Cross-linking CD21/CD35 or CD19 increases both B7-1 and B7-2 expression on murine splenic B cells

Activation of the complement cascade and ligation of complement C3 receptors on B cells represent an important bridge between innate and Ag-specific acquired immunity. We show here that cross-linking of mouse CD21 (complement receptor type 2, CR2, C3d receptor) and CD35 (complement receptor type 1, CR1, C3b/C4b receptor) or co-cross-linking of CD21/CD35 and surface IgM rapidly up-regulates both B7-1 and B7-2 expression on murine resting splenic B cells. CD21/CD35-mediated up-regulation of both B7-1 and B7-2 expression is observed within 14 h, while other stimuli up-regulate only B7-2 but not B7-1 at this early time point. Consistent with the increase in B7 levels, BALB/c B cells on which surface IgM and CD21/CD35 have been co-cross-linked stimulate C57BL/6 T cells more effectively than controls. This CD21/CD35-enhanced allogeneic MLR is blocked nearly completely by anti-B7-2 mAbs and partially by anti-B7-1 mAbs. In addition, cross-linking of CD19, which is physically associated with CD21/CD35, leads to increased B7-1 and B7-2 expression. These data suggest that CD21/CD35 ligation results in enhanced B cell Ag presentation using costimulatory mechanisms shared with other activators and thus works cooperatively in this process. Rapid up-regulation of B7-1 expression, a unique response to CD21/CD35 and CD19 cross-linking, may be a particularly important effect of C3-containing ligands. We propose that CD21/CD35- and CD19-mediated B7-1 and B7-2 up-regulation is an important mechanism by which complement activation links innate and acquired immunity.     

Complement opsonization is required for presentation of immune complexes by resting peripheral blood B cells

Complement receptor 2 (CD21, CR2) is a B cell receptor for complement degradation products bound to Ag or immune complexes. The role of CD21 in mediating Ag presentation of soluble immune complexes by resting B cells was studied. Complement-coated immune complexes were formed by the incubation of influenza virus with serum from immune donors. These complexes bound to peripheral blood B cells in a complement-dependent manner. The binding required CD21 or, to a lesser extent, complement receptor 1 (CR1, CD35). B cells pulsed with immune complexes containing complement elicited a response from a panel of influenza-specific T cell clones, while those pulsed with immune complexes formed in the absence of complement did not. The expression of the early activation marker CD69 and the costimulatory molecule CD86 were not induced by CD21 ligation alone, suggesting that CD21-mediated Ag presentation occurs independently of B cell activation. Up-regulation of these markers required exposure to T cell factors elicited by the recognition of Ag derived from complement-containing immune complexes. These findings suggest that binding of Ag to CD21 enables Ag-nonspecific B cells to participate in the activation of Ag-specific T cells in a process that occurs independently of well-characterized B cell activation events.     

Immunoglobulin deficient mice generated by gene targeting as models for studying the immune response

B cell deficient animals obtained by various strategies of gene targeting were used to study the B cell development and examine the role of different immune compartments in the immune response to microbes. Study of muMT, JHD, lambda 5T and JHT models of B cell deficiency, was essential in order to understand the role of pre-B cell receptor in B cell development, allelic exclusion and variable gene rearrangement regulation. In the immune response to influenza virus, a protective role of T cells in a total absence of B cell compartment, was revealed by studying the JHD -/- model. Further, it was established that a T cell compartment is sufficient to mediate the recovery from influenza infection. Examination of immune response in muMT and JHD models of definitive B cell deficiency to various blood stage Plasmodia species, showed that whereas B cells are not required for recovery from infection with P. chabaudi adami, P. vinckei petteri and P. chabaudi chabaudi (CB), B cell compartment is important in the later stages of infection with P. chabaudi chabaudi (AS). Studies carried out in muMT model suggested a possible role for T gamma delta subpopulation in the immune response to blood stage malaria parasite. B cell deficiency models are valuable for understanding the normal and pathological immune response. Studies carried out in muMT model indicated that T cell responses are not significantly affected in the absence of B cells. These data can neither rule out a role for B cells in T cell priming, nor in triggering an effective T cell help for humoral response. Study of double homozygous mice deficient for B cells and FAS or IL-2 gene, pinpointed the role of B cells in pathogenesis of lupus-like nephritis and vasculitis from lpr mouse and in hemolytic anemia from IL-2 -/- mouse model, respectively.     

