Complement-inhibiting peptides identified by proximity to indels in the C3/4/5 protein family

To find protein-protein interactive sites in complement component C3, we examined regions of C3 that are proximal to sites of length polymorphism or indels in the C345 protein family. We reasoned that indels probably mark protein interactive sites because they usually involve residues at protein surfaces. To test for the involvement of individual indels, we examined the effects on complement function of synthetic peptides corresponding to indel-proximal segments of C3. We inferred that if such a segment made direct contact with a C3 binding protein, then the corresponding peptide might also bind to that protein and inhibit binding to C3. Twenty-one peptides were tested; four of these inhibited complement-mediated erythrocyte lysis at < or =100 microM and complement-mediated killing of Escherichia coli at about threefold higher levels. These results indicate that the four peptides act as specific inhibitors of complement. They also suggest that indels can be effective guides for locating interactive sites in C3 and in any protein that is a member of a protein family. Because only a linear sequence is required, a focus on indels may be particularly useful for identifying interactive sites in proteins for which a three-dimensional structure is unavailable.     

A conserved element in the serine protease domain of complement factor B

Factor B and C2 are serine proteases that carry the catalytic sites of the complement C3 and C5 convertases. Their protease domains are activated by conformational changes that occur during convertase assembly and are deactivated upon convertase dissociation. Factor B and C2 share an 8-amino acid conserved sequence near their serine protease termini that is not seen in other serine proteases. To determine its importance, 24 factor B mutants were generated, each with a single amino acid substitution in this region. Whereas most mutants were functionally neutral, all five different substitutions of aspartic acid 715 and one phenylalanine 716 substitution severely reduced hemolytic activity. Several aspartic acid 715 mutants permitted the steps of convertase assembly including C3b-dependent factor D-mediated cleavage and activation of the high affinity C3b-binding site, but the resulting complexes did not cleave C3. Given that factor B and C2 share the same biological substrates and that part of the trypsin-like substrate specificity region is not apparent in either protein, we propose that the conserved region plays a critical role in the conformational regulation of the catalytic site and could offer a highly specific target for the therapeutic inhibition of complement.     

Asparagine-linked glycosylation of the rat leukemia inhibitory factor expressed by simian COS7 cells

The leukemia inhibitory factor (LIF) is a secretory glycoprotein and a pluripotent growth factor which acts in diverse cell systems. LIF has been reported to be heavily glycosylated. In this paper, we examine the transient expression of rat LIF (rLIF) in COS7 cells and its glycosylation by a PNGaseF treatment and lectin blot. rLIF expression in COS7 cells resulted in seven molecular species being produced with zero to six N-glycosyl moieties. Mutated rLIF proteins with substitutions at the seven possible N-glycosylation sites were also expressed. An analysis of the molecular weight of the mutated rLIF confirmed the six N-glycosylation sites. Bioassays of mouse leukemia cell lines were performed to analyze the contribution of the glycosyl moieties to their functions. We found that the glycosyl moieties at each of the N-glycosylation sites were not essential to their function of the protein, but the reduced functions to promote the proliferation of DA-1a cells that had been observed for some mutants suggests a biochemical role for the in vitro function.     

The cofactors required by C3 nephritic factor to generate a C3 convertase in vitro

The mechanisms by which a C3 convertase is generated by C3 nephritic factor (NeF) were investigated using purified NeF, C3, C3b, factor B and factor D of the alternative pathway of complement activation. NeF could generate a C3 convertase with C3 and B in the absence of D, and without cleavage of B. At lower concentrations of NeF the addition of D was required to generate a C3 convertase, and B cleavage now occurred. The generation of both the D-independent and D-dependent C3 convertases with NeF was inhibited by preincubation of the C3 source with C3b inactivator (KAF); isolated C3b was more efficient than the C3 preparations used in generating the D-independent C3 convertase with NeF. These experiments indicate that C3b is required for the formation of both convertases, and that the reaction occurring with apparently native C3 is due to trace amounts of C3b. It is concluded that the C3 convertase generated by NeF in the absence of D is C3bB (NeF), and that generated in the presence of D is the feedback convertase C3bBb. The relevance of these experiments to reactions which may occur in vivo is discussed.     

