C1 dissociation. Spontaneous generation in human serum of a trimer complex containing C1 inactivator, activated C1r, and zymogen C1s

Activation of the C1 complex in the presence of C1 inactivator (C1 IA) is known to result in the formation of tetramer C1 IA-C1r-C1s-C1 IA complexes that are dissociated from C1q. Both C1r and C1s of the tetramers are present in their activated forms. The present investigation concerned the generation of trimer complexes containing C1 IA, activated C1r, and zymogen C1s (C1 IA-C1r-C1s). C1 IA-C1r-C1s were released from C1q and were formed in high concentration during prolonged incubation (1 to 3 days) of normal serum at 37 degrees C without addition of activators. By contrast, dissociation of C1 with formation of C1 IA-C1r-C1s-C1 IA was complete within 30 min at 37 degrees C, when the serum was treated with heat-aggregated IgG (1 g/liter). On size exclusion chromatography (TSK-4000), C1 IA-C1r-C1s and C1 IA-C1r-C1s-C1 IA emerged with apparent m.w. of 320,000 and 460,000, respectively. The composition of the complexes was examined by absorption of serum with F(ab')2 anti-C1s- or anti-C1r-coated Sepharose beads. Eluates were analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis combined with immunoblotting. Under nonreducing conditions, heat-aggregated IgG-treated serum showed high concentrations of C1 IA-C1r (m.w. 202,000) and C1 IA-C1s (m.w. 194,000), while serum incubated at 37 degrees C without activators showed high concentrations of C1 IA-C1r but no C1 IA-C1s. Under reducing conditions, heat-aggregated IgG-treated serum showed m.w. 120,000 and 110,000 complexes of C1 IA and the C1r and C1s light chains, respectively. Uncleaved C1s and the m.w. 120,000 complex was found in serum that was incubated at 37 degrees C without activators. Consistent with results obtained by size exclusion chromatography, analysis by crossed immunoelectrophoresis and by electroimmunoassay showed that C1s could be released from C1 IA-C1r-C1s in the presence of EDTA.     

Low molecular weight C1q-precipitins in hypocomplementemic vasculitis-urticaria syndrome: partial purification and characterization as immunoglobulin.

A lupus-like syndrome involving chronic urticaria with cutaneous vasculitis, systemic symptoms, hypocomplementemia with preferential depletion of C1q, and low m.w. (7S) C1q-precipitins has recently been defined. The C1q-precipitin activity (C1q-p) seems to represent a diagnostic marker of the disease, but its chemical nature is not yet clear. We have partially purified and characterized C1q-p from the serum of two patients with this syndrome and compared its activity with the C1q-precipitating activity of aggregated human gamma-globulin (AHGG) anti-C1q antibodies, and several polynucleotides including DNA and polyinosinic acid. C1q-p was found to partition with IgG during precipitation by ammonium sulfate and low ionic strength buffer as well as during column chromatography on DEAE-cellulose and G-200 Sephadex. Like AHGG, but in complete contrast to the polynucleotides, the C1q-precipitating activity of C1q-p was sensitive to pepsin, trypsin, and acidic conditions, but unaffected by DNAse or RNAse; the C1q-precipitating activity of anti-C1q antibody was not diminished by any of these procedures. Thus, C1q-p consists of gamma-migrating protein of low m.w., and its C1q-precipitating activity is indistinguishable from that of AHGG. These results are consistent with the concept that C1q-p is comprised, at least in part, of IgG that binds C1q via the Fc portion of the molecule.     