B cells directly tolerize CD8(+) T cells

This report investigates the response of CD8(+) T cells to antigens presented by B cells. When C57BL/6 mice were injected with syngeneic B cells coated with the Kb-restricted ovalbumin (OVA) determinant OVA257-264, OVA-specific cytotoxic T lymphocyte (CTL) tolerance was observed. To investigate the mechanism of tolerance induction, in vitro-activated CD8(+) T cells from the Kb-restricted, OVA-specific T cell receptor transgenic line OT-I (OT-I cells) were cultured for 15 h with antigen-bearing B cells, and their survival was determined. Antigen recognition led to the killing of the B cells and, surprisingly, to the death of a large proportion of the OT-I CTLs. T cell death involved Fas (CD95), since OT-I cells deficient in CD95 molecules showed preferential survival after recognition of antigen on B cells. To investigate the tolerance mechanism in vivo, naive OT-I T cells were adoptively transferred into normal mice, and these mice were coinjected with antigen-bearing B cells. In this case, OT-I cells proliferated transiently and were then lost from the secondary lymphoid compartment. These data provide the first demonstration that B cells can directly tolerize CD8(+) T cells, and suggest that this occurs via CD95-mediated, activation-induced deletion.     

Renal microvascular injury induced by antibody to glomerular endothelial cells is mediated by C5b-9

We have recently developed a model of thrombotic microangiopathy with injury to the glomerular endothelial cell (GEN) induced by heterologous antibody to rat GEN. In addition to GEN injury rats developed glomerular platelet aggregation and fibrin deposition, acute renal failure, and acute tubular necrosis with interstitial inflammation. To study the role of complement in mediating this lesion, we induced the disease in normal complement PVG rats and measured the effects of generalized complement depletion with cobra venom factor (CVF) and of selective C6 deficiency using genetically C6 deficient PVG animals. Complement sufficient rats developed severe endothelial injury accompanied by platelet aggregation, fibrin deposition, decrease in endothelial cells assessed by antibody staining in the glomerulus, and macrophage infiltration. These changes were associated with marked reduction in renal function. These features were either absent or markedly diminished in complement depleted or C6 deficient rats. This demonstrates that C5b-9, the terminal product of activation of the complement cascade, plays an important role in the pathogenesis of this immune renal microvascular endothelial injury model. Thus, the complement system may play a pathogenic role in renal microvascular diseases such as thrombotic microangiopathy.     

Inherited deficiency of the second component of complement. Rheumatic disease associations

The prevalence of homozygous and heterozygous deficiency of the second component of complement (C2) was determined in patients with rheumatic disease including 137 with systemic lupus erythematosus (SLE), 274 with juvenile rheumatoid arthritis, and 134 with rheumatoid arthritis. 1 C2 homozygous deficient and 19 possible heterozygous deficient individuals were identified by using both immunochemical and functional assays to determine C2 levels. Of the 20, 8 had SLE (5.9%), 10 had juvenile rheumatoid arthritis (3.7%), and 2 had rheumatoid arthritis (1.4%), the homozygous deficient individual having SLE. The prevalence of C2 deficiency in the SLE and juvenile rheumatoid arthritis patients was significantly increased (P = 0.0009 and P = 0.02, respectively) when compared with controls, 6 (1.2%) of 509 blood donors having C2 levels consistent with heterozygous deficiency. 15 of the 20 C2 deficient patients were HLA typed and found to have antigens A10(Aw25), B18, or both. The patients with C2 deficiency and SLE had earlier age of onset of disease and less antinuclear antibody when compared with the C2 normal SLE patients. 11 families of the propositi were studied and found to have one or more C2 heterozygous deficient individuals. The family members had an equal distribution of rheumatic disease and antinuclear antibody in the C2 deficient and C2 normal groups. C2 deficient individuals were found to have significantly lower levels of properdin Factor B (242 mug/ml+/-54) when compared with the non-C2 deficient family members (282 mug/ml+/-73). These data support the concept that inherited deficiency of C2 is significantly associated with both SLE and juvenile rheumatoid arthritis.     

