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1.
2.
Phosphorylation sites in human erythrocyte band 3 protein   总被引:6,自引:0,他引:6  
The human red cell anion-exchanger, band 3 protein, is one of the main phosphorylated proteins of the erythrocyte membrane. Previous studies from this laboratory have shown that ATP-depletion of the red blood cell decreased the anion-exchange rate, suggesting that band 3 protein phosphorylation could be involved in the regulation of anion transport function (Bursaux et al. (1984) Biochim. Biophys. Acta 777, 253-260). Phosphorylation occurs mainly on the cytoplasmic domain of the protein and the major site of phosphorylation was assigned to tyrosine-8 (Dekowski et al. (1983) J. Biol. Chem. 258, 2750-2753). This site being very far from the integral, anion-exchanger domain, the aim of the present study was to determine whether phosphorylation sites exist in the integral domain. The phosphorylation reaction was carried out on isolated membranes in the presence of [gamma-32P]ATP and phosphorylated band 3 protein was then isolated. Both the cytoplasmic and the membrane spanning domains were purified. The predominant phosphorylation sites were found on the cytoplasmic domain. RP-HPLC analyses of the tryptic peptides of whole band 3 protein, and of the isolated cytoplasmic and membrane-spanning domains allowed for the precise localization of the phosphorylated residues. 80% of the label was found in the N-terminal tryptic peptide (T-1), (residues 1-56). In this region, all the residues susceptible to phosphorylation were labeled but in varying proportion. Under our conditions, the most active membrane kinase was a tyrosine kinase, activated preferentially by Mn2+ but also by Mg2+. Tyrosine-8 was the main phosphate acceptor residue (50-70%) of the protein, tyrosine-21 and tyrosine-46 residues were also phosphorylated but to a much lesser extent. The main targets of membrane casein kinase, preferentially activated by Mg2+, were serine-29, serine-50, and threonine(s)-39, -42, -44, -48, -49, -54 residue(s) located in the T-1 peptide. A tyrosine phosphatase activity was copurified with whole band 3 protein which dephosphorylates specifically P-Tyr-8, indicating a highly exchangeable phosphate. The membrane-spanning fragment was only faintly labeled.  相似文献   

3.
  • 1.1. Amino acid sequences of bovine and porcine band 3, an erythrocyte anion transporter, were determined.
  • 2.2. The sequence of bovine band 3 was positioned to residues 519–599 (the numbering is based on human band 3), in which probably 6 residues were unidentified.
  • 3.3. Binding site of DIDS (4,4'-diisothiocyanostilbene-2,2'-disulfonate), a potent anion transport inhibitor, was identified as Lys-539 in the bovine case.
  • 4.4. A loop (residues 551–567), which provides exofacial proteolytic cleavage sites, contains only 53% homology between human and bovine, whereas the residues flanking it on either side are >84% homologous.
  • 5.5. Furthermore, the loop of porcine band 3 was indicated to consist of a 6 or 7-residues short peptide as compared with those of other species.
  相似文献   

4.
The predominant attachment site of the spectrin-based cytoskeleton to the erythrocyte membrane occurs via the interaction of ankyrin with the cytoplasmic domain of band 3 (cdb3). In order to further characterize this interaction, we have conducted experiments to localize the ankyrin-binding site on cdb3. Four monoclonal and three antipeptide polyclonal antibodies were raised against cdb3 and used in competition studies to identify regions of close association of cdb3 with ankyrin. Antibodies to regions of cdb3 near the cytoplasmic domain-membrane spanning domain junction had no effect on 125I-ankyrin binding. Likewise, an antibody to a highly conserved region between residues 142 and 154 did not inhibit ankyrin binding. However, antibodies at or near the cysteine 201-317 cluster and the proposed proline-rich hinge in the center of cdb3 were potent inhibitors of ankyrin association, as were antibodies to the acidic NH2 terminus. Additional evidence for interaction of ankyrin with the NH2-terminal region of cdb3 was obtained by demonstrating the ability of ankyrin to inhibit tyrosine phosphorylation of cdb3 at its NH2 terminus by a purified calf thymus tyrosine kinase. These studies reveal two regions of cdb3, distant in primary sequence, which interact with ankyrin. A specific conformation of cdb3 may be required to permit these regions to simultaneously associate with ankyrin and allow binding to occur.  相似文献   

