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1.
Regulation of the alternative pathway of complement by pH   总被引:2,自引:0,他引:2  
Paroxysmal nocturnal hemoglobinuria (PNH) is an acquired hemolytic anemia. The abnormal PNH erythrocytes are highly susceptible to complement-mediated lysis in vitro, especially at pH 6.4. Lysis has been shown to be due to alternative pathway activation. The purpose of this study was to determine why lysis of PNH erythrocytes is increased at acidic pH. The results presented demonstrate that at pH 6.4: binding of C5 and Factor B to C3b deposited on human erythrocytes is markedly enhanced; generation of the two C3 convertases, C3(H2O), Bb and C3b,Bb is increased; and control of C3b on human erythrocytes by CR1 and Factor I is diminished. In addition, it was found that rabbit erythrocytes, which activate the human alternative pathway, are also lysed much better at pH 6.4 than at pH 7.4. These results indicate that the optimal pH for the initiation and amplification of the alternative complement pathway, and probably also for the activation of the membrane attack complex, is 6.4.  相似文献   

2.
The most complement (C)-sensitive type of erythrocytes (E) occurring in paroxysmal nocturnal hemoglobinuria (type III PNH E) have previously been found to exhibit approximately twofold to fourfold greater lysis than normal human E when exposed to isolated human C5b6, C7, C8, and C9 (reactive lysis), in the absence of a known source of C3- or C5-convertases or fluid-phase C3. In further studies on the mechanism of this phenomenon, we now report that C5b6-dependent binding of 125I-C7 to two samples of PNH E (greater than 95% type III) is equal to that found with normal human E at each of several C5b6 inputs tested. Lysis developed by excess C8 and C9, however, was consistently greater for the PNH E. Thus, the exaggerated sensitivity of type III PNH E to reactive lysis cannot be explained by abnormally high uptake of C5b6 or C7 from the fluid phase. Rather, the data indicate that cell-bound C5b67 sites are converted to effective hemolytic sites with greater efficiency on type III PNH E than on normal human E, assuming that the distribution of cell-bound C7 throughout both cell populations is similar. In related studies we have addressed the proposal by other investigators that C3b putatively bound to PNH E in vivo might account for their increased sensitivity to reactive lysis in vitro, by analogy to prior observations on C3b-potentiated reactive lysis of sheep E. The latter hypothesis was made more appealing by the recent discovery that type III PNH E lack an integral membrane protein, decay-accelerating factor (DAF), which in normal E accelerates the decay of membrane-bound C3 convertases. Against this hypothesis, however, is our present finding that preincubation of PNH E with four different goat or rabbit polyclonal antibodies to human C3 failed to inhibit the subsequent reactive lysis of these cells. Under these same conditions, the C3b-dependent increment in reactive lysis of sheep EAC4b3b was abrogated by pretreatment with similar dilutions of these anti-C3 antibodies, generally in association with agglutination. Furthermore, sheep EAC4b3b displayed increased 125I-C7 binding in proportion to augmented lysis, in contrast to the findings with PNH E. Therefore, deficiency of DAF in type III PNH E does not adequately explain their supranormal sensitivity to reactive lysis unless DAF can modulate the terminal lytic steps by a mechanism distinct from its effect on C3 convertase decay. Alternatively, type III PNH E could have a more general abnormality in which DAF deficiency is one manifestation and increased sensitivity to reactive lysis is another.  相似文献   

3.
Species specificity of recognition by the alternative pathway of complement   总被引:12,自引:0,他引:12  
The recognition function of the alternative complement pathway was studied with isolated human and rabbit components. Zymosan and homologous and heterologous erythrocytes were used as representative activators or nonactivators. The binding affinity of Factor B and Factor H for particle-bound C3b was measured. In both species, the average affinity of Factor H for bound C3b on homologous cells (nonactivators) was eight to 10 times higher than on zymosan particles (activators). The interaction between Factor H and C3b on rabbit erythrocytes was species-specific: rabbit Factor H bound strongly to rabbit C3b on rabbit erythrocytes and also on human erythrocytes, which are nonactivators for the rabbit alternative pathway. Human Factor H bound strongly to human C3b on human erythrocytes but seven times weaker on rabbit erythrocytes, which are activators of the human alternative pathway. No substantial differences were found in the binding of Factor B to bound C3b regardless of the nature of the particle to which C3b was bound. The results indicate that in the two species studied, the molecular mechanism of recognition is analogous and that recognition is species-specific.  相似文献   