Constitutive activation of the TSH receptor by spontaneous mutations affecting the N-terminal extracellular domain

Activating mutations of the TSH receptor gene have been found in toxic adenomas and hereditary toxic thyroid hyperplasia. Up to now, all mutations have been located in the serpentine portion of the receptor. We now describe two additional mutations affecting Ser-281 (Ser-281-Thr and Ser-281-Asn) in the ectodomain of the receptor. After transfection in COS cells, both mutants displayed increased constitutive activity for cAMP generation despite expression at a lower level than the wild type. The mutants were responsive to TSH. The present results are compatible with a model in which the activity of the unliganded receptor is kept at a low level by an inhibitory interaction between the N-terminal domain and the serpentine portion of the receptor.     

Medicine and science in the life of Luigi Galvani (1737-1798)

The c-Raf-1 kinase is converted into an oncoprotein by functional inactivation of its NH2-terminal regulatory domain and into a dominant-interfering protein by mutations that eliminate catalytic activity. This report describes a systematic charged residue-to-alanine scanning mutagenesis of the ATP-binding subdomain of the c-raf-1 gene. Two temperature-sensitive mutations were found, which were then used to construct both conditionally active and conditionally dominant-defective alleles. Stable cell lines overexpressing both types of mutants were isolated, and their phenotypes were examined. Ectopic expression of Raf-1 activity in quiescent cells was not sufficient to elicit S-phase entry, but the Raf signal could be efficiently complemented by the progression factor insulin-like growth factor I. The results point to a function of Raf-1 in the platelet-derived growth factor and epidermal growth factor pathways, leading to the establishment of competence for cell cycle entry. Ectopic expression of the dominant-defective activity in quiescent cells efficiently blocked entry into S phase. Effects of the dominant-defective protein could be detected minutes after the shift to the restrictive conditions and resulted in the rapid down-regulation of the mitogen-activated protein kinase pathway. Taken together, the phenotypes of the conditionally active and conditionally dominant-defective mutants point to a critical function of Raf-1 at very early times during exit from G0 and entry into G1.     

Overexpression of cyclin D1 and cdk4 in tumorigenesis of sporadic hepatoblastomas

We have shown previously that normal B cells share, with Epstein-Barr virus-transformed and malignant B cells, the ability to activate the alternative pathway (AP) of complement in vitro, resulting in the deposition of C3 fragments on the cell surface. Complement receptor type 2 (CR2, CD21) has been implicated directly as the site for formation of an AP convertase, which provides nascent C3b for deposition at secondary sites on the B-cell surface. In the present study, we have examined C3 fragment deposition in vitro in more detail by (1) assessing the importance of locally generated C3b for the deposition process, (2) investigating whether CR2 is the sole requirement for conferring AP activation capacity on a cell, and (3) determining whether CR2's function, as an AP activator, has different structural requirements from ligand binding. Increasing the availability of native C3, by increasing the serum (NHS) concentration, resulted in enhanced C3 fragment deposition on the B cells, whereas use of factor 1-depleted NHS, which showed massive fluid phase C3 conversion during the incubation, diminished the deposition. Sodium dodecyl sulphate-polyacrylamide gel electrophoresis (SDS-PAGE) and Western blotting of untreated and hydroxylamine-treated lysates from B cells, after in vitro activation, revealed that the majority of C3 fragments (primarily iC3b and C3dg) had been covalently bound to the cell surface. Transfection of COS cells with wild-type CR2 or a deletion mutant lacking 11 of the molecule's 15 homologous domains, but retaining the ligand-binding site, revealed that expression of intact CR2 conferred a 12-fold increase in AP-activating capacity on these cells, while no increase in AP activity was apparent on cells transfected with the mutant CR2.     

