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Query: UNIPROT:P06889 (Mol)
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Mouse monoclonal antibodies were raised against the human C3b receptor (CR1) molecule that had been purified from solubilized erythrocytes membranes. Four hybridomas were selected, cloned and expanded because their supernatants reacted strongly with insolubilized CR1 by ELISA and intensely stained B-dependent areas of the spleen and glomerular podocytes by indirect immunofluorescence. The four monoclonal antibodies, named J3D3, J8B10, J3B11 and J7C2, were IgG1 immunoglobulins. J3D3 immunoprecipitated two protein bands of apparent mol. wts 200,000 and 220,000 from 125I-surface-labeled human erythrocytes, which correspond to the two major allotypic forms of CR1. By indirect immunofluorescence, monoclonal antibodies stained polymorphonuclear leucocytes (PMN), most peripheral blood B-cells and a small subset of peripheral blood T-cells. J3D3 bound to CR1 on erythrocytes, PMN and lymphocytes with an affinity of 1-3 X 10(9) M-1 and recognized 170-1330 antigenic CR1 sites with an average of 740 sites/erythrocyte in 100 healthy individuals, approx. 50,000 sites/PMN and 15,000 sites/lymphocyte. There was a bimodal distribution of CR1 numbers on erythrocyte in the normal population. The four monoclonal antibodies similarly inhibited CR1-mediated decay of preformed cell-bound alternative- and classical-pathway C3 convertase sites. Two antibodies, J3D3 and J3B11, inhibited C3b-dependent rosette formation with lymphocytes, although much less efficiently than F(ab')2 polyclonal anti-CR1 antibody. Differences that were observed in the relative capacity of the antibodies to inhibit some of the functions of CR1 and in their ability to compete for binding of 125I-J3D3 to CR1 on erythrocytes, suggested that they are directed against different epitopes on CR1. Monoclonal antibodies provide useful means to assess and analyze the biological and immunoregulatory functions of the C3b receptor.
Mol Immunol 1985 May
PMID:Mouse monoclonal antibodies to the human C3b receptor. 316 Sep 31

Fluid phase heparin inhibits formation of the classical and alternative pathway C3 convertase of complement in assays performed either with purified complement proteins or in whole serum. Experiments using oligosaccharides of homogeneous mol. wt obtained by mild nitrous hydrolysis of heparin, demonstrated that the inhibitory activity of heparin increased exponentially with mol. wt for fragments containing between 4 and 14 saccharidic units and that fragments of mol. wt above 4700 (greater than 14 saccharidic units) had a similar anti-complementary activity to that of native heparin. Fragments of homogeneous mol. wt (octasaccharides) separated by ion exchange chromatography on the basis of negative charges, exhibited increasing inhibitory activity with increasing sulfate content. Over-sulfation of fragments of defined mol. wt resulted in a constant enhancement of the relative capacity of each fragment species to inhibit formation of the classical and alternative pathway C3 convertases. A synthetic pentasaccharide representing the minimal critical sequence responsible for the binding of heparin to anti-thrombin III exhibited a similar inhibitory capacity on formation of the C3 convertases as another synthetic pentasaccharide that was devoid of anti-Xa activity. These studies contribute to define a minimal structure of the heparin molecule with C3b- and C4b-binding capacity and definitively establish the independency of the anti-coagulant and anti-complementary sites on the heparin molecule.
Mol Immunol 1988 Sep
PMID:Structure-function relationships in the inhibitory effect of heparin on complement activation: independency of the anti-coagulant and anti-complementary sites on the heparin molecule. 321 Nov 61

We investigated the binding of C4 and C3 to red cell surfaces by non-complement enzymes. Cell bound C components were quantitated by a radioimmunoassay, the chain structure of bound components was analyzed by Western blotting and the hemolytic activity of bound components was determined. Trypsin, chymotrypsin, plasmin, elastase, thrombin, kallikrein and enzymes from Bacillus subtilis, Staphylococcus aureus and Streptomyces griseus all were found capable of binding C4b and C3b to sheep red cells. C4b bound by any of these enzymes was hemolytically active; both classical and alternate pathway activity of C3 could be demonstrated for most enzymes except plasmin and thrombin. In addition, trypsin and the bacterial enzymes were also able to generate the classical pathway C3-convertase from C4b + C2. The hemolytic efficiency of enzyme bound C4b and C3b was about the same as for these molecules bound by complement enzymes. In contrast, the process of binding by the non-complement enzymes was several hundred-fold less efficient than by cell bound complement enzymes. The results demonstrate that several enzymes can replace the C1 and C42 enzymes in the classical pathway and are able to initiate the alternative pathway by activating C3 and binding C3b to the cell surface.
Mol Immunol 1988 May
PMID:Binding and activation of C4 and C3 on the red cell surface by non-complement enzymes. 341 32