4.
CR1, CR2, DAF, MCP, factor H, C4bp, factor B, and C3 are members of a family of structurally related molecules, the majority of which belong to the complement system. Several of these molecules also share functional features such as cofactor and decay/dissociation activity and compete with one another in binding to C3b. Since factor H appears to bind to multiple sites in C3, we investigated the relationship between the factor H- and CR1-binding sites in C3b. Factor H binding to C3b is inhibited by either the C3c or C3d fragments, and addition of both fragments together augments this inhibition. One monoclonal anti-C3c antibody, anti-C3-9, which recognizes a neoantigenic epitope expressed upon cleavage to C3 to C3b, inhibited both factor H and CR1 binding to EC3b cells. This monoclonal antibody (MoAb) also inhibited factor B binding to EC3b. Two observations further supported our hypothesis that these molecules bind to proximal sites in C3b. First, a synthetic peptide spanning this region of C3b (C3(727-768)) inhibited factor H binding. Second, antibodies raised against this peptide inhibited binding to CR1, factor H, and factor B to C3b. These data show that H binds to at least two sites in C3b: the site in the C3c fragment is within the identified CR1-binding domain while the site in the C3d fragment surrounds the CR2-binding site.(ABSTRACT TRUNCATED AT 250 WORDS)  相似文献   

5.
The covalent binding of complement fragment C3b to zymosan by the action of the alternative-pathway C3 convertase and the reversible binding of several complement proteins (component C5, factor B, beta 1H and properdin) to C3b on zymosan have been investigated. When C3b is deposited on zymosan after activation by a surface-bound C3 convertase, the C3b molecules are deposited in foci around the C3 convertase site, with an average of 30 C3b molecules per site. The association constants of C5, factor B, beta 1H, and properdin for C3b bound to zymosan have been determined. The association constants ranged from 6.5 x 10(-5) M-1 for factor B to 2.9 x 10(7) M-1 for properdin. An approximate stoichiometry of 1 : 1 for C5, factor B, and properdin binding to C3b has been observed. Curvilinear Scatchard plots were observed for beta 1H binding to C3b, with the maximal extrapolated ratio of beta 1H to C3b of 0.32. Physiological amounts of properdin increase by 7-fold the affinity constant for factor B binding to C3b with no alteration in the stoichiometry. Similarly, physiological amounts of factor B increase the affinity constant of properdin to C3b about 4-fold with only a small measured difference in stoichiometry. Competition binding studies and protein modification suggest that C5, factor B, beta 1H, and properdin each bind to a distinct region on C3b.  相似文献   

6.
用化学方法测定了乙酰胆碱脂酶(AchE)活性,阵发性睡眠性血红蛋白尿症(PNH)红细胞远低于正常红细胞。为了进一步研究PNHAchE(—)的红细胞,采用Protein A Sepharose 6MB结合AchE单抗亲和层析法分离出PNHAchE(—)的红细胞。用间接免疫荧光流式细胞术检测,PNH细胞AchE低于正常,而PNHAchE(—)红细胞未能检出AchE。3H-肌醇标记实验证明,正常红细胞膜区带4.1处有较高的放射活性,而PNH红细胞极低,PNHAchE(—)红细胞完全无放射活性。用AchE抗体做免疫印渍实验证明了AchE存在区带4.1部位。DMPC诱导正常和PNH红细胞,检测二者囊泡化的程度,发现PNH病人红细胞远比正常人红细胞易于囊泡化。  相似文献   

