synthesized in the presence of a third molecule, the invariant chain (Ii). Although Ii is not required for surface expression of HLA class II molecules, the influence of Ii on post-translational processing and maturation HLA class II molecules has not been thoroughly studied. In the present study, BALB/c 3T3 cells were transfected with HLA-DR alpha- and beta-chains with or without co-transfection with human Ii. Although Ii had no effect on the surface expression of DR, Ii did have a profound effect on the post-translational processing of both the alpha- and beta-chains. In the absence of Ii, the major species of alpha- and beta-chains were of lower m.w. than when expressed in the presence of Ii. The differences in m.w. were shown to be caused by differences in glycosylation with the majority of alpha- and beta-chains remaining unprocessed and endo H sensitive in the absence of Ii. The small proportion of alpha-chains that were processed in the absence of Ii showed an altered m.w. and altered sensitivity to treatment with endo H relative to alpha-chains processed in the presence of Ii. Pulse/chase studies demonstrated that although the majority of the alpha- and beta-chains remained unprocessed in the absence of Ii, the small amount that was processed was done so at a rate similar to that observed for alpha- and beta-chains processed in the presence of Ii. These studies demonstrate that Ii influences the post-translational processing of human class II molecules by affecting the proportion of alpha- and beta-chains that are processed and by determining the degree of processing of oligosaccharides on mature alpha-chains.  相似文献   

2.
The high-affinity IgE receptor (FcepsilonRI) on mast cells and basophils consists of a ligand-binding alpha-chain and two kinds of signaling chains, a beta-chain and disulfide-linked homodimeric gamma-chains. Crosslinking by multivalent antigen results in the aggregation of the bound IgE/alpha-chain complexes at the cell surface, triggering cell activation, and subsequent internalization through coated pits. However, the precise topographical alterations of the signaling beta- and gamma-chains during stimulation remain unclarified despite their importance in ligand binding/signaling coupling. Here we describe the dynamics of FcepsilonRI subunit distribution in rat basophilic leukemia cells during stimulation as revealed by immunofluorescence and immunogold electron microscopy. Immunolocalization of beta- and gamma-chains was homogeneously distributed on the cell surfaces before stimulation, while crosslinking with multivalent antigen, which elicited optimal degranulation, caused a distinct aggregation of these signaling chains on the cell membrane. Moreover, only gamma- but not beta-chains were aggregated during the stimulation that evoked suboptimal secretion. These findings suggest that high-affinity IgE receptor beta- and gamma-chains do not co-aggregate but for the most part form homogenous aggregates of beta-chains or gamma-chains after crosslinking.  相似文献   

3.
4.
Biosynthetic sulfation of human fibrinogen was investigated using a hepatoma-derived cell line in culture. Very little [35]sulfate was incorporated into the major forms of the A alpha, B beta, or gamma-chains of fibrinogen, but there was a labeled peptide chain with electrophoretic mobility intermediate between the B beta and gamma-chains. Base hydrolysis of the sulfate-labeled product released tyrosine sulfate. The labeled peptide is identified as a form of gamma-chain by its resistance to proteolysis during extended periods of incubation, in contrast with A alpha and B beta-chains which are converted to smaller forms. The results indicate that human fibrinogen contains tyrosine sulfate primarily within a variant form of the gamma-chain.  相似文献   

5.
In order to determine the factors that influence the glycosylation of an integral membrane protein, we investigated the N-glycosylation of a molecule of the human major histocompatibility complex (MHC) class II, the HLA-DR antigen. This glycoprotein was studied in a human Epstein-Barr-virus-transformed B cell line and in a mouse fibroblastic cell line co-transfected with DR alpha and DR beta genes. We observed that the HLA-DR-antigen glycosylation pattern depends on the cell line in which processing takes place and is closely related to the glycosylation pattern of the overall cellular glycoproteins. Furthermore, when comparing the glycosylation of the separated alpha- and beta-chains, differences were noticed within the same molecule, showing the importance of the individual peptide backbone for the glycosylation process.  相似文献   