Decay-accelerating factor is a component of subendothelial extracellular matrix in vitro, and is augmented by activation of endothelial protein kinase C

The vasculature is protected from complement activation by regulatory molecules expressed on endothelial cells. However, complement fixation also occurs on subendothelial extracellular matrix (ECM) in vitro, and is initiated simply by retraction or removal of overlying cells. To investigate mechanisms controlling vascular complement activation, we examined subendothelial ECM for the presence of complement regulatory proteins. Decay-accelerating factor (DAF) was found on both human umbilical vein endothelial cells (HUVEC) and in their ECM; in contrast, membrane cofactor protein was found only on cells. ECM and HUVEC DAF were distinguishable based on several properties. While HUVEC DAF is anchored to cell membranes by a phospholipase C-sensitive glycosylphosphatidylinositol linkage. DAF was removed from ECM only by proteolytic digestion. Cytokines (TNF-alpha, IL-1 beta, IL-4) increased HUVEC DAF expression, but had minimal effect on ECM DAF; in contrast, phorbol 12-myristate 13-acetate (PMA) and wheat germ agglutinin markedly increased DAF on both HUVEC and ECM. The effect of PMA was mediated by activation of protein kinase C. The complement regulatory potential of ECM DAF was assessed by evaluating the effect of DAF-neutralizing antibodies on C3 deposition on HUVEC ECM, as well as on HeLa cell ECM, which had a considerably higher DAF content. DAF blockade enhanced C3 deposition on HeLa ECM, but had no effect on HUVEC ECM. As ECM DAF is likely to be immobile, i.e. able to interact only with C3 convertases forming in the immediate vicinity, its ability to regulate complement activation may be particularly density dependent, and contingent on endothelial-dependent up-regulation.     

Classical complement pathway activation on nucleated cells. Role of factor H in the control of deposited C3b

The restriction of alternative complement pathway activation in fluid phase or on nonactivator surfaces has been described as the major physiologic function of the complement regulatory protein factor H. In this study, we provide evidence that factor H is also a restriction factor of classical pathway activation on the surface of nucleated cells. We found that C3b was rapidly converted to inactivated C3b (iC3b) on human SK-MEL-93-2 melanoma cells after classical pathway activation with the murine monoclonal IgG3 Ab R24 directed against the disialoganglioside surface Ag GD3. The SK-MEL-93-2 cells are nonactivators of the alternative pathway and express neither CR1 (CD35) nor the C3b-cleaving protease p65. The cells are further characterized by the expression of only moderate amounts of DAF (CD55) and approximately 5 x 10(3) MCP (CD46) molecules/cell. FACS analysis and direct quantitation using [125I]factor H revealed high level binding of factor H to the melanoma cells (5.6 x 10(6) molecules/cell) during classical pathway activation. The binding of factor H could be inhibited under conditions that inactivate the classical complement pathway (EGTA and heat treatment), but not by factor B depletion of the serum, demonstrating that classical pathway activation was responsible for factor H binding. Treatment of factor B-depleted serum with neutralizing concentrations of polyclonal anti-factor H resulted in the prolonged presence of intact C3b on the cells and a significantly reduced generation of iC3b. The increased amount of C3b on these cells correlated with a 2.65-fold greater rate of cell death. In contrast, the increase in cell death effected by neutralizing concentrations of anti-CD46 or anti-CD55 Ab was only 0.13- or 0.35-fold, respectively. In addition, the supplementation of serum with purified factor H decreased the extent of lysis of the cells. Collectively, these data provide experimental evidence that factor H, through its cofactor activity for C3b degradation, is involved in the restriction of the classical pathway of complement on the surface of nucleated cells, a function that to date has been exclusively attributed to the membrane regulatory proteins CD35 and CD46.     

Using focus groups to identify psychosocial issues of urban black individuals with diabetes

BACKGROUND: Human serum represents an important barrier to the entry of most mucosal organisms into tissues and to the systemic circulation. If at all present, Helicobacter pylori within gastric tissue is rare, and bacteremia for this organism has been described only once. METHODS: To assess the susceptibility of H. pylori to the bactericidal activity present in normal human serum (NHS), we examined 13 H. pylori isolates. To assess the contributions of the classical and alternative complement pathways to killing, we added either C2-deficient or factor B-deficient serum, respectively, to heat-inactivated NHS. Also we assessed the ability of the strains to bind 125I-C3. RESULTS: After incubation for 60 minutes at 37 degrees C, all 13 H. pylori strains were killed by NHS; heating to 56 degrees C for 30 minutes ablated killing, indicating complement dependence for this phenomenon. In the absence of an antibody source, there was no killing when either an alternative or classical complement pathway source was used. Adding B-deficient serum to heat-inactivated normal human serum did not restore killing, but adding C2-deficient serum permitted partial killing. All of the 13 strains bound 125I-C3. Although the kinetics varied from strain to strain, C3 bound was significantly correlated (r = 0.61, p = 0.03) with serum susceptibility. CONCLUSIONS: H. pylori are susceptible to complement, alternative pathway activation appears critical, and C3 binding is a major locus of variability.     