7.
Bb (Mr = 63,000) is the catalytic site-bearing subunit of the C3 convertase of the alternative complement pathway, C3b,Bb, which is dissociated from the complex upon decay of the enzyme. Because purified Bb induced certain leukocyte activities, we examined whether it expresses residual hemolytic or proteolytic activity. Hemolytic activity of Bb was tested by using Factor B- or Factor D-depleted normal human serum and rabbit or sheep erythrocytes. Proteolytic activity of Bb was assessed by using purified C3 or C5 as substrates and SDS-PAGE to detect protein cleavage. Bb expressed metal-dependent hemolytic activity that was approximately 100-fold lower than that of Factor B. This activity could be inhibited by Factor H and enhanced by properdin. Low but statistically significant binding of 125I-labeled Bb to C3b on erythrocytes was demonstrated. Monoclonal antibodies that bind to Bb but not to intact Factor B inhibited the Bb hemolytic activity. Purified Bb cleaved C3 to C3a and C3b, as evidenced by the appearance of the alpha'-chain of C3b. It also cleaved C5 to C5a and C5b when cobra venom factor was present in the reaction mixture. Metal ions were required for expression of proteolytic activity, and Ni supported the activity better than Mg. These results indicate that decayed Bb has residual C3 and C5 cleaving activity and hemolytic activity, expression of which appears to require its association with C3b, C3(H2O), or cobra venom factor. These observations may aid in explaining the mechanism of action of Bb on leukocytes.  相似文献   

8.
Decay-accelerating factor (DAF) is a 70,000 Mr membrane protein that inhibits the amplification of the complement cascade on cell surfaces. Monoclonal antibodies against different epitopes of the 70,000 Mr DAF (DAF-1) recognize a second band at the position of 140,000 Mr on a Western blot of total red cell ghost proteins or partially pure DAF subjected to electrophoresis under denaturing conditions. Like DAF-1, this polypeptide (DAF-2) has the ability to accelerate decay of the C3 convertase, C4b2a, and to reincorporate into red cell membranes. A population of erythrocytes from patients with paroxysmal nocturnal hemoglobinuria (PNH) lack DAF-1 and also DAF-2. In addition, in some patients' red cells bearing DAF-1 of normal Mr, DAF-2 is 5,000 to 10,000 Mr smaller than normal. The structural basis for these differences in size of DAF and its PNH variants is unknown.  相似文献   

9.
Our study demonstrates that binding of complement-opsonized HIV to complement receptor type 1 on human erythrocytes (E) via C3b fragments is followed by a rapid normal human serum-mediated detachment of HIV from E. The release was dependent on the presence of factor I indicating a conversion of C3b fragments to iC3b and C3d on the viral surface. This in turn resulted in an efficient binding of opsonized HIV to CR2-expressing B cells, thus facilitating B cell-mediated transmission of HIV to T cells. These data provide a new dynamic view of complement opsonization of HIV, suggesting that association of virus with E might be a transient phenomenon and the factor I-mediated processing of C3b to iC3b and C3d on HIV targets the virus to complement receptor type 2-expressing cells. Thus, factor I in concert with CR1 on E and factor H in serum due to their cofactor activity are likely to be important contributors for the generation of C3d-opsonized infectious HIV reservoirs on follicular dendritic cells and/or B cells in HIV-infected individuals.  相似文献   

