Brownian dynamics study of ion transport in the vestibule of membrane channels

The Immunoglobulin (Ig) binding capacity of Toxoplasma gondii tachyzoites was investigated using fluorescence flow-cytometry analysis. Polyclonal mouse, human and rat immunoglobulins without specific anti-Toxoplasma activity bound to parasites in a concentration-dependent manner, saturating them at circulating serum concentrations. The immunoglobulin class and subclass specificity of binding was investigated using irrelevant monoclonal antibodies. IgM, IgA and IgG reacted with the parasite membrane. The attachment of mouse IgM to the parasite surface was hampered by mouse IgG1, IgG2a, IgG2b and IgG3. The binding of mouse IgG was proportionally reduced with increasing concentrations of mouse monoclonal IgM. The binding of murine immunoglobulin was diminished when in presence of human IgG. Purified Fc- but not Fab portions of immunoglobulins, fixed to parasites. Using labelled calibrated beads, the Ig binding capacity of parasites was estimated to be 6900 +/- 500 sites per tachyzoite. The Kd of the T. gondii Fc Receptor (FcR) activity was determined at 1.4 +/- 0.1 microM (mean +/- SEM). Such FcR activity was reduced by phospholipase C, trypsin and pronase treatment of the parasites. These data show a low affinity FcR activity on T. gondii tachyzoites which recognizes Ig of different species and isotypes and is likely supported by a glycosyl-phosphatidylinositol (GPI)-anchored surface protein of the parasite.     

A small domain (6.5 kDa) of bacterial protein G inhibits C3 covalent binding to the Fc region of IgG immune complexes

Attachment of the complement component C3 to antigen-antibody (Ag-Ab) complexes (immune complexes, IC) is the key molecular event responsible for the elimination of many Ag in the form of Ag-Ab-C3b. The CH1 domain and the Fc region of the Ab, which have previously been involved in the binding of C3b, are also the targets of several bacterial IgG-binding proteins, particularly proteins G and A. Here we describe the ability of a small recombinant protein G domain (B2; 6.5 kDa) to inhibit the covalent binding of C3b to the Fc portion of IgG without affecting the binding to the Fab part. Protein G (B2 domain) produced a remarkable inhibition of covalent binding of C3b to IC formed with rabbit IgG, but none with the F(ab')2 fragment, indicating that B2 interferes with the C3b binding to the Fc region. A weak inhibition was observed with IC formed with mouse IgG2b which preferentially binds B2 domain on the CH1 domain of the Fab. To confirm these data, recombinant single-chain Ab devoid of CH1 domains (scAb), and including the rabbit or human Fc portion (hinge-CH2-CH3), were produced and used to form IC. Protein G-B2 domain inhibited C3b binding to IC formed with scAb of either human or rabbit constant regions, supporting the view of a specific blockade of C3b binding to the Fc region. A similar inhibition of C3b binding was observed using protein A instead of protein G B2 domain and the same set of IC. On the CH1 domain, C3b and B2 bind on opposite faces, and therefore do not interfere with each other in their binding. However, B2 domain bound to the inter-CH2-CH3 region impedes the C3b binding to the Fc. This inhibition clarifies the specificity of C3b for the different regions of IgG and explains how bacterial IgG-binding proteins provide the bacteria with a mechanism of evasion from the opsonizing action of complement and contribute to the virulence. This could be a general mechanism of escape because protein G binds the majority of mammalian Ig.     

The binding constants of IgM rheumatoid factors and their univalent fragments for native and aggregated human IgG;

IgM rheumatoid factors (RF) were isolated from the sera of patients with rheumatoid arthritis and a serologically active Fabmicron RF fragment prepared by papain digestion. A radioimmunoassay was developed for the determination of interaction of 19S IgM RF and Fabmicron RF with human 7S IgG, heat-aggregated IgG, rabbit 7S IgG, and human pFc'. RF isolated under neutral conditions had a very low binding constant for human 7S IgG (of the order of 10(2) to 10(3) 1 mole-1) and a considerably higher value (ca. 10(5)) for the aggregated protein and monomeric rabbit IgG. RF obtained under acid conditions which dissociate the complexes with endogenous Ig, had a higher avidity for human IgG monomer as expected and also a comparable reactivity with rabbit IgG. Monovalent Fabmicron fragments of 'acid' RF had closely similar affinities for 7S and aggregated IgG suggesting that the enhanced binding with the aggregated protein is essentially dependent on its multivalency rather than the exposure of a new determinant lacking in the native molecule.     

