Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P06889 (Mol)
630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Human C3b bound to the ghost of sheep erythrocytes (E*) via activation of the alternative complement pathway (E*AC3b) consists of four major constituents on SDS-PAGE of 350, 260, 210 and 180 kDa. 350 kDa C3b is a dimeric form of C3b in which the alpha' chain of one C3b binds covalently to that of the other C3b. This complex is presumed to serve as a core for the alternative pathway C5 convertase. The other C3b populations are monomers complexed with membrane proteins or sugars. Using E*AC3b (C3b labeled) as a substrate, we have investigated functional properties of membrane cofactor protein (MCP), which is an integral membrane protein with C3b-binding and factor I-dependent cofactor activities. In conjunction with factor I, MCP was found to degrade the protein-bound C3b preferentially including the 350 kDa dimer. There was a similar but lesser tendency of this selective cleavage of C3b-dimer by CR1 but not by factor H or C4bp. In contrast to CR1 and factor H, detergent solubilization of EAC3b was required for MCP to fully express its cofactor activity for this selective degradation of C3b. We next separated the C3b dimer from the monomers and assessed their ability to assemble the alternative C5 convertase. The C3b dimer but not the monomers expressed C5 convertase activity following the addition of factors B and D, C5 and Ni2+. Kinetic analysis of the degradation of the C3b dimer by MCP and factor I suggested that only one C3b was efficiently converted to C3bi and this occurred concomitant with a decrease in C5 convertase activity. These results suggest that MCP has the ability to more efficiently interact with protein-bound C3b and that this may relate as well to its preferential ability to irreversibly inactivate the C5 convertase.
Mol Immunol 1991 Oct
PMID:Preferential inactivation of the C5 convertase of the alternative complement pathway by factor I and membrane cofactor protein (MCP). 183 39

Binding of complement component C3 and Factor B to Cryptococcus neoformans serotypes A through D via the alternative complement pathway was measured in a system containing fresh nonimmune human serum. Serotypes B and C (C. neoformans var. gattii) bound approximately half as many molecules of both complement components as serotypes A and D (C. neoformans var. neoformans). In contrast, removal of xylosyl and glucuronyl side chains from the mannan main chain of capsular polysaccharide by the Smith degradation procedure resulted in binding of similar quantities of C3 to each of the four serotypes. We conclude that the relatively high degree of side chain substitution of capsular polysaccharide from C. neoformans variety gattii contributes to inefficient surface assembly of the alternative pathway C3 convertase. Inefficient binding of alternative pathway complement components to serotypes B and C may contribute to the relative difficulty in successfully treating infections caused by these organisms.
Mol Immunol
PMID:Differences in Cryptococcus neoformans capsular polysaccharide structure influence assembly of alternative complement pathway C3 convertase on fungal surfaces. 206 24

Kinetic experiments measuring the proteolytic activity of Bb and 33Kd fragment (the C-terminal domain of factor B) on C3 were performed in several conditions, in order to assess the role of factor B domains in the catalytic activity and magnesium binding. The experiments were carried out in fluid phase with 125I-C3 or C3(H2O) as substrates and in the presence of nonradioactive C3b as cofactor. The results indicate: (a) The C-terminal domain, 33Kd, possesses proteolytic activity on C3, which is Mg2(+)-independent, whereas proteolysis by Bb is enhanced in 5 mM Mg2+. (b) C3b behaves as cofactor of 33Kd proteolytic activity on C3 and factor H is able to inhibit this activity. (d) Kinetics of C3 proteolysis by 33Kd shows a lag phase which is also displayed by Bb in the absence but not in the presence of Mg2+. Taken together these data are consistent with the involvement of the N-terminal domain of Bb in Mg2+ binding, which results in an enhancement of the proteolytic activity on C3 of the adjacent C-terminal domain. A C3 convertase model accounting for these results is presented.
Mol Immunol 1990 Sep
PMID:Proteolytic activity of the different fragments of factor B on the third component of complement (C3). Involvement of the N-terminal domain of Bb in magnesium binding. 214 8

Investigations into the mechanism of alternative pathway-dependent lysis of C4b-coated cells are reported. Test cells (EAC1q4b) were formed by reaction of sheep erythrocytes with antibody, C1 and C4. In C5-deficient serum, more C3b was deposited onto EAC1qC4b than onto control cells (EAC1q). The possibility that the C4bBb enzyme could form was considered, but no C3 convertase activity was generated when magnesium, properdin and factors B and D were added to EAC1qC4b. Binding studies employing radiolabeled components provided evidence that C4b bound the C3 convertase, C3bBbP, through a weak interaction with C3b. These data implied C3 conversion would be localized to the cell surface, thereby amplifying C3b deposition. This could be demonstrated in vitro. C3b, properdin, factor B and factor D were all required and the amplified C3b deposition was not due to deposition onto C4b itself. In serum, C5 convertase activity would be consequently expressed and cell lysis would result. This could be the mechanism by which the sera of C2-deficient patients mediate lysis of antibody coated sheep erythrocytes.
Mol Immunol 1990 Nov
PMID:The mechanism of activation of the alternative pathway of complement by cell-bound C4b. 224 91