6.
Cathepsin B cleavage of Ii from class II MHC alpha- and beta-chains   总被引:1,自引:0,他引:1  
Class II MHC-associated invariant chain (Ii) might regulate binding of digested peptides to the Ag binding site (desetope) of class II MHC proteins by directly or allosterically blocking that site until cleavage and release of Ii from MHC alpha- and beta-chains at the time of peptide charging. We examined the cleavage and release of Ii from class II MHC alpha/beta Ii trimers by cathepsin B, which has been shown by others to colocalize with class II MHC molecules in intracellular compartments and to generate antigenic peptide fragments. Cathepsin B at pH 5.0 cleaved and released Ii from class II MHC alpha- and beta-chains. Cathepsin B digested Ii from alpha- and beta-chains in a dose-dependent fashion, yielding 23-, 21-, and 10-kDa fragments. Blockage of cathepsin B activity with leupeptin restored the 2D(nonequilibrium pH gradient gel electrophoresis/SDS) PAGE patterns of Ii and sialic acid-derivatized forms of Ii seen without the protease. The fragmentation pattern of cathepsin D treatment was different from that of cathepsin B, yielding 25-kDa intermediates.  相似文献   

7.
Detergent extracts of B lymphoblastoid cell lines (B-LCL) were subjected to immunoaffinity chromatography and gel filtration to purify HLA class II antigens. Class II antigens purified from B-LCL cultured for 24 hr in 10 microM monensin, in which glycoproteins are trapped in transit through the Golgi apparatus, exist in a large macromolecular complex composed of the alpha- and beta-subunits of class II molecules associated with the invariant (I) chain and a sulfated macromolecule that appears to be a proteoglycan. Gel filtration experiments on Sephacryl S-300 reveal that the complex has a Stokes radius corresponding to a globular protein of approximately 270,000 m.w. Analysis of radiolabeled preparations by two-dimensional gel electrophoresis suggests that the complex contains the alpha-, the beta-, and I chain subunits in a 1:1:1 ratio. Dissociation of the protein components followed by gel filtration of the proteoglycan indicates that the proteoglycan contributes approximately 180,000 m.w. to the complex. These results suggest that the complex contains one copy each of the alpha-, the beta-, and the I subunits associated with a proteoglycan molecule. This complex appears to represent a biosynthetic intermediate in the expression of class II molecules which is induced to accumulate intracellularly by monensin treatment of B-LCL.  相似文献   

8.
Newly synthesized MHC II alpha- and beta-chains associated with the invariant chain chaperone (Ii) enter the endocytic pathway for Ii degradation and loading with peptides before transport to the cell surface. It is unclear how alphabetaIi complexes are sorted from the Golgi apparatus and directed to endosomes. However, indirect evidence tends to support direct transport involving the AP1 clathrin adaptor complex. Surprisingly, we show here that knocking down the production of AP1 by RNA interference did not affect the trafficking of alphabetaIi complexes. In contrast, AP2 depletion led to a large increase in surface levels of alphabetaIi complexes, inhibited their rapid internalization, and strongly delayed the appearance of mature MHC II in intracellular compartments. Thus, in the cell systems studied here, rapid internalization of alphabetaIi complexes via an AP2-dependent pathway represents a key step for MHC II delivery to endosomes and lysosomes.  相似文献   

9.
HLA class II molecules have been isolated from a [3H]mannose-labeled GM3104 B lymphoblastoid cell line with the phenotype DQw1, DR1. The DQw1 molecules were purified by affinity to 77-34 IgG specifically reactive with the DQw1 specificity. The DR1 molecules were separated into two subsets, DR1a (70 to 80%) and DR1b (20 to 30%), by sequential affinity to 21r5-IgG and 21w4-IgG Sepharose. The alpha- and beta-chains of [3H]mannose-labeled DQw1, DR1a, and DR1b molecules were separated by SDS-PAGE and were recovered by electrophoretic elution. The isolated chains were digested with pronase and the glycopeptides were fractionated by sequential lectin chromatography on immobilized concanavalin A (Con A), Lens culinaris (Lens), and Ricinus communis agglutinin type I (RCA). The N-linked glycopeptides derived from the alpha-chains of DQw1, DR1a, or DR1b showed similar profiles on Con A Sepharose: 45% unbound (ConA I), 25% weakly bound (ConA II), and 30% tightly bound (ConA III). The glycopeptides derived from the beta-chains of DQw1 or DR1 molecules were found almost exclusively (80%) in the fraction unbound to Con A Sepharose, with only 11% and 9% in ConA II and ConA III fractions, respectively. The observation that most of the binding to Con A is associated with the alpha-chain glycopeptides suggests that binding of membrane-associated class II molecules to that lectin must be mediated by the alpha-chains. Binding to Lens Sepharose was higher for beta-(50%) than for alpha-(15%) chain glycopeptides, suggesting that within the intact glycoproteins, the beta-chains are responsible for the interaction with Lens. The ConA I fractions derived from the alpha-chain glycopeptides of either DQw1 or DR1 molecules were separated on RCA-agarose as follows: 60% unbound, 17% retarded, and 20% bound and eluted with 0.1 M galactose. The ConA I fractions derived from the beta-chain glycopeptides of either subset of class II molecules also had a similar profile on RCA-agarose: 70% unbound, 16% retarded, and 10% bound and eluted specifically. After removal of sialic acid residues, all of the ConA I fractions of alpha- and beta-chains bound to RCA-agarose. A high degree of similarity was observed between the corresponding glycopeptides of the three subsets of class II molecules and between the complex N-linked structures of alpha- and beta-chains. Minor variations were observed between DR1a and DR1b glycopeptides which appear greater than those observed between DR1 and DQw1 glycopeptides.(ABSTRACT TRUNCATED AT 400 WORDS)  相似文献   