Human recombinant CD4 and CD4-derived synthetic peptides agglutinate immunoglobulin-coated latex particles. Evidence that residues 25-28 and 35-38 of human CD4 form two separate immunoglobulin binding sites

It has been shown previously that amino acid residues 21-49 of the first extracellular domain of human CD4 form the core of an immunoglobulin (Ig) binding site. Synthetic peptides of human CD4 that encompass this region also bind Ig and, with higher affinity, antigen/antibody complexes. Synthetic peptides also enhance binding of both monomeric and aggregated Ig to monocytic U937 cells and Staphylococcus aureus Protein A. To better characterize the nature of the Ig binding site on CD4, we tested the ability of human recombinant CD4 (rCD4) to agglutinate polystyrene particles coated with Ig. Evidence is presented that soluble rCD4 and CD4 peptide p21-49 were capable of specific agglutination of polystyrene particles coated with polyclonal Ig of either human or sheep origin. Agglutination could be blocked by soluble human polyclonal IgG or F(ab')2 fragments. Both heparin and sulfated dextrans also inhibit agglutination, suggesting that charged residues on rCD4 played an important role in agglutination mediated by rCD4 or CD4 peptide. Similarly, aurintricarboxylic acid (ATA) also blocked agglutination of Ig-coated particles by rCD4. Agglutination mapping studies performed using truncated peptides revealed the existence of two discrete, closely related Ig binding sites (residues 25-28 and 35-38).     

IgG3 reactive rheumatoid factor in rheumatoid arthritis: etiologic and pathogenic considerations

Rheumatoid factor (RF) is a polyclonal autoantibody directed against the Fc portion of IgG. Although the role of RF in patients with rheumatoid arthritis (RA) is unclear, immune complexes that form between RF and IgG can activate the classical complement (C) pathway, leading to pathogenic outcomes involving inflammatory events and tissue damage. The specificity of serum RF and RF produced by rheumatoid synovial cells (RSC) is different. Serum RF has specificity for rabbit IgG and human IgG subclasses IgG1, 2, and 4, but binds poorly to IgG3. The affinity of serum RF for IgG Fc is low, having an association constant of 10(4)-10(5) M-1. RSC RF, however, has specificity for human IgG and high avidity for IgG3. Because of this greater specificity and avidity for IgG3, and because RSC RF may be pathogenically more important than serum RF, an important role for IgG3-reactive RF in RA may exist. Binding of RF to IgG may be dependent on the allotype and glycosylation of IgG. Infectious agents present in RA patients may directly or indirectly induce the production of certain RF. In this communication, we review and expand on several observations examining the role of IgG3-reactive RF in RA including: 1) binding differences between RF derived from RSC and serum; 2) glycosylation characteristics of IgG and its interaction with RF; 3) apparent allotype dependent binding of IgG3-reactive RF; and 4) possible relationship between infectious agents and the production of IgG3-reactive RF. Taken together, these observations suggest an important role for IgG3-reactive RF in better understanding the etiology and pathogenesis of RA.     

Phage phi29 protein p6 is in a monomer-dimer equilibrium that shifts to higher association states at the millimolar concentrations found in vivo