10.
The maturational characteristics of the humoral immune responses of C3H and NZB mice to autologous and heterologous erythrocyte antigens were investigated. Clonal selection of antibody-secreting B lymphocytes was examined at the plaque-forming cell level of analysis of changes in mean antibody affinity and the heterogeneity of binding affinities. The primary immune response of C3H mice to SRBC exhibited a progressive temporal increase in mean relative antibody affinity and a concomitant restriction in the heterogeneity of binding affinities consistent with clonal selection and restriction of B lymphocytes to high affinity antibody-secreting cells. By contrast, the anti-SRBC immune response of NZB mice displayed aberrant maturational characteristics with a progressive decrease in mean relative antibody affinity but also clonal restriction with selection of clones of cells secreting low affinity antibodies. The spontaneous autoimmune responses of NZB mice to autologous erythrocyte surface autoantigens X and HB were different from the response to heterologous erythrocytes in that there was neither a progressive change in mean relative binding affinity nor evidence of progressive clonal restriction. Although the precise mechanisms responsible for the aberrant selection and derepression of B lymphocyte clones in NZB mice have not been identified, the very nature of the aberration suggests the existence of one or more defects which may be intrinsic to the B lymphocytes of NZB mice.  相似文献   

11.

Objectives

Paroxysmal nocturnal hemoglobinemia (PNH) is a rare but serious condition characterized by complement-mediated red blood cell (RBC) hemolysis and episodic thrombotic attack. It results from decay accelerating factor (CD55), and protectin (CD59), becoming attached to RBC and other cell surfaces. Absence of these protective proteins leaves such cells vulnerable to self attack at the C3 convertase and membrane attack complex (MAC) stages of complement activation. We have previously reported that aurin tricarboxylic acid (ATA) is an orally effective agent that selectively blocks complement activation at the C3 convertase stage as well as MAC formation at the C9 insertion stage.

Design and Methods

We used a CH50 assay method and western blot analysis to investigate the vulnerability to complement attack of PNH RBCs compared with normal RBCs. Zymosan was used as the activator of normal serum and PNH serum. ATA was added to the sera to determine the concentration necessary to protect the RBCs from lysis by the zymosan-activated sera.

Results

We found that erythrocytes from PNH patients on long term treatment with eculizumab were twice as vulnerable as normal erythrocytes to lysis induced by complement activated serum. Western blot data showed the presence of both C3 and C5 convertases on the PNH patient erythrocyte membranes. These data indicate persistent vulnerability of PNH erythrocytes to complement attack due to deficiencies in CD55 and CD59. ATA, when added to serum in vitro, protected PNH erythrocytes from complement attack, restoring their resistance to that of normal erythrocytes.

Conclusions

We conclude that ATA, by protecting PNH erythrocytes from their decay accelerating factor (CD55) and protectin (CD59) deficiencies, may be an effective oral treatment in this disorder.  相似文献   

12.
The alpha- and beta-chains of hemoglobin (Hb) are methylated in intact erythrocytes and in cellular extracts by a protein D-aspartate methyltransferase (EC 2.1.1.77) specific for D-aspartyl and L-isoaspartyl residues. During an 18-h incubation of intact erythrocytes with L-[methyl-3H]methionine, the subfraction of Hb molecules associated with the membrane becomes progressively enriched with methyl esters, reaching a specific activity 10-fold that of cytosolic Hb. The enhanced methylation of membrane Hb in intact cells appears not to result from its methylation at sites with inherently greater stability, since salt-extracted membrane Hb 3H-methyl esters and cytosolic Hb 3H-methyl esters are hydrolyzed at similar rates at pH 8.4 in vitro. Oxidative treatment of column-purified Hb with acetylphenylhydrazine produces an immediate 4-fold increase in its specific methyl-accepting activity coincident with the production of hemichrome forms known to possess a higher affinity for membrane binding sites. Together, the results suggest that the methyltransferase preferentially recognizes partially denatured Hb molecules which possess a higher affinity for membrane binding sites, similar to Hb forms observed in senescent erythrocytes.  相似文献   