Role of diacylglycerol-regulated protein kinase C isotypes in growth factor activation of the Raf-1 protein kinase

The Raf protein kinases function downstream of Ras guanine nucleotide-binding proteins to transduce intracellular signals from growth factor receptors. Interaction with Ras recruits Raf to the plasma membrane, but the subsequent mechanism of Raf activation has not been established. Previous studies implicated hydrolysis of phosphatidylcholine (PC) in Raf activation; therefore, we investigated the role of the epsilon isotype of protein kinase C (PKC), which is stimulated by PC-derived diacylglycerol, as a Raf activator. A dominant negative mutant of PKC epsilon inhibited both proliferation of NIH 3T3 cells and activation of Raf in COS cells. Conversely, overexpression of active PKC epsilon stimulated Raf kinase activity in COS cells and overcame the inhibitory effects of dominant negative Ras in NIH 3T3 cells. PKC epsilon also stimulated Raf kinase in baculovirus-infected Spodoptera frugiperda Sf9 cells and was able to directly activate Raf in vitro. Consistent with its previously reported activity as a Raf activator in vitro, PKC alpha functioned similarly to PKC epsilon in both NIH 3T3 and COS cell assays. In addition, constitutively active mutants of both PKC alpha and PKC epsilon overcame the inhibitory effects of dominant negative mutants of the other PKC isotype, indicating that these diacylglycerol-regulated PKCs function as redundant activators of Raf-1 in vivo.     

Mapping of the complement regulatory domains in the human factor H-like protein 1 and in factor H1

The human factor H-like protein 1 (FHL-1) is composed of seven repetitive domains (short consensus repeats; SCRs) that are identical in sequence to the seven NH2-terminal SCRs of the complement regulatory protein factor H. We have identified the native FHL-1 protein as a 42-kDa human plasma protein by immunoblotting and by comparing the mobility to that of a recombinant FHL-1 protein. Here, we demonstrate the existence of two distinct co-migrating human plasma proteins that represent the 42-kDa FHL-1 protein and the previously identified 43-kDa factor H-related 1 beta protein. Similar to factor H, the recombinant FHL-1 protein displays cofactor activity in factor I-mediated cleavage of C3b. To identify relevant SCRs of factor H and FHL-1, we recombinantly expressed the domains shared between the two proteins in the baculovirus expression system. Recombinant FHL-1 and all truncated forms that include SCRs 1 to 4 displayed cofactor activity. All four NH2-terminal SCRs are essential, as deletion mutants composed of SCR 1 and 4 only; of SCRs 1, 2, and 4 only, or of SCRs 1, 3, and 4 only were functionally inactive. Similarly, the distance between these individually folding domains is critical for function, as a recombinant protein that had two and four amino acids inserted between SCRs 1 and 2 or between SCRs 3 and 4, respectively, had no activity. These results demonstrate that all four NH2-terminal SCRs of FHL-1 (and of factor H) are required for cofactor activity in factor I-mediated cleavage of C3b, and that the distance between these SCRs is essential.     

Pilocarpine-induced seizures are accompanied by a transient elevation in the messenger RNA expression of the prohormone convertase PC1 in rat hippocampus: comparison with nerve growth factor and brain-derived neurotrophic factor expression