Protein p6 from Bacillus subtilis phage phi29 (Mr = 11 800) binds in vitro to DNA forming a large nucleoprotein complex in which the DNA wraps a multimeric protein core. The high intracellular abundance of protein p6 together with its ability to bind the whole phi29 DNA in vitro strongly suggests that it plays a role in viral genome organization. We have determined by sedimentation equilibrium analysis that protein p6 (1-100 microM range), in the absence of DNA, is in a monomer-dimer equilibrium, with an association constant (K2) of approximately 2 x 10(5) M-1. The intracellular concentration of protein p6 (approximately 1 mM) was estimated measuring the number of copies per cell (7 x 10(5)) and the cell volume (1 x 10(-15) L). At concentrations around 1 mM, protein p6 associates into oligomers. This self-association behavior is compatible with a dimer-hexamer model (K2,6 = 3.2 x 10(8) M-2) or with an isodesmic association of the dimer (K = 950 M-1), because the apparent weight-average molecular mass (Mw,a) does not reach saturation at the highest protein concentrations. The sedimentation coefficients of protein p6 monomer and dimer were 1.4 and 2.0, respectively, compatible with translational frictional ratios (f/fo) of 1.15 and 1.30, which slightly deviate from the hydrodynamics of a rigid globular protein. Taking together these results and considering the structure of the nucleoprotein complex, we speculate that the observed oligomers of protein p6 could mimic a scaffold on which DNA folds to form the nucleoprotein complex in vivo.     

Immunochemical properties of a 60 kDa cell surface-associated heat shock-protein (Hsp60) from Helicobacter pylori

Western blot analysis (immunoblotting) of cell surface-associated proteins from Helicobacter pylori confirmed our previous findings that binding of human IgG is a common property (among H. pylori strains). Purification of the IgG-binding proteins (IGBP) was achieved by two purification steps, affinity chromatography on IgG-Sepharose and nickel chelate affinity chromatography. SDS-PAGE and immunoblotting analysis revealed a 60 kDa protein with affinity for peroxidase labeled human IgG. Solid phase binding assays showed that IgG binds to an immobilized protein (IGBP). The 60 kDa IGBP binds human IgG1, IgG3 and IgM. Binding could be inhibited by the kappa chain of the human IgG, but not with its Fc fragment, nor with IgA or IgM. In addition, rabbit polyclonal antibodies raised against the 60 kDa IGBP blocked IgG binding. Monoclonal antibodies, specific to the Hsp60 heat shock protein of H. pylori recognized the 60 kDa IGBP as revealed by immunoblotting analysis, both in crude preparations and in the purified fractions.     

The soluble extracellular portion of the human interferon-gamma receptor is a valid substitute for evaluating binding characteristics and for neutralizing the biological activity of this cytokine

In order to have a reliable and reproducible source of soluble human interferon-gamma (HuIFN-gamma) receptor at our disposal both for studying binding phenomena and for evaluating its neutralizing potential towards the cytokine, we expressed the extracellular part of the receptor in J558L mouse myeloma cells as a fusion protein with the C-terminal c-myc TAG (HuECR-gamma-TAG). It is expected that the receptor will undergo post-translational modifications comparable to that in humans. The affinity purified soluble receptor was subjected to mass spectrometry analysis resulting in a molecular size of 31 to 40 kDa and showed heterogeneous N-glycosylation with an M(r)-contribution of 4 to 13 kDa. Its HuIFN-gamma binding affinity, determined by real time biospecific interaction (BIAcore) analysis, resulted in a value of Kd = 2 x 10(-9) M, which is in agreement with the high affinity described for the cell anchored complete HuIFN-gamma receptor (Kd = 5-35 x 10(-9) M). HuECR-gamma-TAG was able to neutralize the biological activity of HuIFN-gamma in an in vitro antiviral assay. Furthermore, we report for the first time the association and dissociation rate constants, which were, respectively, 2.4 x 10(5) M-1 s-1 and 4.8 x 10(-4) s-1. In conclusion, this mammalian source of the extracellular soluble HuIFN-gamma receptor represents a valuable tool for extensive in vitro studies of the HuIFN-gamma receptor interaction. Furthermore, in view of its expected low or nonimmunogenicity it opens new ways for immunomodulation in vivo.     