5.
The amino-acid residues of band 3 protein taking part in the ionic interaction with an anion-transport inhibitor, eosin 5-isothiocyanate (EITC), were determined by pH titration. The plots of the absorbance of EITC-ghost system against pH reveal five equilibria, at pH 3.7, 6.4, 8.0, 11.0 and 13.1. Since the three equilibria, 3.7, 8.0 and 11.0, are representative of the EITC molecule, the others, 6.4 and 13.1, may be due to the interaction of EITC molecules with histidine and arginine residues, respectively. The same experiment using a reconstituted system of band 3-lipid vesicles gave results in good agreement with the EITC-ghost system. The intensity of the induced CD band at 530 nm of EITC molecules bound to ghosts was decreased by preincubation with arginine-specific reagents, phenylglyoxal and 1,2-cyclohexanedione, or histidine-specific reagents, diethylpyrocarbonate (DEPC) and p-diazobenzene sulfonate. The repression effects by these chemical modifiers were evaluated by measuring the concentrations which elicit 50% reduction. The histidine-specific reagents repressed the CD of EITC more effectively than the arginine-specific reagents. Furthermore, it was found that DEPC effectively inhibited the sulfate efflux from intact erythrocytes. These results suggest that the histidine residues participate in the anion-transport system of human red cells.  相似文献   

6.
7.
Catabolism of human erythrocyte membrane band 3 protein in the presence of Ca2+ was studied. An increase in the amount of a 30 kDa amino terminal fragment of band 3 was observed when erythrocyte membranes were incubated for 30 min with 1 mM Ca2+ in the presence of whole erythrosol. Incubation of the membranes with Ca2+ alone did not result in band 3 breakdown. Generation of the 30 kDa fragment from band 3 was related to the action of a leupeptin-sensitive Ca2+-dependent proteinase in the cytosol. This proteinase was also responsible for the increased production of a 52 kDa and a 70 kDa transmembrane carboxyl terminal fragment of band 3. From the size of the generated fragments, it is deduced that in the presence of Ca2+ and Ca2+-dependent proteinase, band 3 protein is cleaved at the cytoplasm/membrane interface and along its cytoplasmic domain.  相似文献   

8.
In previous studies it has been shown that protoporphyrin-induced photodynamic effects on red blood cells are caused by photooxidation of amino acid residues in membrane proteins and by the subsequent covalent cross-linking of these proteins. Band 3, the anion transport protein of the red blood cell membrane, has a relatively low sensitivity to photodynamic cross-linking. This cannot be attributed to sterical factors inherent in the specific localization of band 3 in the membrane structure. Solubilized band 3, for instance, showed a similar low sensitivity to cross-linking. By extracellular chymotrypsin cleavage of band 3 into fragments of 60 000 and 35 000 daltons it could be shown that both fragments were about equally sensitive to photodynamic cross-linking. The 17 000 dalton transmembrane segment, on the other hand, was completely insensitive. Inhibition of band 3-mediated sulfate transport proceeded much faster than band 3 interpeptide cross-linking, presumably indicating that the inhibition of transport is caused by photooxidation of essential amino acid residues or intrapeptide cross-linking. A close parallel was observed between photodynamic inhibition of anion transport and decreased binding of 4,4′-diisothiocyanodihydrostilbene-2,2′-disulfonate (H2DIDS), suggesting that a photooxidation in the immediate vicinity of the H2DIDS binding site may be responsible for transport inhibition.  相似文献   

9.
Glycosylation site of band 3, the human erythrocyte anion-exchange protein   总被引:2,自引:0,他引:2  
D G Jay 《Biochemistry》1986,25(3):554-556
The band 3 protein has a single glycosylation site on the carboxy-terminal 55 000-dalton tryptic fragment that defines a sequence of the polypeptide on the extracytoplasmic surface of the cell. To locate this site, a novel procedure involving end labeling of the 55 000-dalton tryptic fragment was used. Peptides resulting from partial proteolysis of the end radiolabeled glycoprotein were separated by lectin-Sepharose chromatography and analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and autoradiography. The smallest fragment observed defined the distance between the glycosylation site and the amino terminus. The procedure was first tested on a protein for which the location of the glycosylation site is known, HLA-B7 antigen. It was then used to show that the glycosylation site of human band 3 is 28 000 +/- 3000 daltons from the carboxy terminus of the protein.  相似文献   