Rapid activation of the complement system by cuprophane depends on complement component C4

Hemodialysis with cuprophane dialyzer membranes promotes rapid activation of the complement system, which is thought to be mediated by the alternative pathway. Complete hereditary deficiency of complement C4, a classical pathway component, in two hemodialysis patients provided the opportunity to investigate a possible role of the classical pathway. In two hemodialysis patients with both C4 isotypes, C4A and C4B, and in one patient with C4B deficiency complement activation occurred immediately after the onset of hemodialysis, with peak levels of C3a and terminal complement complex (TCC) after ten to fifteen minutes. In patients with complete C4 deficiency, C3a and TCC remained unchanged for fifteen minutes and increased thereafter, reaching the highest level after thirty minutes. The leukocyte nadir was also delayed from fifteen to thirty minutes. In vitro incubation of normal, C4A- or C4B-deficient serum with cuprophane caused complement activation after fifteen minutes. In contrast, no activation was observed in sera of four C4-deficient patients. The addition of normal serum or purified human C4 restored the capacity for rapid complement activation. In one patient with severe immunoglobulin deficiency, C3a and TCC levels increased only moderately after 25 minutes of cuprophane dialysis. This patient's serum also exhibited delayed complement activation in vitro, which was normalized after pretreatment of cuprophane with immunoglobulins. Preincubation of normal serum with MgEGTA, a blocker of the classical pathway, inhibited rapid complement activation through cuprophane. As basal levels of C4a are markedly increased in hemodialysis patients (3450 +/- 850 ng/ml) compared to healthy controls (224 +/- 81 ng/ml), no further elevation of C4a was detectable during cuprophane hemodialysis. Incubation of normal serum with cuprophane, however, caused a slight increase in C4a after five minutes. These results indicate that the initial deposition of complement C3b on the cuprophane membrane, necessary for activation of the amplification loop of the alternative pathway, is mediated by the classical pathway C3-convertase C4b2a. We propose an extended concept of complement activation through cuprophane, which is based on four steps: (a) binding of anti-polysaccharide antibodies, (b) classical pathway activation, (c) alternative pathway activation and (d) terminal pathway activation.     

CD28-independent induction of T helper cells and immunoglobulin class switches requires costimulation by the heat-stable antigen

It is well established that B7-CD28/CTLA4 interactions play an important role in the induction of T helper cells for T-dependent antibody responses. However, targeted mutation of CD28 does not significantly affect production of IgG and activation of CD4 T helper cells in response to infections by some viruses and nematode parasites. To test whether the CD28-independent induction of Ig class switches requires costimulation by the heat-stable antigen (HSA), we compared T helper cell induction and antibody response in mice deficient for either HSA, CD28, or both genes. We found that after immunization with KLH-DNP, mice deficient for both CD28 and HSA lack DNP-specific IgA and all subtypes of IgG. This deficiency corresponds to a reduced number of effector helper T cells that rapidly produce IL-2, IL-4, and IFN-gamma after in vitro stimulation with carrier antigen KLH. In contrast, priming of T helper cells and Ig class switch are normal in mice deficient with either HSA or CD28 alone. IgM responses are not affected by any of these targeted mutations. These results demonstrate that CD28-independent induction of T helper cells and Ig class-switches requires costimulation by the HSA.     

The risk of disease progression is determined during the first year of human immunodeficiency virus type 1 infection

The contribution of CD4 and CD8 cells to crescentic glomerulonephritis (GN) was studied in mice genetically deficient in CD4, CD8, and with combined CD4 and CD8 (CD4/CD8) deficiency. Wild-type (C57BL/6) mice developed GN with mild proliferative changes 7 days after an intravenous dose of sheep anti-mouse glomerular basement membrane globulin. Crescents were observed in 12.5 +/- 6.1% of glomeruli on day 14. On day 21, 51.5 +/- 7.3% of glomeruli were affected by crescents, and mice had marked azotemia and proteinuria. CD4 and combined CD4/CD8-deficient mice developed minimal evidence of GN. On day 21, their glomeruli showed only mild proliferative changes and crescents, azotemia, and proteinuria were absent. In contrast, CD8-deficient mice developed severe crescentic GN with three of five mice dying on day 20 with ascites and edema. The two mice surviving to day 21 had severe azotemia. Crescent development was accelerated (day 14, 51.6 +/- 2.4% of glomeruli; day 20 or 21, 62.0 +/- 4.0% of glomeruli). These studies demonstrate that CD4 cells are crucial for the development of crescentic GN in mice and that genetic absence of CD8 cells accelerates disease. They support the hypothesis that crescent formation is a manifestation of CD4-dependent (and CD8-independent) delayed type hypersensitivity in the glomerulus.     