Nucleotide and deduced amino acid sequences of rat myosin binding protein H (MyBP-H)

The complete nucleotide sequence of the cDNA clone encoding rat skeletal muscle myosin-binding protein H (MyBP-H) was determined and amino acid sequence was deduced from the nucleotide sequence (GenBank accession number AF077338). The full-length cDNA of 1782 base pairs(bp) contains a single open reading frame of 1454 bp encoding a rat MyBP-H protein of the predicted molecular mass 52.7 kDa and includes the common consensus 'CA__TG' protein binding motif. The cDNA sequence of rat MyBP-H show 92%, 84% and 41% homology with those of mouse, human and chicken, respectively. The protein contains tandem internal motifs array (-FN III-Ig C2-FN III-Ig C2-) in the C-terminal region which resembles to the immunoglobulin superfamily C2 and fibronectin type III motifs. The amino acid sequence of the C-terminal Ig C2 was highly conserved among MyBPs family and other thick filament binding proteins, suggesting that the C-terminal Ig C2 might play an important role in its function. All proteins belonging to MyBP-H member contains 'RKPS' sequence which is assumed to be cAMP- and cGMP-dependent protein kinase A phosphorylation site. Computer analysis of the primary sequence of rat MyBP-H predicted 11 protein kinase C (PKC) phosphorylation site, 7 casein kinase II (CK2) phosphorylation site and 4 N-myristoylation site.     

Platelet dysfunction associated with immune-mediated thrombocytopenia in dogs

The effect of antiplatelet antibody on in vitro platelet function was investigated in 15 dogs with immune-mediated thrombocytopenia (ITP). Platelet aggregation was assessed after addition of serum from healthy dogs (n = 5) or dogs with ITP (n = 15) to platelet-rich plasma from a healthy donor dog. The aggregation responses to adenosine diphosphate, thrombin, and collagen/epinephrine were measured as the maximum aggregation observed after 2 minutes. In 13 of 15 dogs with ITP, maximal aggregation was significantly inhibited in response to ADP, thrombin, or collagen/epinephrine. The slope of the aggregation curve was decreased after addition of serum from 9 of 15 patients. A polyclonal rabbit anti-dog platelet antiserum induced inhibition of aggregation with all 3 agonists. Serum from control dogs neither inhibited nor activated platelet aggregation. Aggregation experiments were repeated with all 3 agonists after addition of patient immunoglobulin (Ig)G or IgG from a healthy dog to platelet-rich plasma. The IgG fraction from 9 of 10 dogs with ITP suppressed platelet aggregation. The IgG fraction from polyclonal rabbit anti-dog platelet antiserum inhibited platelet aggregation with all agonists. These results suggest that many canine ITP patients have circulating antibodies that, in addition to causing platelet destruction, may cause platelet dysfunction.     

Acute phase proteins in male Chinese schizophrenic patients in Singapore

The effects of orientating pairs of synergistic monoclonal antibodies (mAb) on binding of human chorionic gonadotropin (hCG) was studied by radioimmunoassay (RIA), enzyme-linked immunosorbent assay (ELISA) and surface plasmon resonance (SPR). Antibody synergy towards hCG required two functionally intact antibodies located adjacent to each other and with different epitope specificities. We investigated whether immobilization procedures avoiding protein denaturation, increasing proper orientation and promoting higher molecular flexibility of the synergistic mAb resulted in significantly enhanced antigen, binding. Synergistic mAb pairs captured through their Fc-region by protein G or a polyclonal serum against the Fc-part of mouse IgG could be used at 10-fold lower coating concentrations to achieve maximal binding of the analyte as compared with the same mAb pairs coated directly onto polystyrene. The synergistic effect observed with protein A used as capture varied greatly with the subclasses of the two synergistic antibodies employed. Scatchard analysis revealed that the number of functionally synergistic antibody sites participating in the binding of hCG for one mAb pair was about 10 times higher for the protein G-captured as compared with the directly coated synergistic pair. Biotinylated synergistic mAb pairs, coated directly or captured by streptavidin, did not display any enhanced antigen binding when tested in SPR or ELISA. With SPR, synergy was only observed when the synergistic mAb had been captured through their Fc-region. Using protein G or a polyclonal rabbit anti-IgG1 serum as capture reagents in SPR, synergistic triple mAb combinations against hCG were demonstrated.     