Studies on the induction of tolerance to alloantigens. III. Induction of antibodies directed against alloantigen-specific delayed-type hypersensitivity T cells by a single injection of allogeneic lymphocytes via portal venous route

BALB/c mice were inoculated with normal C3H/He spleen cells via the portal venous (p.v.) route. Intravenous injection of serum from these BALB/c mice into naive syngeneic mice resulted in almost complete abrogation of their ability to generate anti-C3H/He delayed-type hypersensitivity (DTH) responses as induced by s.c. immunization with C3H/He cells. Since a portion of the same serum did not inhibit the development of anti-C57BL/6 DTH responses, the suppressive effect of the transferred serum was alloantigen-specific. Such serum factor(s) was produced in normal but not in nude mice and the suppressive activity was transferred in H-2- or immunoglobulin allotype-incompatible combinations. Immunochemical analyses of this serum suppressive factor have revealed that its m.w. was approximately 150,000, corresponding to the size of immunoglobulin (Ig)G, and that the activity was trapped by protein A or by an anti-immunoglobulin column. Although the absorption of the serum from anti-C3H/He-tolerant BALB/c mice with C3H/He target spleen cells did not abrogate the suppressive activity, the additional absorption with spleen cells from anti-C3H/He hyperimmune BALB/c mice almost completely eliminated the suppressive potential. Moreover, pretreatment of BALB/c anti-C3H/He DTH effector spleen cells with the above serum from tolerant mice induced the inhibition of anti-C3H/He DTH responses. Taken together, these results indicate that a single injection of allogeneic cells via the p.v. route results in the production of antibody capable of inhibiting the capacity of DTH effector cells specific for alloantigens used for the p.v. presensitization.     

Mixed IgA-IgG aggregates as a model of immune complexes in IgA nephropathy

Patients with IgA nephropathy have circulating immune complexes containing IgA, IgG, and C3. We have mixed human IgG and IgA1 and heated them to form mixed aggregate. On sucrose density gradients IgG aggregates were 11 to 19S whereas IgA aggregates were either 11S or greater than 19S. Mixed aggregates had both an 19 and 11 S peak. The isoelectric point of aggregates with only IgG was 7 to 9 and of only IgA 4.5 to 5.5. The isoelectric point of mixed aggregates decreased as the percent IgA increased. IgG aggregates mixed with normal human serum caused 30% C3 activation (20 min, 37 degrees C) whereas IgA aggregates causes no activation. There was a linear decrease in C3 activation as the percent IgA increased. Mixed aggregates that contained either radiolabeled IgG or IgA were mixed with normal human serum (1 h, 37 degrees C) and then solubilized, reduced, and separated by 10% SDS-PAGE. Heavy m.w. bands, consistent with covalent bonding of C3b and C3bi to Ig H chain were only seen in lanes with labeled IgG. This was confirmed by Western blot analysis. A human dimeric IgA1 myeloma protein with rheumatoid factor activity was also studied. It caused 15% alternative pathway C3 activation but did not fix C3 to its H chain. Binding of aggregates (+/- C3) to E was tested. Aggregates with IgG C3 bound but IgA (+/- C3) did not. Addition of greater than 10% IgA to an IgG-C3 aggregate inhibited E binding. We conclude that IgG in mixed aggregates is the site of C3 fixation. In contrast, IgA does not fix C3 but instead lowers the isoelectric point, increases the size and inhibits binding to E. These properties would inhibit clearance and promote mesangial deposition and local C activation.     

Complement-mediated release of histamine from human leukocytes.

Activation of either the alternative or classical pathway of complement generated a factor which induced release of histamine from both non-allergic and allergic human basophils. This factor probably is derived from the complement system since 1) its formation was associated with loss of C3 activity in human serum, 2) chemotactic factor, probably also a complement product, was generated simultaneously, 3) heat inactivation blocked its formation, 4) anti-C3 and anti-C5 blocked formation of the factor, and finally 5) anti-C5 inhibited the activity of the factor once it had been formed. It appears that both complement-mediated and allergen-mediated release of histamine from basophils are secretory, non-cytolytic pathways since both were maximal at 37 degrees C, required the presence of divalent cations, and were inhibited by theophylline. One consistent difference between these two mechanisms was noted: complement-initiated release of histamine occurred more quickly.     