10.
We observed that IFN-gamma-inducible expression of the DR alpha gene was enhanced when THP-1 cells are differentiated into macrophage-like cells by phorbol ester treatment. Here, we observed that class II MHC trans-activator and STAT1 alpha mRNA, mediators of the signaling cascade from the IFN-gamma receptor to the DR alpha induction, were markedly increased by IFN-gamma stimulation in phorbol ester-activated THP-1 cells; however, both mRNAs were not increased by phorbol ester treatment alone. Then, we demonstrated that the mRNA and proteins of the IFN-gamma receptor alpha- and beta-chains were amplified by phorbol ester treatment in THP-1 cells. Consequently, these results indicate that the enhancement of DR alpha gene expression by IFN-gamma treatment in phorbol ester-activated THP-1 cells is due to the phorbol ester-induced up-regulation of IFN-gamma receptor alpha- and beta-chains. As a result, the amplification of STAT1 alpha and the increment of class II MHC trans-activator results in enhancement of DR alpha expression.  相似文献   

11.
The major glycopeptide fractions of the alpha- and beta-chains of HLA-DR1 and DQw1 molecules were isolated on columns of immobilized concanavalin A (Con A), Lens culinaris (Lens), Ricinus communis agglutinin Type I (RCA), and leuko-phytohemagglutinin. Oligosaccharides were prepared from these fractions by enzymatic digestion with Endoglycosidases H or F and were analyzed on Bio-Gel P-6. The glycopeptides tightly bound to Con A (ConA III) were mostly associated with alpha-chains and were resolved as a single oligosaccharide peak (Kd = 0.72) on Bio-Gel P-6 after Endo H digestion. Man-5 is the minimal polymannosyl structure which can be deduced for the ConA III fractions of either DQw1 or DR1 oligosaccharides. The major component of the glycopeptides of the alpha-chains of either DR1 or DQw1 molecules which were weakly bound to Con A (ConA II fraction) did not interact with RCA before or after mild acid hydrolysis or neuraminidase treatment. This component represents a biantennary complex with neither terminal galactose nor sialic acid residues with a minimal structure terminating in N-acetyl glucosamine on the Mannose alpha 1----6 arm, referred to as GnM. The ConA II fractions, which constitute 10% of the total glycopeptides of beta-chains, are associated primarily with fucosylated, sialylated biantennary oligosaccharides not seen on the alpha-chains. The ConA I unbound fractions of either alpha- or beta-chains were mostly bound to RCA after mild acid hydrolysis, suggesting that the minimal structure was a sialylated triantennary structure. The major component associated with the beta-chains was bound to Lens such that a more definite structural assignment can be made, i.e., a triantennary structure with the Mannose on the alpha 1----6 arm substituted at C-2 and C-6. The oligosaccharides of alpha- and beta-chains were resolved as broad peaks on Bio-Gel P-6, suggesting that a mixture of tri- and tetraantennary structures with variable degrees of sialylation and galactosylation were present. The structural differences reported here between oligosaccharides of alpha- and beta-chains of DQw1 and of the two subsets of DR1 molecules could be responsible in part for the differential recognition properties expected of human class II molecules encoded by distinct loci.  相似文献   