13.
Factor B is the zymogen of the catalytic site bearing subunit Bb of the C3/C5 convertase of the alternative pathway of complement. In this study, the location of the C3b binding site and the catalytic site within the Bb subunit were investigated. When human Factor B was treated with porcine elastase, fragments with respective molecular weights of 36,000, 35,000, 33,000, 31,000, and 25,000 were generated. Binding studies showed that only the 33,000-dalton fragment was capable of binding to C3b. The 33,000-dalton fragment was purified using fast protein liquid chromatography and found to be part of the Bb fragment upon testing with monoclonal antibody 15-6-19-1. Amino-terminal amino acid sequence analysis of the 33,000-dalton fragment placed it in the C-terminal half of Bb. The fragment expressed esterolytic activity as evidenced by cleavage of the synthetic substrate N alpha-acetyl-glycyl-L-lysine methyl ester and restored alternative pathway activity in Factor B-depleted serum. Its hemolytic activity was approximately 60-fold lower than that of Factor B. Comparative binding studies in the presence of metal ions using zymosan-C3b showed that the 33,000-dalton fragment bound to C3b with higher affinity than Factor B. Addition of the fragment to human serum inhibited alternative pathway activation by rabbit erythrocytes due to its high affinity for C3b and its low hemolytic activity compared to Factor B. These results show that the C-terminal 33,000-dalton portion of Bb contains not only the enzymatic site of Bb but also a C3b binding site which confers hemolytic activity upon the fragment. The observation that the fragment inhibited alternative pathway activation suggests that a synthetic peptide may be constructed that exhibits negative regulator activity in the alternative pathway.  相似文献   

14.
The plasma protein factor H primarily controls the activation of the alternative pathway of complement. The C-terminal of factor H is known to be involved in protection of host cells from complement attack. In the present study, we show that domains 19-20 alone are capable of discriminating between host-like and complement-activating cells. Furthermore, although factor H possesses three binding sites for C3b, binding to cell-bound C3b can be almost completely inhibited by the single site located in domains 19-20. All of the regulatory activities of factor H are expressed by the N-terminal four domains, but these activities toward cell-bound C3b are inhibited by isolated recombinant domains 19-20 (rH 19-20). Direct competition with the N-terminal site is unlikely to explain this because regulation of fluid phase C3b is unaffected by domains 19-20. Finally, we show that addition of isolated rH 19-20 to normal human serum leads to aggressive complement-mediated lysis of normally nonactivating sheep erythrocytes and moderate lysis of human erythrocytes, which possess membrane-bound regulators of complement. Taken together, the results highlight the importance of the cell surface protective functions exhibited by factor H compared with other complement regulatory proteins. The results may also explain why atypical hemolytic uremic syndrome patients with mutations affecting domains 19-20 can maintain complement homeostasis in plasma while their complement system attacks erythrocytes, platelets, endothelial cells, and kidney tissue.  相似文献   

15.
We have shown previously that C3b resides in a protected site when it is covalently bound to IgG (C3b-IgG). Such C3b displays a reduced affinity for factor H, with consequent enhanced survival in the presence of factors H and I and increased capacity for promoting alternative pathway consumption of C3. Because erythrocyte CR1 may be a major co-factor for factor I-mediated inactivation of immune complex-borne C3b in blood, we have examined the effect of covalently bound IgG on the C3b-CR1 interaction. Binding of monomeric C3b and C3b-IgG to human erythrocyte CR1 demonstrates identical ionic strength dependence for both species. Identical numbers of binding sites with indistinguishable affinities are detected by both ligands. Cleavage of the alpha'-chain of C3b and the alpha'-heavy chain of C3b-IgG proceeds at the same rate when erythrocyte CR1 serves as co-factor for factor I. Unlike factor H, CR1 supports a second cleavage of fluid-phase iC3b alpha'1 chain (free or bound to IgG) that generates C3c and a 33,000 m.w. fragment, which bears antigenic markers characteristic of C3g. Inactivation of C3b and C3b-IgG by CR1 and factor I also occurs at physiologic ionic strength, but proceeds very slowly relative to rates attainable with sub-physiologic inputs of factor H. CR1 does not recognize IgG-bound C3b as being in a protected site but, because of low binding affinity at physiologic ionic strength, is probably highly dependent on multivalent ligand-receptor interactions to efficiently exert its co-factor functions. Thus, inactivation of C3b-IgG heterodimers or small immune complexes bearing limited numbers of C3b residues may remain largely factor H-dependent in vivo, with resultant enhanced C3b survival.  相似文献   