Release of arachidonic acid by stimulation of opsonic receptors in human monocytes: the FcgammaR and the complement receptor 3 pathways

The role of the opsonic receptors FcgammaR and CR3 on the release of arachidonic acid (AA) by human monocytes was studied using IgG-ovalbumin (OVA) equivalence immune complexes (IC), anti-OVA IgG bound to OVA-coupled latex beads, and C3bi-bound IC. Release of AA was produced by IC and latex-OVA beads bound to IgG, whereas binding of C3bi to IC inhibited the ability of IC to release AA. In contrast, coating of zymosan particles with C3bi enhanced AA release as compared with that produced by non-coated particles. Masking of C3bi on C3bi-bound IC by incubation with anti-C3 IgG resulted in the recovery of their ability to release AA, thereby suggesting that binding of C3b by IC reduces their flogogenic effects, whereas opsonization of microbial walls by complement may enhance their proinflammatory potential. The binding/uptake of opsonized zymosan particles was inhibited by anti-CR3 Ab and C3bi-bound IC, but not by beta-glucan, mannan, and anti-Toll-like receptor 2 Ab. These findings show that cooperative engagement of CR3 on both the lectin-like site involved in beta-glucan binding and the I-domain involved in C3bi binding, as it can be observed in the innate immune response, produces AA release, whereas the unique interaction of C3bi-bound IC with the I-domain of CR3, as it may occur in the adaptive immune response, diverts the IC lattice from a productive interaction with FcgammaR linked to AA release.     

Studies of surface immunoglobulins on human B lymphocytes. I. Dissociation of cell-bound immunoglobulins with acid pH or at 37 degrees C.

Lymphocyte preparations isolated from the human peripheral blood were exposed to different acid pH or incubated at 37 degrees C and the presence of immunoglobulin (Ig) on the cell surface was examined by immunofluorescence (IF) tests. Subsequently, such treated cells were incubated in the autologous serum or in the purified IgG, IgA or IgM proteins and their ability to bind each class of Ig was examined. The results showed that IgG molecules dissociated from large proportions of IgG-positive cells upon exposure to pH 4 at 1 degrees C for 1 min or upon incubation at 37 degrees C for 20 min. The cells from which IgG had been dissociated could again combine with IgG, whereupon the number of positive cells increased, being restored to the number of equivalent to or higher than those before acid or 37 degrees C treatment. These results indicated that the treatment could elute the cell-bound IgG present on the cell and that the receptor sites were not degraded by the treatment and could combine with IgG. These cell-bound IgG were observed not only on the monocytes, but also on the small lymphocytes. It was also found that certain proportions of mononuclear cells carried the cell-bound IgA that could be dissociated with acid pH or 37 degrees C. No cell-bound IgM was observed on any mononuclear cells. Microscopic observations before and after acid or 37 degrees C treatment revealed that the staining distribution of the cell-bound IgG and IgA on the cell was granular, appearing as a discontinuous fluorescence ring and forming multiple aggregates but no typical polar caps on warming. In contrast, IgG, IgA, and IgM stable to acid or 37 degrees C treatment were found on the lymphocytes but not on the monocytes, and their staining distribution was uniformaly diffuse, appearing as a continuous ring and forming a typical cap on warming. Exposure of the cells to pH 4 or 37 degrees C could also elute the cell-bound IgG passively adsorbed to the human lymphoid cells in a culture, but did not affect the intrinsic S.Ig on the lymphoid cells in a culture or on the lymphoma cells. These results indicate that the exposure of the cells to acid pH or to 37 degrees C may enable us to detect unfailingly S.Ig lymphocytes by removing the cell-bound IgG and IgA present on the monocytes and/or lymphocytes. Thus, an average value of approximately 10% was obtained for the S.Ig lymphocyte in the lymphocyte preparations from 11 healthy individuals. In addition, the results provided the evidence that, even in normal peripheral blood lymphocytes, there may be a population of B lymphocytes which lack the S.Ig but carry the cell-bound Ig.     