10.
This paper describes characteristics of the transport of oxalate across the human erythrocyte membrane. Treatment of cells with low concentrations of H2DIDS (4,4'-diisothiocyanatostilbene-2,2'- disulfonate) inhibits Cl(-)-Cl- and oxalate-oxalate exchange to the same extent, suggesting that band 3 is the major transport pathway for oxalate. The kinetics of oxalate and Cl- self-exchange fluxes indicate that the two ions compete for a common transport site; the apparent Cl- affinity is two to three times higher than that of oxalate. The net exchange of oxalate for Cl-, in either direction, is accompanied by a flux of H+ with oxalate, as is also true of net Cl(-)-SO4(2-) exchange. The transport of oxalate, however, is much faster than that of SO4(2-) or other divalent anions. Oxalate influx into Cl(-)-containing cells has an extracellular pH optimum of approximately 5.5 at 0 degrees C. At extracellular pH below 5.5 (neutral intracellular pH), net Cl(-)- oxalate exchange is nearly as fast as Cl(-)-Cl- exchange. The rapid Cl(- )-oxalate exchange at acid extracellular pH is not likely to be a consequence of Cl- exchange for monovalent oxalate (HOOC-COO-; pKa = 4.2) because monocarboxylates of similar structure exchange for Cl- much more slowly than does oxalate. The activation energy of Cl(-)- oxalate exchange is about 35 kCal/mol at temperatures between 0 and 15 degrees C; the rapid oxalate influx is therefore not a consequence of a low activation energy. The protein phosphatase inhibitor okadaic acid has no detectable effect on oxalate self-exchange, in contrast to a recent finding in another laboratory (Baggio, B., L. Bordin, G. Clari, G. Gambaro, and V. Moret. 1993. Biochim. Biophys. Acta. 1148:157-160.); our data provide no evidence for physiological regulation of anion exchange in red cells.  相似文献   

11.
Of the several proteins that bind along the cytoplasmic domain of erythrocyte membrane band 3, only the sites of interaction of proteins 4.1 and 4.2 remain to be at least partially localized. Using five independent techniques, we have undertaken to map and characterize the binding site of band 4.1 on band 3. First, transfer of a radioactive cross-linker (125I-2-(p-azido-salicylamido)ethyl-1-3-dithiopropionate) from purified band 4.1 to its binding sites on stripped inside-out erythrocyte membrane vesicles (stripped IOVs) revealed major labeling of band 3, glycophorin C, and glycophorin A. Proteolytic mapping of the stripped IOVs then demonstrated that the label on band 3 was confined largely to a fragment comprising residues 1-201. Second, competitive binding experiments with Fab fragments of monoclonal and peptide-specific polyclonal antibodies to numerous epitopes along the cytoplasmic domain of band 3 displayed stoichiometric competition only with Fabs to epitopes between residues 1 and 91 of band 3. Weak competition was also observed with Fabs to a sequence of the cytoplasmic domain directly adjacent to the membrane-spanning domain, but only at 50-100-fold excess of Fab. Third, band 4.1 protected band 3 from chymotryptic hydrolysis at tyrosine 46 and to a much lesser extent at a site within the junctional peptide connecting the membrane-spanning and cytoplasmic domains of band 3. Fourth, ankyrin, which has been previously shown to interact with band 3 both near a putative central hinge and at the N terminus competed with band 4.1 for band 3 in stripped IOVs. Since band 4.1 does not associate with band 3 near the flexible central hinge, the competition with ankyrin can be assumed to derive from a mutual association with the N terminus. Finally, a synthetic peptide corresponding to residues 1-15 of band 3 was found to mildly inhibit band 4.1 binding to stripped IOVs. Taken together, these data suggest that band 4.1 binds band 3 predominantly near the N terminus, with a possible secondary site near the junction of the cytoplasmic domain and the membrane.  相似文献   