The formation of the alternative-pathway C3 convertase has been previously suggested to have an absolute requirement for Mg2+, especially at the level of complex formation between C3b and factor B (B). In the course of defining spectral probes that could be used to monitor the C3b-B interaction (e.g. 1-anilino-8-naphthalene sulfonic acid fluorescence and near-u.v. circular dichroism) we observed that the signal change reporting on this binding was not completely reversed upon addition of excess ethylene-diaminetetraacetic acid (EDTA). Using sucrose gradient ultracentrifugation, we have directly demonstrated a Mg2+-independent C3b-B complex in the fluid phase. B thus bound was not only susceptible to specific proteolytic activation by factor D, but the resulting C3bBb enzyme was able to convert native C3 to C3b. Interestingly, we were unable to detect Mg2+-independent specific binding of 125I-B to C3b which was particle-bound. Using a sensitive hemolytic assay, however, we estimated that the functional activity of B with surface-bound C3b is 80-fold greater in the presence of physiological Mg2+ (0.5 mM) than in 2 mM EDTA. In contrast, the fluid-phase association is estimated to differ less than three-fold under the same conditions. These data demonstrate that the requirement for Mg2+ in the formation of the fluid-phase alternative-pathway C3 convertase is not absolute. Furthermore, they suggest a difference in the stable functional properties of fluid-phase and surface-bound C3b.
Mol Immunol 1986 Jan
PMID:A reexamination of the role of magnesium in the human alternative pathway of complement. 363 88

C3 nephritic factor is an autoantibody to the alternative-pathway C3 convertase (C3bBb) which increases the half-life of the convertase both in the presence and absence of serum regulatory proteins. Human erythrocytes contain membrane proteins which also can regulate C3bBb. One of these proteins, the C3b/C4b receptor (CR1), plays an important role in the processing of soluble immune complexes. C3b which is fixed to immune complexes binds to CR1 and is cleaved by factor I to C3c and C3dg. We have tested the effectiveness of the nephritic factor in protecting bound C3b from cleavage by factor I and human erythrocytes. Sheep erythrocyte intermediates EAC1423b were prepared using 125I-labeled C3 and incubated with factors B and D in the presence and absence of nephritic factor. Breakdown of C3b was measured by release of 125I-C3c following incubation with human erythrocytes and factor I. Purified IgG from two patients with nephritic factor prevented C3c release in a dose-dependent manner. Normal human IgG was ineffective as was nephritic factor in the absence of factor B. Factor P also inhibited the release of C3c in the presence of factor B with equivalent activity at approx. 20-fold higher concns than nephritic factor. These results indicate that nephritic factor can impair human erythrocyte dependent degradation of C3b in alternative-pathway-activating immune complexes.
Mol Immunol 1985 May
PMID:C3 nephritic factor protects bound C3bBb from cleavage by factor I and human erythrocytes. 384 61

Activation of the third component of complement (C), C3, is central to the functioning of the C system in inflammation. Cleavage of C3 by the C3 convertases of both the classical and alternative pathways results in the formation of two split products, C3b and C3a. C3a inhibited cleavage of C3 by the classical-pathway C3 convertase. The inhibition varied in a concn-dependent relationship, with a concn of approximately 40 micrograms/ml yielding 50% inhibition. Removal of the carboxy terminal arginine from the C3a did not alter the inhibition. C3a did not inhibit cleavage of C3 by the alternative C pathway C3 convertase, or cleavage of C5 by C5 convertase. The C3-cleaving capacity of EAC142oxy that had been previously incubated with C3a could be recovered completely by washing the cells, indicating that the C3a binding to the EAC42oxy cell must have been reversed without having had an effect on the amount of C2 bound. Ribonuclease, a molecule of similar size and charge to C3a, did not affect C3 cleavage and C3a inhibition was not reduced by providing a surface for non-specific adsorption of the C3a, suggesting that the effect of C3a on C3 cleavage was not mediated by non-specific interaction with cell surfaces. C3a inhibited the C3-cleaving capacity of the fluid-phase enzyme, C42oxy, to the same degree as it inhibited the cell-bound enzyme, EAC42oxy, indicating that the C3a must interact with the C42 complex directly. Inhibition of C3 cleavage by C3a is the first demonstration of product inhibition of a complement enzyme. It may provide another control of C3 activation.
Mol Immunol 1985 Jan
PMID:Inhibition of cleavage of the third component of human complement (C3) by its small cleavage fragment, C3a: inhibition occurs with the classical-pathway, but not the alternative-pathway, C3 convertase. 387 99

Highly purified preparations of mouse gangliosides have been demonstrated to bind to purified preparations of lipopolysaccharide (LPS). In some instances, the binding has been demonstrated to be dependent upon the presence of sialic acid in the ganglioside preparation. The binding of gangliosides to LPS from the deep rough Salmonella minnesota Re mutant has suggested that the interaction involves the lipid A-2-keto-3-deoxyoctulosanate region of the LPS macromolecule. The interaction between gangliosides and LPS has been demonstrated to result in an abrogation of lipid A dependent activation of the classical pathway of serum complement by Re LPS. Surprisingly, however, the presence of sialic acid containing glycolipids has been shown to enhance significantly the capacity of LPS to initiate activation of the alternative pathway of complement. These data suggest that sialic acid can enhance as well as inhibit the formation of a stable alternative-pathway C3 convertase.
Mol Immunol 1985 Oct
PMID:Ganglioside modulation of lipopolysaccharide-initiated complement activation. 407 39