Immobilized chicken antibodies improve the detection of serum antigens with surface plasmon resonance (SPR)

Surface plasmon resonance (SPR) and other refractive index and mass sensitive methods are, due to complement activation by mouse monoclonal antibodies and with concomitant high background signal, only rarely used for the detection of antibody–antigen interactions in the blood serum milieu. In the present study chicken IgY and mouse IgG were immobilized to a sensor chip CM5 dextran matrix and compared for their background signal and detection of serum antigen. Ellipsometry with antibodies adsorbed to methylated silicon surfaces was used as a complementary detection method. As expected, fundamental differences in binding properties between the two kinds of antibodies were observed. Mouse antibodies bound large quantities of human serum. Human C1q was detected on mouse IgG and the complement system was activated, as seen from the rapid C3 and properdin depositions. Chicken antibodies bound low quantities of human serum and no human C1q. Moreover, C3 and properdin deposited only after prolonged serum incubations. Addition of EDTA to serum reduced the background signal modestly for both IgG and IgY. Serum samples with different concentrations of human C3 were injected over surfaces with immobilized chicken anti-C3, and the response was measured by SPR. Small concentration differences (<1.25 μg/ml) in a physiologically relevant range (1–40 μg/ml after 100 times dilution) could then be detected reproducibly. The SPR signal was totally obscured when a mouse monoclonal anti-C3 antibody was used for the detection.     

Serine 132 is the C3 covalent attachment point on the CH1 domain of human IgG1.

The covalent binding of C3 (complement component C3) to antigen-antibody complexes (Ag.Ab; immune complexes (ICs)) is a key event in the uptake, transport, presentation, and elimination of Ag in the form of Ag.Ab.C3b (IC.C3b). Upon interaction of C3 with IgG.IC, C3b.C3b.IgG covalent complexes are formed that are detected on SDS-polyacrylamide gel electrophoresis by two bands corresponding to C3b.C3b (band A) and C3b.IgG (band B) covalent complexes. This allows one to evaluate the covalent binding of C3b to IgG antibodies. It has been described that C3b can attach to both the Fab (on the CH1 domain) and the Fc regions of IgG. Here the covalent interaction of C3b to the CH1 domain, a region previously described spanning residues 125-147, has been studied. This region of the CH1 domain is exposed to solvent and contains a cluster of six potential acceptor sites for ester bond formation with C3b (four Ser and two Thr). A set of 10 mutant Abs were generated with the putative acceptor residues substituted by Ala, and we studied their covalent interaction with C3b. Single (Ser-131, Ser-132, Ser-134, Thr-135, Ser-136, and Thr-139), double (positions 131-132), and multiple (positions 134-135-136, 131-132-134-135-136, and 131-132-134-135-136-139) mutants were produced. None of the mutants (single, double, or multiple) abolished completely the ability of IgG to bind C3b, indicating the presence of C3b binding regions other than in the CH1 domain. However, all mutant Abs, in which serine at position 132 was replaced by Ala, showed a significant decrease in the ability to form C3b.IgG covalent complexes, whereas the remaining mutants had normal activity. In addition we examined ICs using the F(ab')2 fragment of the mutant Abs, and only those containing Ala at position 132 (instead of Ser) failed to bind C3b. Thus Ser-132 is the binding site for C3b on the CH1 domain of the heavy chain, in the Fab region of human IgG.     

The effects of cobalt and iodine supplementation of the pregnant ewe diet on immunoglobulin G, vitamin E, T3 and T4 levels in the progeny