Poloxamer 188 enhances functional recovery of lethally heat-shocked fibroblasts

Rheumatoid factors (RF) are autoantibodies with specificity for the constant regions of IgG molecules. They are found in several immunopathological diseases. The mechanism(s) by which these autoantibodies are produced is largely unknown. We have previously shown that a single injection of RF-like immune complexes (ICs) into mice selectively induced an intense IgG1-antibody production with RF activity. This response was sustained for several months and did not resemble a conventional immune response to an antigen or other immune complexes. In the present study, we sought to elucidate the mechanism for the IgG1 RF response to RF-like ICs. Therefore, the roles of CD4+ T cells, complement and Fc gamma receptors were analysed. In order to characterize the role of CD4+ T cells, RF-like induced IgG1-RF production was analysed in NZB mice treated with a monoclonal antibody (mAb) against the CD4 molecule, which resulted in complete abrogation of IgG1 RF production. To evaluate the importance of Fc gamma Rs, the effect of RF-like ICs was tested in mice deficient for RF gamma RI/III. A significant decrease in the numbers of IgG1 antibody secreting cells, as well as in serum IgG1 RF levels, was found in the deficient mice, as compared with their normal outbred littermates. The role of complement in RF-like ICs mediated IgG1 RF was tested in complement depleted NZB mice, using Cobra venom factor. The IgG1 RF response in complement depleted and intact mice was comparable. Thus, our results demonstrate that RF-like immune complexes selectively induce an Fc gamma R-dependent, complement independent antibody response in mice.     

High variability of CYP21 gene rearrangements in Spanish patients with classic form of congenital adrenal hyperplasia

Mutations that cause deficiency of the 21-hydroxylase (21-OH) appear as a result of recombinations between the CYP21B coding gene and the highly homologous CYP21A pseudogene, which are tandemly arranged with the C4A and C4B genes. We report a detailed analysis of a major chromosomic rearrangement by Southern blot using 21-OH and complement C4 cDNA probes, in a wide sample of classic Spanish congenital adrenal hyperplasia (CAH) patients. This study made it possible to observe that 50% of the patients carried at least one allele with gross abnormalities and that the frequencies of alleles with large deletions (16.66%) and gene conversions (14.16%) in the CYP21B gene were very similar. Moreover, our analysis revealed the existence of sixteen different restriction patterns of C4/CYP21 genes. Besides the detection of a new haplotype, which does not seem to appear from unequal crossing-over mechanisms, we observed the highest frequency on CYP21A duplications reported, as well as no duplications of the CYP21B gene. We also observed that although gross abnormalities of the CYP21A pseudogene did not affect 21-OH activity, alleles carrying deleterious point mutations had more rearrangements of the CYP21A gene than normal alleles. Even though the 21-OH deficiency is an autosomic trait, boys in our sample carried 2.6 times more deletions than girls. In contrast, conversion alleles were found equally frequently.     

Collaboration of antibody and inflammation in clearance of rabies virus from the central nervous system

To investigate the involvement of various cellular and humoral aspects of immunity in the clearance of rabies virus from the central nervous system, (CNS), we studied the development of clinical signs and virus clearance from the CNS in knockout mice lacking either B and T cells, CD8+ cytotoxic T cells, B cells, alpha/beta interferon (IFN-alpha/beta) receptors, IFN-gamma receptors, or complement components C3 and C4. Following intranasal infection with the attenuated rabies virus CVS-F3, normal adult mice of different genetic backgrounds developed a transient disease characterized by loss of body weight and appetite depression which peaked at 13 days postinfection (p.i.). While these animals had completely recovered by day 21 p.i., mice lacking either B and T cells or B cells alone developed a progressive disease and succumbed to infection. Mice lacking either CD8+ T cells, IFN receptors, or complement components C3 and C4 showed no significant differences in the development of clinical signs by comparison with intact counterparts having the same genetic background. However, while infectious virus and viral RNA could be detected in normal control mice only until day 8 p.i., in all of the gene knockout mice studied except those lacking C3 and C4, virus infection persisted through day 21 p.i. Analysis of rabies virus-specific antibody production together with histological assessment of brain inflammation in infected animals revealed that clearance of CVS-F3 by 21 days p.i. correlated with both a strong inflammatory response in the CNS early in the infection (day 8 p.i.), and the rapid (day 10 p.i.) production of significant levels of virus-neutralizing antibody (VNA). These studies confirm that rabies VNA is an absolute requirement for clearance of an established rabies virus infection. However, for the latter to occur in a timely fashion, collaboration between VNA and inflammatory mechanisms is necessary.     