The functional and immunochemical characteristics of the human glomerular C3 receptor were investigated by adherence of sheep erythrocytes (Es) coated with defined C3 fragments and by using polyclonal and/or monoclonal antibodies directed against epitopes expressed on complement receptors CR1, CR2, and CR3. C3b-bearing Es (EsC3b) strongly adhered to glomeruli in frozen kidney sections in a reaction that was selectively inhibited by F(ab')2 anti-CR1 antibodies. There was no adherence of EsC3dg, EsC3d, and EsC3bi in the presence or absence of Ca++ and Mg++ under physiologic buffer conditions. The weak glomerular binding of EsC3bi, which was observed in half-isotonic buffer was selectively suppressed by anti-CR1 antibodies. By indirect immunofluorescence, anti-CR1 antibodies stained all podocytes in glomeruli, whereas no staining of kidney sections was seen with OKM1 and anti-Mol antibodies directed against the alpha-chain of CR3 and with anti-CR2 antibodies anti-B2 and BL13. Solubilization of membrane glycoproteins from freshly isolated glomeruli from three human kidneys, in the presence of 0.1% Nonidet P-40, yielded a material that bound to lentil lectin Sepharose and could accelerate the decay of preformed cell-bound amplification C3 convertase sites in a reaction that was inhibited by anti-CR1 antibodies. The material containing CR1 activity was labeled with 125I, immunoprecipitated with anti-CR1, and analyzed by SDS-PAGE and autoradiography. Anti-CR1 immunoprecipitated a form of CR1 of Mr 205,000 in solubilized glomeruli from three donors, and an additional form of Mr 160,000 in glomeruli from two of the donors. Immunoprecipitation of CR1 from surface-labeled erythrocytes from these individuals demonstrated them to be homozygous for the 205,000 Mr form of the receptor. Whether the 160,000 band represents in vitro or in vivo proteolytic cleavage of CR1, or cell specific-modulation of gene expression of glomerular CR1, remains unclear. Thus, CR1 is the only type of C3 receptor expressed in the human kidney. Glomerular CR1 shares the functional antigenic and biochemical properties of the C3b/C4b CR1 receptor of peripheral blood cells.
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PMID:Characterization of the human glomerular C3 receptor as the C3b/C4b complement type one (CR1) receptor. 241 13

Two IgG mouse monoclonal antibodies (MAbs), Abs 242 and 463, were prepared by fusion of spleen cells from mice immunized with human C4b with a myeloma cell line, P3/ X 63-Ag 8.653. They were assessed for their effect on the activation and stability of the cell-bound classical-pathway C3 convertase, EAC14b2a and on the binding of C2 and C4bp to EC4b. Ab 242 recognized a conformational neoantigen which appeared upon activation of C4 with C-1s and disappeared after chain separation of C4b, while Ab 463 recognized a linear epitope in the beta-chain of C4b. Ab 242 was found to be a C4bp-like MAb: it accelerates the decay-dissociation of C3 convertase and interferes with the binding of C2 to C4b. It also interfered with the binding of C4bp to C4b. These results suggest that Ab 242 recognizes an epitope which is closely related to the C2- and C4bp-binding sites in C4b. Ab 463, on the other hand, was found to be a nephritic factor like MAb: it prolongs the half-life of C3 convertase from 8 to 30 min at 37 degrees C.
Mol Immunol 1986 Feb
PMID:Monoclonal anti-human C4b antibodies: stabilization and inhibition of the classical-pathway C3 convertase. 242 44

An acid glycoprotein (mol. m. 60 kDa) containing 6 sialic acid residues and N-terminal Thr was isolated from the venom of the central asian cobra Naja naja oxiana. The protein has an anticomplementary activity selectively inactivating of the C4 component of the human complement. This factor (CFA-Ib) binds C4 with Ki = 0.27 +/- 0.13 microM and then irreversible inactivates it with a rate constant k = 0.75 +/- 0.25 min-1. Membrane bound C4b restores its ability of CFA-Ib binding. This binding hinders component C2 sorption on C4b and C3 convertase formation.
Mol Biol (Mosk)
PMID:[A factor from the venom of the Central Asiatic cobra Naja naja oxiana, which inactivates component C4 of human complement]. 277 Jul 21