Sixty twin-bearing ewes were allocated to one of four dietary treatments investigating the effects of supplementary iodine or cobalt during late pregnancy on lamb serum immunoglobulin G (IgG), triiodothyronine (T3), thyroxine (T4) and vitamin E concentrations, and lamb IgG absorption efficiency. Ewes were offered grass silage ad libitum supplemented with 800 g per ewe per day of a 190 g/kg crude protein (CP) concentrate from day 126 of gestation until parturition plus one of the following supplements (n = 15 per treatment); no supplement (C); 26.6 mg iodine per day for final 3 weeks pre partum (I-3); 26.6 mg iodine/day for final week pre partum (I-1); 20 mg cobalt/day for final 3 weeks pre partum (Co-3). Lambs were blood sampled at 24 and 72 h post partum for serum IgG and vitamin E concentrations. Ten lambs from C and I-3 were blood sampled at 1 h post partum for serum IgG, vitamin E, T3 and T4 concentrations. There were no differences in serum IgG, vitamin E or T4 values (P > 0.05) at 1 h post partum between lambs born to the C and I-3 ewes. T3 levels were lower in I-3 compared with C progeny (P < 0.05). Supplemental iodine reduced colostral IgG absorption efficiency (P < 0.001) and lamb serum IgG concentrations at 24 and 72 h post partum (P < 0.001). Serum vitamin E concentration in I-3 and I-1 lambs was lower than in Co-3 lambs at 24 h post partum, while at 72 h post partum I-3, I-1 and Co-3 lambs had significantly lower concentrations than C lambs (P < 0.001). Supplementing the ewe's diet with 26.6 mg/day of iodine for the final week of pregnancy reduced lamb serum IgG concentration at 24 and 72 h post partum. The lower total and free T3 values in the progeny of I-3-treated ewes suggest interference in the synthesis and metabolism of thyroid hormones when ewes receive excessive dietary iodine for 3 weeks immediately pre partum. Based on these findings, the indications are that the toxicity level for iodine in the diet of the pregnant ewe should be lowered to 20 mg per ewe per day, equivalent to 40% of its current level. The finding that high-level cobalt supplementation during the final 3 weeks of pregnancy will have a negative effect on serum vitamin E concentration at 72 h post partum is a new and significant finding and previously has not been reported in the literature.     

Identification of C3b as the major serum protein that stimulates prostaglandin and thromboxane synthesis by macrophages

We have previously reported that heterologous, homologous and autologous sera, all stimulated rabbit alveolar macrophages to synthesize prostaglandins (PG). Gel permeation chromatography of serum showed multiple fractions possessing this stimulatory activity, with the major one at 150-160K daltons. In the present study, we have shown that: (a) Fresh rabbit serum stimulated PG release by macrophages. (b) Serum depleted of C3 and C5 lost its stimulatory activity. (c) Trypsinized serum, sera activated by aggregated IgG and zymosan, partially purified C3, C5 and the C3, C5 preparation or purified C3 activated by zymosan, all stimulated PG release by macrophages with the following order of potency: activated C3, C5 = activated C3 = zymosan-activated serum greater than trypsinized serum = aggregated IgG-activated serum greater than partially purified C3, C5 = serum. PGE2 was the predominant PG synthesized by stimulated macrophages. However, thromboxane (TX) production seemed to be more selectively enhanced i.e., increase in TX production was more pronounced than the increase in PGE release. To further identify the active complement component, we blocked the C3b receptor (C3 b R) by preincubating macrophages with anti-C3bR, and showed that subsequent treatment with activated C3 and C5 failed to elicit any PG release. This pretreatment with anti-C3bR had no inhibitory effect on subsequent zymosan stimulation of PG release. Thus we concluded that C3b was the major serum protein that stimulates PG synthesis by macrophages.     

The role of immunoglobulins in alternative complement pathway activation by zymosan. I. Human IgG with specificity for Zymosan enhances alternative pathway activation by zymosan