Some characteristics of new tissue-binding proteins for metabolites of vitamin D other than 1,25-dihydroxyvitamin D

Protein(s) have been found in a wide range of tissues which have a high affinity for 25-hydroxycholecalciferol. Of the tissues examined only erythrocytes do not have this protein. The properties of the protein have been examined and it has been found that the association constatns range from 2 - 10(9) to 5 - 10(9) M-1 and the sedimentation constants between 5.0 and 6.0 S. It was not possible to distinguish the proteins from the different tissues by their S values, mobility on gel electrophoresis or behaviour on ion-exchange chromatography. These techniques were all used, however, to show that the tissue 25-hydroxycholecalciferol binding protein is distinct from the main plasma binding protein for this steroid and from the intestinal 1,25-dihydroxycholecalciferol-binding protein. A protein has been in the plasma of rachitic animals but not of normals, which is apparently indistinguishable from this new tissue 25-hydroxycholecalciferol-binding protein. The steroid specificity of this new binding protein has been shown to be dependent upon a C-25 hydroxyl group, and an intact conjugated double bond system. Possible functions for this protein have been briefly discussed.     

Monoclonal anti-cardiolipin antibodies from New Zealand Black x New Zealand White F1 mice react to thrombomodulin

The reactivity with and affinity for thrombomodulin (TM) of monoclonal anti-cardiolipin Abs (MoaCL), derived from a New Zealand Black x New Zealand White F1 (NZB/W F1) mouse, were studied to investigate the pathogenicity of anti-cardiolipin Abs (aCL). Four of eighteen MoaCL were found to react with rabbit TM when examined using ELISA. These four MoaCL also reacted with synthetic peptide that included the epidermal growth factor-like domain of human TM, a binding site for thrombin. The reaction with TM of these four MoaCL was inhibited by bovine thrombin. When the affinity for TM of the MoaCL was determined, the dissociation constants (Kd) ranged from 4.8 x 10(-9) to 4.7 x 10(-8) M. By contrast, examination of the affinity for cardiolipin (CL) gave values from 8.3 x 10(-6) to 7.4 x 10(-5) M. Thus, these MoaCL reacted to TM with a higher affinity than to CL. Moreover, these MoaCL also bound to TM on HUVEC and down-regulated the expression level of TM on the surface of HUVEC due to internalization of TM. The binding of thrombin to TM is known to initiate rapid protein C activation, and complexes of activated protein C and protein S show anticoagulatory activity. Thus, the present studies suggest that certain pathogenic aCL cross-react with TM and induce down-regulation of TM on endothelial cells, followed by induction of thrombosis.     

Identification of protein A-binding components in Spisula oocytes

Components involved in sustaining meiosis arrest of oocytes were determined. Proteins that bind to protein A from meiosis-arrested and 5-HT-matured Spisula oocytes were analyzed by sodium dodecyl sulfate polyacrylamide gel electrophoresis. Meiosis-arrested oocytes contained three doublets of proteins with estimated Mrs of 43 and 45, 38 and 40, and 21 and 23 kDa. In 5 HT-matured oocytes the 21 and 23 and 38 and 40 kDa proteins were retained; whereas the 43 and 45 kDa proteins were absent. The protein A-bound proteins did not interact with antibodies against the various subclasses of human, mouse, rat and rabbit IgG or human Fc fragment. The amino acid sequence of the N-terminus of the 43 kDa protein was determined to be NH2-VLRIGSGMXDT. Comparison of this sequence with existing database at Protein Identification Resource (R 32.0), GenBank (R 72.0), SWISS-PROT (R 22.0), and EMBL (R 31.0) showed no homology with any reported protein. The protein A-bound components from meiosis-arrested oocytes were incubated in vitro with [gamma-32P]ATP. Only the 68 kDa protein was radiophosphorylated. This protein was not detected in 5-HT-matured oocytes. The disappearance of the 43, 45, and 68 kDa proteins in 5-HT-matured oocytes suggests that these components may be involved in sustaining meiosis meiosis. A unique property of these proteins is that they interact with protein A and are distinctly different from immunoglobulin.     