16.
The fluid-phase interaction between factor B and an activated form of C3 (C3b or C3(H2O)) is fundamental to the formation of the alternative complement pathway C3 convertase. The present study reports on the thermodynamic parameters that govern these interactions. The extrinsic fluorescent probe 8-anilino-1-naphthalene sulfonate (ANS) and factor B were found to act as competitive ligands in binding to C3b. Thus, complex formation between C3b or C3(H2O) and factor B could be monitored by the quenching of C3b/C3(H2O)-dependent ANS fluorescence upon the addition of B. Under physiological conditions (0.5 mM Mg2+, 37 degrees C, mu = 0.15), the Ka governing the binding of C3b to B was 2.5 X 10(6) M-1, whereas the interaction of C3(H2O) with factor B was of 5-fold lower affinity. Both reactions were endothermic, with the van't Hoff enthalpy being approximately +16.0 kcal mol-1 in each case. Thus, a large positive entropy change provides the net driving force in these interactions. Although Ka increased at higher Mg2+ concentrations, this was not an enthalpy-mediated phenomenon. Taken together, these data are consistent with hydrophobic interactions being dominant in C3b.B or C3(H2O).B complex formation. The enhancement of complex formation by Mg2+ and concomitant increase in delta S suggests that the metal ion plays a role in increasing the number of hydrophobic contacts.  相似文献   

17.
Although surface membrane density of complement receptor type one (CR1) on erythrocytes (E) is probably an inherited trait among normal individuals, recent evidence from our laboratories suggests that the reduced number of CR1 per E observed in patients with systemic lupus erythematosus (SLE) results from acquired as well as genetic factors. In the present investigation, the number of CR1 per E was quantitated with 125I-monoclonal anti-CR1 and was found to vary inversely with disease activity in patients with SLE who were followed serially for as long as 14 mo. Although evidence for E surface-bound immune complexes or fixed C3b/iC3b was not obtained, periods of disease activity and low amounts of CR1 per E correlated with the presence of 100 to 800 molecules per E of fixed C3dg fragments (less than 100 C3dg per E in normal subjects). Reduced CR1 and excess fixed C3dg on E also were observed in patients with other disorders associated with complement activation, including chronic cold agglutinin disease, autoimmune hemolytic anemia, paroxysmal nocturnal hemoglobinuria (PNH), Sj?gren's syndrome, and mycoplasma pneumonia. A significant negative correlation (r = -0.498) between CR1/E and fixed C3dg/E was demonstrable in 255 individual assays evaluated by regression analysis. CR1 decreased and fixed C3dg increased during active disease; the converse was obtained during remission. In patients with active SLE, both serum complement activity and E CR1 decreased, whereas fixed C3dg fragments increased. By piecewise linear regression analysis, the appearance of 100 to 400 C3dg molecules on patients' E corresponded to a 27 to 60%, reduction in the number of CR1 per E (p less than 0.0002), confirming that fixation of C3 to E was correlated with a loss of CR1. In patients with PNH, low values for CR1 were observed on moderately complement-sensitive PNH type II E in association with increased fixed C3 fragments; however, the markedly complement-sensitive PNH type III E had essentially normal amounts of CR1 and bore little fixed C3. The addition of soluble DNA/anti-DNA immune complexes to normal blood generated levels of fixed C3dg fragments on E comparable to those observed on E from patients with SLE. Kinetic experiments indicated that C3b was fixed to E during the process of immune complex binding and release from E CR1, and that this fixed C3b was subsequently degraded rapidly to fixed iC3b and more slowly to fixed C3dg without the loss of CR1 that occurs in vivo.(ABSTRACT TRUNCATED AT 400 WORDS)  相似文献   