Prior absorption of normal human serum (NHS) or C2-deficient human serum (C2D) with zymosan at 0 degrees C results in diminished consumption of C3 and factor B during subsequent incubation of the sera in Mg-EGTA buffer with zymosan at 37 degrees C for 30 min. An acid eluate from the zymosan restores the defect of absorbed NHS and C2D, and also enhances C3 and factor B utilization in hypogammaglobulinemic serum (H gamma S) in a dose-dependent fashion. The activity is specific in that the eluate from zymosan fails to enhance C3 and B depletion in H gamma S or absorbed NHS by lipopolysaccharide or Sepharose. The active component of th zymosan eluate emerges from both Sepharose 4B and Sephacryl S-200 in the region of molecules with m.w. of 150,000. Absorption with protein A-Sepharose removes the activity, demonstrating that it is IgG. Digestion of the IgG with pepsin fails to diminish activity, indicating that the Fc region is not required for activity; reduction to monovalent Fab' fragments, however, abrogates activity. When IgG antibody is bound to Protein A-Sepharose, it fails to enhance C3 depletion in H gamma S by Sepharose, indicating that binding of IgG antibody by the Fab region is necessary for enhancement of alternative pathway activity in human serum.     

Radiofrequency radiation and the immune system. Part 3. In vitro effects on human immunoglobin and on murine T- and B-lymphocytes

Radiofrequency radiation (RFR) altered the physical separation of immunoglobulin (Ig) and of T- and B-lymphocytes during liquid gel chromatography. Exposure of human serum to a 10 MHz electric field (8500 V/m, less than or equal to 0.134 W kg-1) during chromatography resulted in accelerated elution of the IgM, IgA and IgG fractions. This effect is consistent with an increase in steric resistance of Ig molecules to the gel pores resulting in rapid elution. The low level of absorbed power employed did not lead to measurable heating of the gel media (25.00 +/- 0.05 degrees C). Effects on lymphocyte separation were investigated by performing immunoaffinity cell chromatography during exposure to 2500 MHz RFR (194 V/m, less than or equal to 0.117 W kg-1). Murine spleen lymphocytes were fractionated at 4.0 degrees C over Ig-derivatized agarose beads into Ig- and Ig+ lymphocyte subpopulations. RFR exposures resulted in premature elution of 19 per cent of the Ig+ (B-cell) population indicating an alteration of Ig binding. Temperature excursions in excess of +/- 0.05 degree C were not observed during exposures. These in vitro results demonstrate that Ig, whether freely diffusing in solution or bound to the lymphocyte cell surface, is influenced by RFR at absorbed power levels below the current recommended safety limit of 0.4 W kg-1 (U.S.A.). A possible mode of interaction for these effects as well as the relevance of these findings to in vivo biological processes are discussed.     

Complement-induced histamine release from human basophils. I. Generation of activity in human serum.

The incubation of zymosan, endotoxin, or immune aggregates with normal human serum activates a factor which induces release of histamine from autologous basophils. The reaction can be divided into two steps: in the first, complement must be activated and in the second, the histamine-releasing factor interacts with basophils. The generation of histamine-releasing activity in serum occurs at 17 to 37 degrees C but not at 0 degrees C, is inhibited by heating the serum at 56 degrees C for 30 min, or by the addition of EDTA to the serum. Once generated, the histamine-liberating activity is stable to heating at 56 degrees C for 30 min. Gel filtration of the activated serum demonstrated that this factor eluted in the same region as a factor with chemotactic activity. Both factors have a molecular weight of about 16,000 daltons and their activities were inhibited by antibody to human C5. This is therefore a pathway for histamine release by C5a where the activation of the basophil is unrelated to the membrane bound IgE.     

Independent effects of IgG and complement upon human polymorphonuclear leukocyte function.