Several prohormone convertases that are involved in the posttranslational processing of precursor proteins, including neuropetides, hormones and neurotrophic factors, are produced in the central nervous system. These include enzymes named furin, PC1, PC2, PC5 and PACE4. To understand better the potential role played by prohormone convertases in the central nervous system we studied the expression of their messenger RNAs in the hippocampus of rats with pilocarpine-induced seizures. Moreover, we compared their expression patterns with those of neurotrophins such as nerve growth factor and brain-derived neurotrophic factor, which are up-regulated in the hippocampus during seizures. Pilocarpine (380 mg/kg, i.p.) induced seizure activity that appeared within the first hour and persisted for approximately 8 h. In situ hybridization showed transient increases in messenger RNA for nerve growth factor and brain-derived neurotrophic factor that peaked at 120 min in the hippocampus. Among the convertases studied, only PC1 messenger RNA displayed up-regulation, with temporal and topographic features comparable to those of nerve growth factor and brain-derived neurotrophic factor messenger RNA. The expression of furin, PC2 and PC5 messenger RNA changed little, while PACE4 was not expressed at all, both before and after pilocarpine administration. The highest increase in PC1 messenger RNA expression was found in granule cells of the dentate gyrus and, to a lesser extent, in the pyramidal layer of CA1 and CA3 subfields. Thus, in the rat hippocampus, the epileptiform activity induced by pilocarpine mediates a co-ordinated expression of messenger RNAs for PC1, nerve growth factor and brain-derived neurotrophic factor. Our findings suggest the involvement of PC1 in the processing of precursor proteins during seizure activity.     

An estimate of the total UV-B exposure for outdoor workers during a south-east Queensland summer

BACKGROUND: Acquired deficiencies of certain complement proteins and impaired opsonisation activity have been implicated in the pathogenesis of the increased susceptibility to infections of patients with alcoholic cirrhosis. METHODS: Serum concentrations of C3 and C4, plasma concentrations of C3bc, C9, and the terminal C5b-9 complement complex (TCC), and haemolytic complement activity (classic and alternative pathway) of serum, and serum opsonic activity were determined in 46 patients with compensated alcoholic cirrhosis, 31 who were decompensated, and in 15 healthy subjects. After 19 months (median) the investigated variables were analysed for their use in prognosis of recurrent infections and survival. RESULTS: C3 and C4 concentrations and the haemolytic complement activity of the alternative pathway were decreased in decompensated cirrhotic patients compared with controls (p < 0.01). Univariate analysis (log rank test) showed that low concentrations (< or = lower quartile) of C3 (p < 0.001) and C3bc (p < 0.05), haemolytic complement activity of the alternative pathway (p < 0.01) and classic pathway (p < 0.05), and decompensated cirrhosis (p < 0.001) were associated with an increased risk of infection and increased mortality. Multivariate (Cox) analysis showed that low C3 concentrations and decompensation of cirrhosis were significant predictors of infections and mortality (p < 0.02). CONCLUSIONS: Low serum C3 concentrations and decreased haemolytic complement function predisposes to infection and increased mortality in patients with alcoholic cirrhosis.     

Altered expression of host-encoded complement regulators on human cytomegalovirus-infected cells

Human cytomegalovirus (HCMV)-infected cells persist in the presence of anti-HCMV antibody, suggesting that HCMV has evolved mechanisms to evade host immune defenses. Insofar as no virus-encoded complement inhibitors have been identified for HCMV, we hypothesized that HCMV infection may alter the expression of host-encoded cell surface complement inhibitors. Herein, we report that cell surface expression of two complement regulator proteins, CD55 and CD46, which are members of the regulators of complement activation (RCA) gene cluster, increased up to eightfold following infection of fibroblasts or glioblastoma cells with HCMV, but not after infection with HSV-1 or adenovirus. However, the cell surface expression of a third complement regulator, CD59, which is not a member of the RCA gene cluster, was not altered during HCMV infection. Functional studies using purified complement components demonstrated that up-regulation of CD55 suppressed the activity of cell-associated C3 convertases on HCMV-infected cells. Furthermore, increased CD55 expression protected infected cells from complement-mediated lysis, an effect which directly correlated with the length of HCMV infection. Increased expression of host-encoded complement regulator proteins may provide protection of HCMV-infected cells from the host immune response in vivo, through increasing the resistance of infected cells to complement-mediated lysis and decreasing the deposition of C3-derived products on the cell surface.     