18.
We prepared single-labeled FITC derivatives of beta-2-microglobulin (b2m) and examined their interactions with class I MHC Ag H chains on living cells. Human b2m was reacted with FITC under mild conditions and separated by hydroxylapatite chromatography into three peaks containing single labeled derivatives of b2m peaks A, B, and C, and a peak containing the unmodified protein. The three fluorescent derivatives labeled the surfaces of cells bearing class I MHC Ag. The labeling was specific for class I MHC Ag as indicated by failure to label cells in the presence of excess unlabeled b2m and failure to label the HLA-negative cell lines Daudi and 721.221. Mouse cells labeled with fluorescent human b2m were recognized by mAb to the class I MHC Ag and by virus-restricted cytotoxic T lymphocytes, suggesting that labeling with the fluorescent b2m does not significantly alter the structure of class I MHC Ag or impair their ability to present viral antigens to cytotoxic T lymphocytes. We determined the kinetic and equilibrium binding parameters for the fluorescent b2m derivatives associating with the class I H chains of mouse and human cells. Peaks B and C exhibited biphasic binding to the mouse lymphoma cells EL-4(G-CSA-) (Kd1 = 1 x 10(-9) M; K2 = 1.5 to 3.0 x 10(-8) M whereas peak A bound to a small number of low affinity binding sites. In contrast to the biphasic binding observed with EL-4(G-CSA-), only monophasic binding was observed for peak C binding to RDM4 cells. Biphasic binding was also observed with the human B cell line LCL 721. Analysis of a series of LCL 721 class I MHC loss mutants and gene transferents revealed that the heterogeneity in binding is due to differences in the affinity of different class I encoded H chains for b2m.  相似文献   

19.
The human complement regulatory protein, factor H, was examined by high resolution transmission electron microscopy. Results of electron microscopy confirm hydrodynamic analysis and indicate that factor H is a monomer of M(r) approximately 155,000. Factor H is an extended flexible molecule with a contour length of 495 A and a cross-sectional diameter of 34 A. Most images of factor H indicate that its polypeptide chain typically folds back on itself with the result that the average length of a factor H molecule is about half its contour length. Only one end of factor H associates with C3b. When bound to C3b, factor H still shows considerable conformational flexibility. Factor I is a bilobal protein of 130 A in length, and its two globular parts have maximal diameters of 54 and 49 A. The results establish that factor I is a two domain protein where the smaller subunit is a protease and the larger one is involved with binding C3b. Factor I binds C3b with a one-to-one stoichiometry in an ionic strength-dependent fashion. In the absence of sodium chloride an affinity constant of 5.7 x 10(5) M-1 was determined for factor I interaction with C3b. Whereas the Scatchard plot of factor I binding to C3b in the absence of factor H is linear, in the presence of factor H a curvilinear graph is obtained. The strong binding sites on C3b for factor I have an affinity at least 15-fold higher in the presence of factor H than in its absence. The results of both electron microscopy and binding studies were combined to compose a scheme envisioning how factors H and I cooperate for the processing of C3b.  相似文献   

20.
Salmonellae differing in the O-antigen side chain of their lipopolysaccharide were previously shown to activate the alternative pathway of complement to different extents. We now examine the generation of the major cleavage fragment of the complement component C3 (C3b) on these bacteria in a system that contains the purified components C3, B, D, and P but lacks the regulatory proteins H and I. The deposition of C3b in this system reproduces the same pattern obtained earlier with the use of whole serum, with the expected differences among the strains bearing different O-antigen. However, two distinct mechanisms for these differences in C3b generation became apparent. The intermediate activating strain showed 3 to 4 times less initial deposition of C3b than the other two strains. In contrast, the least activating strain showed adequate initial deposition but poor amplification, as shown by 2 to 3.4 lower amplification indexes as compared with those on the other two strains. Binding studies with factor B showed that decreased C3 convertase formation was responsible for the low amplification on this strain. Only 25% of the C3b bound to its surface was able to bind factor B with a high affinity, in comparison with 90% on the other two strains. No differences were found for the binding of factor H among the strains. These studies identify the molecular mechanisms by which these bacteria avoid complement activation.  相似文献   

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