Particle ingestion by polymorphonuclear leukocytes (PMN) is promoted by cell surface recognition and binding of fragments of the third component of complement (C3) and Fc regions of certain immunoglobulin (IgG) molecules. In order to determine the influence of these specific ligandsurface membrane interactions upon other PMN functions, we have employed nonphagocytosable particles (serum-treated Sepharose beads) coated with fragments of C3 and/or IgG, and have investigated whether these provide a sufficient stimulus for the metabolic changes and degranulation that ordinarly accompany phagocytosis by PMN. Sepharose 4B activates complement in fresh normal serum and consequently is coated with fragments of C3 (confirmed by immunoelectrophoretic evidence of factor B and C3 conversion and by immunofluorescence). Adsorbed IgG could be removed from serum-treated Sepharose by boiling in 2 M NaCl without significantly influencing bound complement. We have found that normal human PMN recognize and adhere to Sepharose beads coated with fragments of C3 and consequently are stimulated to increase their oxidative metabolism (measured as superoxide anion generation). This PMN response occurred in the absence of IgG but could be amplified if this immunoglobulin was also present on the bead surfaces.Both adherence and metabolic stimulation could be blocked by treatment of the beads with F(ab)2 anti-C3. In contrast to metabolic stimulation, degranulation (selective extracellular release of lysosomal constituents) was observed only when PMN encountered both C3 fragments and IgG on the beads. This response could be blocked by treating beads with either F(ab)2 anti-C3 or F(ab)2 anti-IgG. These results indicate that cell surface stimulation of PMN is not an "all or none" phenomenon and that certain vital functions of these cells may be mediated or modulated independently by immunoglobulins and complement.     

Identification of C3b as the major serum protein that stimulates prostaglandin and thromboxane synthesis by macrophages

We have previously reported that heterologous, homologous and autologous sera, all stimulated rabbit alveolar macrophages to synthesize prostaglandins (PG). Gel permeation chromatography of serum showed multiple fractions possessing this stimulatory activity, with the major one at 150–160 K daltons. In the present study, we have shown that: (a) Fresh rabbit serum stimulated PG release by macrophages. (b) Serum depleted of C3 and C5 lost its stimulatory activity. (c) Trypsinized serum, sera activated by aggregated IgG and zymosan, partially purified C3, C5 and the C3, C5 preparation or purified C3 activated by zymosan, all stimulated PG release by macrophages with the following order of potency: activated C3, C5 = activated C3 = zymosan-activated serum > trypsinized serum = aggregated IgG-activated serum > partially purified C3, C5 = serum. PGE₂ was the predominant PG synthesized by stimulated macrophages. However, thromboxane (TX) production seemed to be more selectively enhanced i.e., increase in TX production was more pronounced than the increase in PGE release. To further identify the active complement component, we blocked the C3b receptor (C3bR) by preincubating macrophages with anti-C3bR, and showed that subsequent treatment with activated C3 and C5 failed to elicit any PG release. This pretreatment with anti-C3bR had no inhibitory effect on subsequent zymosan stimulation of PG release. Thus we concluded that C3b was the major serum protein that stimulates PG synthesis by macrophages.     

Altered surface distribution of both C3b receptors and Fc receptors on neutrophils induced by anti-C3b receptor or aggregated IgG

Human neutrophils to which monospecific Fab' or F(ab')2 anti-C3b receptor had been bound at 0 degrees C were incubated for timed intervals at temperatures ranging from 0 degrees C to 37 degrees C, after which the cells were labeled with TRITC -conjugated second antibody. Neutrophils bearing Fab' anti-C3b receptor and incubated for up to 30 min at 37 degrees C, and cells bearing F(ab')2 anti-C3b receptor and incubated at 0 degrees C, exhibited diffusely distributed punctate clusters of receptors. Neutrophils bearing the bivalent anti-receptor and incubated at 30 degrees C or 37 degrees C for 5 min had redistributed C3b receptors into caps and patches that were associated with subplasmalemmal accumulations of myosin. The redistribution of cross-linked C3b receptors was inhibited by pretreatment of the neutrophils with either cytochalasin D or chlorpromazine. On approximately one-half of the cells demonstrating capped C3b receptors there was a corresponding redistribution of Fc receptors, as demonstrated by subsequent binding of FITC-aggregated IgG (FITC agg-IgG). In contrast, capping of C3b receptors did not alter the diffuse distribution of HLA-A on these cells. Cross-linking of Fc receptors on neutrophils by FITC agg-IgG also induced temperature-dependent capping of these receptors that was inhibited by cytochalasin D and chlorpromazine. In approximately one-half of the cells demonstrating capped Fc receptors, subsequent labeling of C3b receptors revealed a similar redistribution of these receptors. Thus, the neutrophil responds to cross-linking of either C3b receptors or Fc receptors by a cytoskeletal-dependent rearrangement of both receptors that causes their overlapping topographic distribution, demonstrating a form of cooperative interaction between these two types of receptors that are involved in the phagocytic reactions of these cells.     