12.
Newly synthesized class II molecules of the major histocompatibility complex must be transported to endosomal compartments where antigens are processed for presentation to class II-restricted T cells. The invariant chain (Ii), which assembles with newly synthesized class II alpha- and beta-chains in the endoplasmic reticulum, carries one or more targeting signals for transport to endosomal compartments where Ii dissociates from alpha beta Ii complexes. Here we show that the transport route of alpha beta Ii complexes is regulated selectively by two forms of Ii (p33 and p35) that are generated by the use of alternative translation initiation sites. Using a novel quantitative surface arrival assay based on labeling with [6-3H]-D-galactose combined with biochemical modification at the cell surface with neuraminidase, we demonstrate that newly synthesized alpha beta Ii molecules containing the Ii-p33 isoform can be detected on the cell surface shortly after passage through the Golgi apparatus/trans-Golgi network. A substantial amount of these alpha beta Ii complexes are targeted to early endosomes either directly from the trans-Golgi network or after internalization from the cell surface before their delivery to antigen processing compartments. The fraction of alpha beta Ii complexes containing the p35 isoform of Ii with a longer cytosolic domain was not detected at the cell surface as determined by iodination of intact cells and the lack of susceptibility to neuraminidase trimming on ice. However, treatment with neuraminidase at 37 degrees C did reveal that some of the alpha beta Ii-p35 complexes traversed early endosomes. These results demonstrate that a fraction of newly synthesized class II molecules arrive at the cell surface as alpha beta Ii complexes before delivery to antigen processing compartments and that class II alpha beta Ii complexes associated with the two isoforms of Ii are sorted to these compartments by different transport routes.  相似文献   

13.
14.
We have generated a chimeric protein molecule composed of the alpha- and beta-chains of the MHC class II I-E molecule fused to antibody V regions derived from anti-human CD4 mAb MT310. Expression vectors were constructed containing the functional, rearranged gene segments coding for the V region domains of the antibody H and L chains in place of the first domains of the complete structural genes of the I-E alpha- and beta-chains, respectively. Cells transfected with both hybrid genes expressed a stable protein product on the cell surface. The chimeric molecule exhibited the idiotype of the antibody MT310 as shown by binding to the anti-idiotypic mAb 20-46. A protein of the anticipated molecular mass was immunoprecipitated with anti-mouse IgG antiserum. Furthermore, human soluble CD4 did bind to the transfected cell line, demonstrating that the chimeric protein possessed the binding capacity of the original mAb. Thus, the hybrid molecule retained: 1) the properties of a MHC class II protein with regard to correct chain assembly and transport to the cell surface; as well as 2) the Ag binding capacity of the antibody genes used. The generation of hybrid MHC class II molecules with highly specific, non-MHC-restricted binding capacities will be useful for studying MHC class II-mediated effector functions such as selection of the T cell repertoire in thymus of transgenic mice.  相似文献   

15.
Prolonged thrombin time was completely corrected by the addition of millimolar concentrations of calcium in a new abnormal fibrinogen, Osaka V. Analysis of lysyl endopeptidase digests of A alpha-, B beta-, or gamma-chains by high performance liquid chromatography, and the following amino acid sequence analysis of relevant peptides revealed that about 50% of the gamma-chain has a replacement of gamma-arginine 375 by glycine. When fibrinogen was digested with plasmin in the presence of millimolar concentration of calcium, the amount of fragment D1 was about 50% of the normal control, and the rest was further cleaved to fragment D2, D3, or D62 with an apparent Mr of 62,000. Plasmic digestion of cross-linked fibrin in the presence of calcium resulted in the appearance of an abnormal fragment with an apparent Mr of 123,000 as well as fragments D2, D3, and D62, concomitant with the decrease of D dimer. The gamma-remnant of the abnormal fragment proved to be a cross-linked complex of the normal D1 gamma-remnant and residues 374-406/411 of the abnormal gamma-chain. The number of high affinity Ca(2+)-binding sites for the normal fibrinogen and fibrinogen Osaka V obtained by equilibrium dialysis was 2.88 (about 3) and 1.85, respectively, and that for the abnormal molecules was calculated as 0.9 (about 1) from their relative amounts in the samples, suggesting the lack of two Ca(2+)-binding sites in the D-domains. These data suggest that the normal structure of the COOH-terminal portion of the gamma-chain including residue 375 is required for the full expression of high affinity calcium binding to D-domains, the ability to be protected by calcium against plasmic digestion, and fibrin polymerization. During these studies, we found that the NH2-terminal amino acid of the gamma-remnant in fragments D or D dimer which were obtained after prolonged digestion with plasmin is gamma-Met89.  相似文献   

16.
Hemoglobin is the main oxygen carrying heme protein in erythrocytes. In an effort to study the differential gene expression of alveolar epithelial type I and type II cells using DNA microarray technique, we found that the mRNAs of hemoglobin alpha- and beta-chains were expressed in type II cells, but not in type I cells. The microarray data were confirmed by RT-PCR. The mRNA expression of both chains decreased when type II cells trans-differentiated into type I-like cells. Immunocyto/histochemistry revealed that hemoglobin protein was specifically localized in type II cells of a lung cell mixture and rat lung tissue. The endogenous synthesis of hemoglobin in alveolar epithelial cells suggests that hemoglobin may have unidentified functions other than oxygen transport in the lung.  相似文献   