Guinea-pig C5 was reacted with EAC1423 in the washed-cell intermediate assay in the presence of glucose gelatin veronal buffer (GGVB), Zn2+-GGVB (0.025 mM), GGVB2+ containing Ca2+ and/or Mg2+ or EDTA (0.013 M)-GGVB. The EDTA inhibited the formation of competent SAC14235, while Ca2+ and/or Mg2+ had a slight enhancing effect compared to GGVB alone and Zn2+ gave a four-fold increase. Similar results were obtained by using human C5 with guinea-pig C5 convertase and functionally pure guinea-pig C6, C7, C8 and C9. When guinea-pig C6 was incorporated into these various reaction mixtures with guinea-pig C5, its addition markedly reduced the inhibition by EDTA, while Zn2+ still showed an enhancing effect. These results demonstrate that EDTA inhibited formation of competent SAC14235 by preventing activation of C5. The association of C6 with C5 can partially overcome the inhibition of C5 conversion by EDTA and may account for C5 activity in reaction mixtures containing C-EDTA.
Mol Immunol 1984 May
PMID:The effect of ethylenedinitrilotetraacetic acid (EDTA) on the reaction between the guinea-pig C5 convertase and guinea-pig C5. 642 19

The alternative pathway C3 convertase (C3b,Bb) is a Mg-dependent, labile enzyme with a t/2 of 3 min at 37 degrees C and of 14 min at 24 degrees C (at half physiological ionic strength). To stabilize the enzyme, metal ions of the lanthanide series were tested. Formation and decay of the enzyme as well as binding of radiolabeled Factor B, Factor H or properdin to C3b were measured using C3b-bearing sheep erythrocytes (EC3b). Binding of Factor B to EC3b in presence of 40 microM gadolinium (Gd) was two to three times greater than in presence of 1 mM Mg. Binding of Factor H and of properdin to EC3b was partially inhibited by Gd. Although it enhanced Factor B uptake by EC3b, Gd was unable to substitute for Mg in enzyme formation by Factor D and completely inhibited (at 10 microM) Mg-dependent enzyme activation. However, the preformed enzyme was not inhibited by Gd. Instead, exposure of EC3b,Bb to 40-100 microM Gd increased the t/2 at 37 degrees C from 3 min to 12-28 min, and at 24 degrees C from 14 min to 32 min. The slow decay of the enzyme correlated with slow release of Bb. Similar enzyme stabilization was observed using terbium, ytterbium, dysprosium and lanthanum. The Gd stabilized enzyme was also less susceptible to control by Factor H and properdin than the unstabilized enzyme. Furthermore, Gd protected surface bound-C3b from being cleaved by Factor I. The Gd effects were instantaneously reversed upon addition of 10 mM EDTA. Thus, Gd is able to stabilize preformed C3b,Bb and to render the enzyme refractory to control by Factors H and I.
Mol Immunol 1983 Mar
PMID:The C3/C5 convertase of the alternative pathway of complement: stabilization and restriction of control by lanthanide ions. 655 81

The aim of the study was to investigate the incompletely understood mechanisms of complement (C) activation and binding on artificial biomaterials. Polystyrene in the form of microtitre plates was used as target for C binding, detectable by ELISA using monoclonal anti-C3 antibodies specific for conformational epitopes expressed by bound C3 and C3 fragments. C3 binding in whole blood/plasma/serum is maximal at low dilutions and occurs predominantly by C activation. At higher dilutions, C3 binding occurs at approximately 1/3 of maximal levels and is solely an effect of adsorption. C3 adsorption in the lower serum dilution range, occurs at low but clearly detectable levels. Comparative epitope analysis between C3 fragments, actively bound to polystyrene in the presence of serum, and of iC3b bound to sheep erythrocytes, clearly indicates that C3 binding/activation on polystyrene takes place as a C3 convertase-mediated reaction, which in serum/plasma is followed by a secondary factor I-dependent degradation of the bound C3b into iC3b. The neo-epitope analysis of serum-contacting polystyrene revealed that the adsorbed C3, throughout the entire serum dilution range tested, deposits in a state closely similar to that observed for purified C3 at a high packing density. Polystyrene surfaces with adsorbed purified C3 expressing this epitope profile were found to mediate APW dependent deposition of C3b in pig serum, presumably by forming a hybrid convertase with porcine Bb. These data therefore suggest that adsorbed C3 on serum-contacting polystyrene surfaces may initiate complement activation via the APW.
Mol Immunol 1993 Feb
PMID:Conformational epitopes of C3 reflecting its mode of binding to an artificial polymer surface. 767 65

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