Oxidation of cysteine S-conjugates by rabbit liver microsomes and cDNA-expressed flavin-containing mono-oxygenases: studies with S-(1,2-dichlorovinyl)-L-cysteine, S-(1,2,2-trichlorovinyl)-L-cysteine, S-allyl-L-cysteine, and S-benzyl-L-cysteine

Complement plays important roles in host immune defences, and recent studies suggest that adipose tissue is an important site of production for some complement proteins. Starvation has been associated with low complement levels, but studied populations have usually had concomitant opportunistic infections or other conditions which might affect complement levels. To determine the impact of body weight and changes in body weight on serum complement, we investigated levels of complement proteins in otherwise healthy patients with a wide range of body weights, including patients with anorexia nervosa before and after treatment, obese dieters before and after weight loss, and normal weight controls. We found that complement proteins of the alternative pathway (C3, B, and D), alternative pathway haemolytic activity (AP50) and the inhibitors H and I were low in starving anorectics and normalized with weight gain. C3a levels were comparable in anorectics at low weight and after weight gain, indicating that low serum complement levels were attributable to hypoproduction and not complement cascade activation with consumption. Further, levels of C3, B, AP50, H and I, but not D, were higher than controls in obese patients and decreased toward normal after weight loss. Overall, percentage of ideal body weight, changes in body weight, and serum transferrin were each highly correlated with serum levels of complement proteins. We conclude that levels of alternative pathway complement components are determined in part by factors that influence body weight and by weight changes, possibly due to changes in production in adipose tissue or at other sites.     

C4AQ0 superimposed on a primary defect increases the susceptibility to systemic lupus erythematosus (SLE) in a family with association between C4AQ0 and SLE

OBJECTIVE: To investigate the association of C4AQ0 with increased incidence of systemic lupus erythematosus (SLE) or positive serology (28%) in an extended Icelandic family, and whether this can be explained by impaired complement function in handling immune complexes (IC). METHODS: The ability of the classical pathway to opsonize nascent IC [alkaline phosphatase (AP)-anti-AP] and bind them to human erythrocytes was evaluated by the new ICRB assay. The capacity of erythrocytes from family members to bind nascent IC was also measured by a modification of the ICRB assay. IC levels were measured by complement consumption assay, C3d by a sandwich ELISA, factor B by immunoelectrophoresis, and the alternative pathway function by a hemolytic assay. RESULTS: Family members with homozygous or heterozygous C4AQ0 (47%) showed no impaired complement dependent opsonization of IC and binding to erythrocytes. Their factor B and alternative pathway function was normal. Fifty-six percent of the family members (n=18) had abnormally high IC levels, seemingly independent of C4AQ0. However, 6 of the 7 individuals with high IC levels and SLE symptoms had C4AQ0 compared to 2 of 11 symptom-free individuals with high IC levels. CONCLUSION: Our results suggest that the susceptibility for SLE in this family may result from 2 different defects, one leading to elevated IC levels, and another associated with C4AQ0 without detectable impairment in the complement dependent IC transport mechanism. Individuals with both abnormalities have increased susceptibility to SLE.     

Mutational analysis of human papillomavirus type 11 E5a oncoprotein

In this study, we investigated the structural basis of human papillomavirus type 11 (HPV-11) E5a transforming activity at the amino acid level. The effects of insertion, deletion , and substitution mutations on teh E5a transforming activity were determined by the assay of anchorage-independent growth. In the conserved Cys-X-Cys structure, substitution of Ser for Cys-73 resulted in indistinguishable transforming activity, whereas substitution of Ser for Cys-75 or Ser for both Cys-73 and Cys-75 retained 50 and 42% transformation, respectively. This suggests that Cys at position 75 may be important for transformation. Charge and structural changes at teh COOH termini of several mutants impaired transformation significantly, but those at the middle region did so only mildly. In addition, the 16,000-molecular-weight pore-forming protein (16K protein) is known to associate with BPV-1, HPV-6, and HPV-16 E5 proteins. In this study, we investigated the correlation between E5a-16K binding affinity and the transforming activity of E5a by the use of 11 E5a mutants. Results show that E5a and these 11 E5a mutants could bind to the 16K protein when these proteins were coexpressed in COS cells, suggesting that simple binding of the 16K protein by E5a may not be sufficient for cell transformation.