12.
13.
Two monoclonal antibodies (MB40.2 and MB40.3) which are highly specific for HLA-B40 and HLA-B7 were made. They appear to be directed against two separate alloantigenic sites of these HLA molecules. Semiquantitative analysis of the kinetics of antibody binding show that MB40.2 recognizes a site which shows a degree of cross-reactivity with B7 and is specific to some B40 molecules. This antibody also distinguishes between different molecules typed as B40. In contrast, MB40.3 recognizes an antigenic determinant which is less variable between B7 and B40 and more closely approximates a public antigen or common antigenic site. This study suggests that the introduction of monoclonal antibodies into MHC serology not only permits but demands a quantitative analysis of these complex systems of homologous but highly polymorphic molecules.Abbreviations used in this paper MHC major histocompatibility complex - IgG immunoglobulin G - SDS-PAGE sodium dodecyl sulfate polyacrylamide gel electrophoresis - PBS phosphate-buffered saline - BSA bovine serum albumin - FCS fetal calf serum - RAM rabbit anti-mouse IgG F(ab)2 fragmentsFor convenience the terms HLA antigen and H-2 antigen will refer only to the 2-microglobulin-associated, class I molecules coded for by the major histocompatibility complex of man and the mouse, respectively.  相似文献   

14.
Monoclonal antibodies for human thrombomodulin, a cofactor for thrombin-catalyzed activation of protein C, were prepared and their epitopes characterized. All six antibodies (MFTM-1-MFTM-6) bound to an elastase-digested active fragment of thrombomodulin, which contains six consecutive EGF domains. Binding of thrombomodulin to these antibodies did not depend on Ca2+ concentration. MFTM-4, MFTM-5, and MFTM-6 strongly inhibited protein C activation by thrombin and thrombomodulin. MFTM-4 and MFTM-5 inhibited thrombin binding to fixed thrombomodulin and bound to a recombinant mutant EGF456 protein, which contained the fourth, fifth, and sixth EGF domains of thrombomodulin. However, MFTM-6 did not inhibit thrombin binding to thrombomodulin and did not bind to EGF456 protein. Binding of thrombomodulin to fixed MFTM-4 or MFTM-5 was competitively inhibited by a recombinant mutant EGF45 protein which contained the fifth and sixth EGF-domains. These results suggest that epitopes of MFTM-4 and MFTM-5 are located in the fifth EGF domain of thrombomodulin. Thus, the binding site for thrombin is located in the fifth EGF domain. These results also suggest that an epitope for MFTM-6 is located at a region near the binding site for gamma-carboxyglutamic acid residues of protein C via Ca2+ on thrombomodulin.  相似文献   

15.
Spectrin, isolated from human erythrocyte membrane, was specifically cleaved at the amino side of its cysteine residues by reacting it with 2-nitro-5-thiocyanobenzoic acid at pH 8.0 and incubating the product at pH 9.0. Conditions were developed to obtain quantitative cleavage, with virtually no side reactions due to exposure to the alkaline pH. The solubility and aggregation state of the spectrin fragments in 0.2 M sodium chloride, in 7 M guanidine hydrochloride or in 10 M urea, at pH 8.0, allow separation and partial purification of the fragments by gel filtration or by ion-exchange chromatography. Our results strongly suggest that various parts of the spectrin molecules have similar amino acid compositions. Due to the relatively limited number of fragments, this cleavage method is a promising tool for further elucidation of the structure of spectrin and for understanding its role in the erythrocyte membrane.  相似文献   

16.
The two structurally related probes, the apolar phenylisothiocyanate and the polar, water-soluble p-sulfophenylisothiocyanate, were analysed for their topological interaction with human erythrocyte band 3 protein. Upon thermolytic and peptic digestion of labeled erythrocyte ghosts, the membrane-integrated segments of band 3 protein, the 17,000 and 10,000 dalton peptides, were isolated. At 2 mM initial label concentration, 90% of the hydrophobic probe phenylisothiocyanate was recovered in the 10,000 dalton peptide, the remaining amount of label being associated with the 17,000 dalton fragment. Pretreatment of the membranes with 5 mM p-sulfophenylisothiocyanate followed by labeling with 2 mM phenylisothiocyanate results in a consistent reduction in binding of phenylisothiocyanate by 1 mol/mol isolated band 3 protein. p-Sulfophenylisothiocyanate reportedly binds to the 17,000 dalton fragment (Drickamer, K. (1977), J. Biol. Chem. 252, 6909-6917). The interaction of the polar probe with the membrane protein affects binding of phenylisothiocyanate to the 10,000 dalton peptide by the equivalent of 1 mol/mol isolated peptide. The topological interrelation of the membrane-integrated segments is concluded.  相似文献   