Expression of a recombinant human growth hormone binding protein in baculovirus/insect cell system

An eucaryotic recombinant human growth hormone binding protein (rGHBP) was expressed in baculovirus-infected insect cells and purified by affinity chromatography from culture supernatant. This mannose-rich 34-kDa protein specifically bound human growth hormone (hGH) with the same affinity (kDa = 0.42 x 10(-9) M) than the 51.5 kDa GHBP we purified and characterised from human plasma (kDa = 1.1 x 10(-9) M). A high molecular form of the rGHBP was detected by silver-stained SDS-PAGE, Western blot (mAb 263), affinity cross-linking and Western ligand blot with 125I-hGH. Reduction experiments with beta-mercaptoethanol suggested that this form involved a disulfide bound between two rGHBPs.     

The interaction of coumarin antibiotics with fragments of DNA gyrase B protein

DNA gyrase is the target of the coumarin group of antibacterial agents. The drugs are known to inhibit the ATPase activity of gyrase and bind to the 24-kDa N-terminal subdomain of gyrase B protein. Supercoiling assays with intact DNA gyrase and ATPase assays with a 43-kDa N-terminal fragment of the B protein suggest that the drugs bind tightly, with Kd values <10(-7) M. In addition, the ATPase data suggest that 1 coumermycin molecule interacts with 2 molecules of the 43-kDa protein while the other coumarins form a 1:1 complex. This result is confirmed by cross-linking experiments. Rapid gel-filtration experiments show that the binding of ADPNP(5'-adneylyl beta,gamm-imidodiphosphate) and coumarins to the 43-kDa protein is mutally exclusive, consistent with a competitive mode of action for the drugs. Rapid gel-filtration binding experiments using both the 24-and 43-kDa proteins also show that the drugs bind with association rate constants of >10(5) M-1.s-1, and dissociation rate constants of approximately 3x10(-3)s-1 and approximately 4x10(-3)s-1 for the 43-and 24-kDa proteins, respectively. Titration calorimetry shows that the Kd values for coumarins binding to both proteins are approximately 10-8M and that binding is enthalpy driven.     

Preparation and characterization of biotinylated analogs of the calcium channel blocker omega-conotoxin

We have prepared a series of biotinylated analogs of omega-conotoxin (omega CgTx) as potent, selective markers for N-type calcium channels. At pH 9.5, reaction of omega CgTx with amidocaproylbiotin succinimidyl ester gives three biotinylated conjugates, labeled at lysines 2 or 24, or at both positions. Kinetic competition assays of 125I-omega CgTx binding to rat brain synaptic membranes show that each conjugate has a similar rate constant for association (1-1.3 x 10(6) M-1 s-1) but not dissociation (1-4 x 10(-4) s-1). Comparison with rate constants obtained for the association (1.2 x 10(7) M-1 s-1) and dissociation (5 x 10(-5) s-1) of native omega CgTx indicates that while biotinylation reduces omega CgTx potency (Kdkin = k-2/k2 = 4 pM for omega CgTx), binding of these labels to membranes is nevertheless of very high affinity (Kdkin 0.1-0.3 nM).     

Development of pemphigus vulgaris-like lesions in severe combined immunodeficiency disease mice reconstituted with lymphocytes from patients

Pemphigus vulgaris is an autoimmune blistering disease that is induced by binding of antibodies to a 130/85-kD protein complex on epidermal keratinocytes. An in vivo experimental model of this disease was developed by reconstituting severe combined immunodeficiency (SCID) mice with 1-10 x 10(7) PBL from patients with naturally occurring pemphigus vulgaris. Of 49 reconstituted mice, 34 (69%) produced human IgG levels of > 0.1 mg/ml. Circulating anti-pemphigus antibodies were found in 20 of the 34 successfully reconstituted mice; 44% of these animals had deposits of human IgG in their own skin after it was traumatized by either heat or cold. Spontaneous pemphigus vulgaris-like blisters associated with human IgG deposits were rarely found in mouse skin. By contrast, allogeneic human skin grafted to 10 to 12 mice before reconstitution with patients' PBL developed pemphigus vulgaris-like lesions containing human IgG deposits. These results demonstrate that SCID mice can serve as a model of an antibody-mediated human autoimmune skin disease.