Two forms of guinea pig factor B (B) of the alternative complement pathway with different mol. wts (Mr) have been isolated from plasma and characterized. The Mr of the two B species, tentatively termed B1 and B2, were estimated to be about 100,000 and 96,000, respectively, as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE). Incubation of B with guinea pig C3 and human factor D (D) in the presence of Mg2+ generated two cleavage fragments of B, namely Ba and Bb. Although the Bb fragments showed the same migration corresponding to an Mr of 62,000, Ba fragments showed different mobilities corresponding to an Mr of 38,000 from B1 and 34,000 from B2. Digestion of B1-Ba, the Ba fragment derived from B1, and B2-Ba, the Ba fragment derived from B2, with endoglycosidase F resulted in a band at Mr 30,000 on an SDS-PAGE in both cases, indicating a difference in structure of the asparagine-linked oligosaccharide moiety in B1-Ba and B2-Ba. No difference in antigenicity was noted between B1 and B2 on immunodiffusion with anti-B sera. Immunoblotting analysis showed that all individual Hartley guinea pigs examined in this study possessed both B1 and B2 at similar levels, as determined by the intensity of staining of their sera. Furthermore, treatment of their serum with zymosan led to the generation of two Ba species corresponding to the Ba fragments from B1 and B2. The capacity to form C3/C5 convertase, as determined by hemolytic assay, was found to be similar between B1 and B2. Furthermore, kinetics of the decay of C3 convertase showed the same half-life of 3.0 min at 30 degrees C. The NH2-terminal amino acid sequences of B1 and B2 and their Bb fragments were determined and found to be identical.
Mol Immunol 1989 Jul
PMID:Two forms of guinea pig factor B of the alternative complement pathway with different molecular weights. 277 89

A monoclonal antibody to human C1-s (a subcomponent of C1-), M365 blocked the complement-mediated lysis of C1(-)-coupled IgM-sensitized sheep erythrocytes (EAIgMC1). However, M365, via its binding to C1-s, did not inhibit C2 activation and only partially inhibited C4 activation, both attributable to the proteolytic action of C1s. Therefore, the inhibition of lysis of EAIgMC1 is not due to the direct effect of antibody binding to C1-s in the C1- molecule. M365, when added to the pre-formed EAIgMC1, deprived the whole C1 molecule from the cells. It was also found that M365-bound C1 could not bind to EAIgM. These phenomena were induced only when M365, one of seven monoclonal antibodies to C1-s, was employed and when IgM antibody-sensitized E was used. The observed C1- liberation and C1 binding inhibition by M365 were found to be less effective when the C4b bearing cells, EAIgMC4, were used. But the addition of M365-bound C1- to EAIgMC4 promoted the formation of the C3 convertase, C4b2a, which caused an incremental lysis of the C4b bearing cells. The results are interpreted to mean that C1-, once complexed with M365, still remains active and acquires the ability to transfer from one C1 binding site on IgM to another to activate the convertases. C4b must be a prerequisite on the cells to induce the effective C1- transfer and resulting increase of C3 convertase sites. We hypothesize that the M365-C1-s association alters the conformation of C1q and thereby leads to the dissociation of whole C1- from IgM. The M365-C1- complex, therefore, can move from site to another.
Mol Immunol 1989 Aug
PMID:Acceleration of site-to-site transfer of C1- by a monoclonal antibody to C1-s. 281 68

The interaction of C1q with C3b and its effect on C3b activities in the alternative pathway of complement (APC) have been studied. Purified C1q markedly inhibited C3b deposition on and lysis of rabbit erythrocytes by the isolated cytolytic APC. It also blocked formation of the C3 convertase, C3b, Bb as well as binding of Factors B and H to sheep erythrocytes (E) bearing C3b. The direct and specific binding of C1q to C3b was clearly demonstrated using the hemagglutination technique at low ionic strength (0.1 M NaCl). C1q concns of 2 micrograms/ml and higher agglutinated, in a dose-dependent fashion, EC3b but not E, EC3bi or EC3d. Addition of C1r and C1s to C1q and formation of C1 did not affect its capacity to agglutinate EC3b. The C1q-mediated agglutination of EC3b was inhibited by EDTA, MgEGTA, C3b and Factor B but not by native C3 or collagen. Heating C1q (56 degrees C) markedly potentiated its agglutinating activity whereas collagenase-treated C1q lost most of its activity. Taken together, these results suggest that C1q binds through its "heads" and in the presence of calcium ions to a site on C3b that is adjacent to the Factor B and Factor H binding sites. This interaction may down-regulate the activity of the alternative pathway of complement on surfaces which activate both the classical and alternative pathways of complement.
Mol Immunol 1987 Sep
PMID:Regulation of the alternative pathway of human complement by C1q. 295 92


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