17.
Conclusions Evidence from many laboratories using several different techniques strongly suggests that, in the intact red cell, band 3 exists as dimers which can associate with other dimers to form tetramers. The kinetics of anion transport inhibition by stilbenedisulfonates indicate that irreversible inhibition of one subunit does not detectably affect anion transport by the other subunit. This does not imply that monomeric band 3 could necessarily transport anions; the native conformation of each subunit may require stabilizing interactions with another subunit, as indicated by the recent work of Boodhoo and Reithmeier [10]. A more detailed understanding of the structure of the band 3 dimer/tetramer will require information on which specific segments of the primary structure are involved in subunit-subunit contact. The combination of chemical cross-linking with proteolysis [136] is a promising approach to this problem.  相似文献   

18.
Glyceraldehyde-3-phosphate dehydrogenase (EC 1.2.1.12) binds reversibly to human erythrocyte membranes. Several specific amino acid residues involved in the enzyme-membrane contact region have already been identified. These include tyrosine 46 and threonine 150. Covalent modification of lysines 212 and 191 with pyridoxal phosphate results in a decreased affinity of the enzyme for erythrocyte membranes if the enzyme-linked pyridoxal phosphate is not reduced prior to binding. Reduction of the pyridoxal phosphate-lysine complex completely inhibits the binding of the enzyme to erythrocyte membranes. These results suggest a role for lysines 212 and 191 in the interaction of glyceraldehyde-3-phosphate with human erythrocyte membranes.  相似文献   

19.
We have determined the amino acid sequence of the N alpha-terminal portion of band 3, the anion transport protein of the human erythrocyte membrane. The material analyzed was a 201-residue, 23,053-Da fragment cleaved from the cytoplasmic end of band 3 by S-cyanylation. The sequence had these notable features. 1) The N alpha-terminal region was extraordinarily acidic, second only to a segment of similar size from the sigma factor of Escherichia coli RNA polymerase. The first 33 residues contained 6 aspartic acid and 12 glutamic acid residues, no basic residue, and a blocked N alpha-amino group. 2) The first 11 residues of the protein had a striking resemblance to the following 11 residues. 3) In contrast to the acidic N alpha-terminal third, the COOH-terminal two-thirds of the 23,053-Da fragment had a predominantly basic character. The highly acidic character of the N alpha-terminal portion of band 3 accounts for the capacity of this part of the protein to bind glycolytic enzymes in a highly electrostatic fashion, presumably through interaction with their cationic substrate-binding sites.  相似文献   

20.
Two arylamidases (I and II) were purified from human erythrocytes by a procedure that comprised removal of haemoglobin from disrupted cells with CM-Sephadex D-50, followed by treatment of the haemoglobin-free preparation subsequently with DEAE-cellulose, gel-permeation chromatography on Sephadex G-200, gradient solubilization on Celite, isoelectric focusing in a pH gradient from 4 to 6, gel-permeation chromatography on Sephadex G-100 (superfine), and finally affinity chromatography on Sepharose 4B covalently coupled to L-arginine. In preparative-scale purifications, enzymes I and II were separated at the second gel-permeation chromatography. Enzyme II was obtained as a homogeneous protein, as shown by several criteria. Enzyme I hydrolysed, with decreasing rates, the L-amino acid 2-naphtylamides of lysine, arginine, alanine, methionine, phenylalanine and leucine, and the reactions were slightly inhibited by 0.2 M-NaCl. Enzyme II hydrolysed most rapidly the corresponding derivatives of arginine, leucine, valine, methionine, proline and alanine, in that order, and the hydrolyses were strongly dependent on Cl-. The hydrolysis of these substrates proceeded rapidly at physiological Cl- concentration (0.15 M). The molecular weights (by gel filtration) of enzymes I and II were 85 000 and 52 500 respectively. The pH optimum was approx. 7.2 for both enzymes. The isoelectric point of enzyme II was approx. 4.8. Enzyme I was activated by Co2+, which did not affect enzyme II to any noticeable extent. The kinetics of reactions catalysed by enzyme I were characterized by strong substrate inhibition, but enzyme II was not inhibited by high substrate concentrations. The Cl- activated enzyme II also showed endopeptidase activity in hydrolysing bradykinin.  相似文献   

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