17.
A rat monoclonal antibody (McAb 21:9) reactive with the human invariant gamma-chain of class II major histocompatibility complex (MHC)-encoded antigens was isolated and was shown to react with the carbohydrate-carrying, COOH-terminal part of the gamma-chain. The McAb 21:9 binds to a molecule that is identified as the gamma-chain for the following reasons: it has an apparent m.w. of 33,000, similar to that of the gamma-chain; it has a two-dimensional gel migration pattern identical to that of the gamma-chain; and it associates with immature, but not processed class II antigens. When used for immunohistochemical staining on sections of normal human skin, only dendritic, class II MHC antigen, and anti-Leu-6 reactive Langerhans cells are labeled in the epidermis. HLA-DR-expressing keratinocytes present in the tuberculin reaction, cutaneous T cell lymphoma, and lichen planus, however, did not react with the anti-gamma-chain antibody, nor with a HLA-DQ-reactive antibody. Cell surface expression of the gamma-chain was observed on 1 to 3% of normal viable epidermal cells in suspension. By using double indirect immunofluorescence, it was possible to demonstrate the simultaneous binding of anti-gamma-chain, anti-HLA-DR, anti-Leu-10, and anti-Leu-6 antibodies, respectively, on the same cells, thus confirming their identity as Langerhans cells. The presence of the gamma-chain on the surface of the immunocompetent Langerhans cells may indicate that the cell surface, not the cytoplasm as has been suggested, is the site of the primary function of the gamma-chain.  相似文献   

18.
Exogenous Ags taken up from the fluid phase can be presented by both newly synthesized and recycling MHC class II molecules. However, the presentation of Ags internalized through the B cell receptor (BCR) has not been characterized with respect to whether the class II molecules with which they become associated are newly synthesized or recycling. We show that the presentation of Ag taken up by the BCR requires protein synthesis in splenic B cells and in B lymphoma cells. Using B cells transfected with full-length I-Ak molecules or molecules truncated in cytoplasmic domains of their alpha- or beta-chains, we further show that when an Ag is internalized by the BCR, the cytoplasmic tails of class II molecules differentially control the presentation of antigenic peptides to specific T cells depending upon the importance of proteolytic processing in the production of that peptide. Integrity of the cytoplasmic tail of the I-Ak beta-chain is required for the presentation of the hen egg lysozyme determinant (46-61) following BCR internalization, but that dependence is not seen for the (34-45) determinant derived from the same protein. The tail of the beta-chain is also of importance for the dissociation of invariant chain fragments from class II molecules. Our results demonstrate that Ags internalized through the BCR are targeted to compartments containing newly synthesized class II molecules and that the tails of class II beta-chains control the loading of determinants produced after extensive Ag processing.  相似文献   

19.
HLA-DM (DM) is a heterodimeric MHC molecule that catalyzes the peptide loading of classical MHC class II molecules in the endosomal/lysosomal compartments of APCs. Although the function of DM is well-established, little is known about how DMalpha and beta-chains fold, oxidize, and form a complex in the endoplasmic reticulum (ER). In this study, we show that glycosylation promotes, but is not essential for, DMalphabeta ER exit. However, glycosylation of DMalpha N15 is required for oxidation of the alpha-chain. The DMalpha and beta-chains direct each others fate: single DMalpha chains cannot fully oxidize without DMbeta, while DMbeta forms disulfide-linked homodimers without DMalpha. Correct oxidation and subsequent ER egress depend on the unique DMbeta C25 and C35 residues. This suggests that the C25-C35 disulfide bond in the peptide-binding domain overcomes the need for stabilizing peptides required by other MHC molecules.  相似文献   

20.
The primary structures of a cDNA and the genomic DNA of a gene selectively expressed in chronic lymphocytic leukemia were determined. A computer search of the nucleotide sequence data bank identified this gene as the invariant gamma-chain associated with class II histocompatibility antigens. The invariant gamma-chain genomic sequence spans about 11 kilobases, with eight exons and seven introns. Three of the introns contain members of the Alu repeat family. A putative cap site and promoter sequence were identified at the 5' end of the gene. One or two copies of the gene is present in each haploid genome, and no evidence for amplification or polymorphism was obtained.  相似文献   

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