Potentiation of NK cytotoxicity by antibody-C3b/iC3b heteroconjugates

The interaction of two Burkitt lymphoma lines, Raji and Rael, with human C and NK cells was analyzed. Raji cells activate the alternative C pathway (ACP) and then bind C3 fragments. Consequently, the cells become more sensitive to lysis by CR3-bearing NK cells but not to C lysis. In contrast, Rael cells are poor ACP activators, do not bind C3 fragments, and are therefore resistant to C-dependent NK lysis. As suggested earlier, the difference between Raji and Rael could be attributed to the presence or absence of CR2, respectively, on their surface. To potentiate C- and NK-dependent lysis of target cells, we generated heteroconjugates composed of a murine antitransferrin receptor mAb and of human C C3b or iC3b. Antibody-C3b conjugates induced C3 deposition on Rael cells and elevated C3 deposition on Raji cells in human serum. Both Raji and Rael cells coated with antibody-C3b conjugates were efficiently lyzed by the cytolytic ACP in human serum. This conjugate had a small enhancing effect on target cell lysis by NK cells which could be markedly increased by combined treatment of the target cell with antibody-C3b conjugate and C5-depleted human serum. On the other hand, antibody-iC3b conjugates efficiently potentiated lysis of target cells by NK cells in the absence of serum. The iC3b-directed cytotoxicity was mediated by CR3-bearing NK effector cells. Anti-C3 but not anti-mouse Ig antibodies abrogated the activity of the antibody-iC3b conjugate. These results further demonstrate that NK cytotoxicity may be potentiated by opsonizing the target cells with C3 fragments and suggest that antibody-C3b/iC3b conjugates could be potent tools for targeting and potentiation of the lytic action of both C and NK cells against tumor cells.     

Identification and characterization of a novel protein inhibitor of type 1 protein phosphatase

We have isolated human cDNA for a novel type 1 protein phosphatase (PP1) inhibitory protein, named inhibitor-4 (I-4), from a cDNA library of germ cell tumors. I-4, composed of 202 amino acids, is 44% identical to a PP1 inhibitor, inhibitor-2 (I-2). I-4 conserves functionally important structure of I-2 and exhibited similar biochemical properties. I-4 inhibited activity of the catalytic subunit of PP1 (PP1C), specifically with an IC(50) of 0.2 nM, more potently than I-2 with an IC(50) of 2 nM. I-4 weakly inhibited the activity of myosin-associated phosphates (PP1M). However, the level of inhibition of PP1M was increased during preincubation of PP1M with I-4, suggesting that the inhibition is caused by interaction of I-4 with PP1C in such a manner that it competes with the M subunit of PP1M. Gel overlay experiments showed that I-4 binds PP1C directly. Three I-4 peptides containing the N-terminal residues 1-123, 1-131, and 1-142 all showed strong binding ability to PP1C but did not show PP1 inhibitory activity, whereas an I-2 peptide (residues 1-134), lacking the corresponding C-terminal residues, potently inhibited PP1C activity as previously reported. Removal of the 18 N-terminal amino acid residues from I-4 dramatically reduced the PP1 binding activity with a correlated loss of inhibitory activity, whereas removal of the 10 N-terminal residues had only a little effect. The two peptides GST-I-4(19-131) and GST-I-4(132-202) showed ability to bind to PP1C, albeit very weakly. These results strongly suggest a multiple-point interaction between I-4 and PP1C, which is thought to cause the inhibition of I-4 which is stronger than the inhibition of I-2.