CD95 mediated T cell apoptosis and its relevance to immune deviation

The CD95/CD95L pair plays a manifold role in regulating life and death in the function of the immune system. Examples include CD95/CD95L acting as cytotoxic CD8+ T cell effector molecules, or functioning on CD4+ T helper cells to maintain peripheral tolerance or reestablishing homeostasis. Current understanding of the CD95 signaling pathway reveals several potential regulatory targets, acting both receptor proximally and distally, that can terminate or amplify the receptor's signal. The important and possibly non-redundant role of CD95 is highlighted both in how deficiencies in functional CD95 or its ligand manifest themselves in autoimmune syndromes, and how uncontrolled cell death results in insufficient, or inappropriate immune responses against immune challenge. This review examines CD95-mediated signal transduction, and the effect preferential apoptosis of T helper cell subsets has on immune system biasing.     

Expression of sodium-dependent purine nucleoside carrier (SPNT) mRNA correlates with nucleoside transport activity in rat liver

Co-ligation of antigen receptor and complement receptor 2 (CD21) in the B cell membrane is important in the immune response to T-dependent antigens. Four CD21 ligands have so far been identified, but only the activated products of the third component of complement (C3) are known to augment the immune response to specific antigens. The most recently discovered ligand for CD21 is CD23. We have generated a CD32+ CD23+ fibroblast cell line which presents a surrogate antigen (anti-IgM) to human tonsil B cells in vitro. Incubation with these cells causes a 10- to 100-fold reduction in the threshold concentration of anti-IgM required for B cell proliferation. Anti-CD19 further enhances the response to antigen and induces proliferation in the absence of anti-IgM. Addition of soluble CD21 totally inhibits the effect of CD23, suggesting that CD21 mediates synergistic signaling by CD23.     

C4 phenotypes in IgA nephropathy: disease progression associated with C4A deficiency but not with C4 isotype concentrations

IgA nephropathy (IgAN) is a common glomerular disease and is thought to have an immunological origin which may involve complement-mediated pathogenic mechanisms. We performed C4 phenotyping and C4 isotype quantification in 93 IgAN patients in Southern Sweden. Phenotype frequencies did not deviate from those of healthy controls. However, three patients had homozygous C4A deficiency and these all belonged to a group of fifteen patients with end-stage renal failure (p < 0.0035). Progression to end-stage renal failure did not appear to be faster than in other IgAN patients. Both C4A and C4B concentrations were raised in the IgAN patients, but the C4A/C4B concentration ratios did not deviate from those of healthy controls. This indicated that heterozygosity for C4A or C4B deficiency or other reasons for the relatively low concentrations of the protein were not associated with disease susceptibility. There was no correlation between low C4A/C4B ratio and poor prognosis. In conclusion, the findings suggested that homozygous C4A deficiency predisposes to development of end-stage renal failure. The question if this is due to complement dysfunction or to linked genetic factors remains to be elucidated.     

Enhanced generation of O2- by human neutrophils via a complement iC3b/Mac-1 interaction

There is evidence for a tumor necrosis factor alpha (TNF alpha)-initiated and CD11b/CD18-dependent burst of superoxide anion (O2-) and hydrogen peroxide production by human polymorphonuclear leukocytes which are adherent to surfaces bearing a variety of proteins. In the current studies neutrophils were stimulated with opsonized (by fresh human serum) zymosan particles in the presence of cytochalasin B, to prevent internalization of particles and to simulate the interaction of neutrophils with protein-bearing surfaces. Under these conditions, the cells demonstrated 2.9-fold greater production of O2- when compared to nonopsonized zymosan particles. Heat inactivation or cobra venom factor treatment of human serum prior to opsonization resulted in 98% and 66% reductions, respectively, in O2- responses. C3 and factor B were required for this response, since sera deficient in either component caused 56 and 68% reductions, respectively, in O2- production. Sera deficient in Clq, C2, C4, C5, C6, C7 or C9 showed no defect in their ability to enhance O2- responses to zymosan particles. Monoclonal antibody to iC3b, but not monoclonal antibodies to C3c or C3d, caused a 29% reduction (p < 0.01) in O2- generation. Antibodies to CD18 (R15.7) or CD11b (CL44 and 60.1) reduced the incremental production of O2- by 76, 71 and 77%, respectively. Two antibodies directed against CD11a as well as the isotype-matched control (MOPC 21) were without effects. These data suggest that, in this model of neutrophil activation, the pathway for O2- generation is a Mac-1 (but not LFA-1)-dependent pathway and also requires iC3b. These findings may be relevant to complement-mediated, neutrophil-dependent vascular injury in vivo.     

Genetics of complement: recent aspects (author's transl)

Genetic deficiencies of complement proteins are now more often recognized and analysed more precisely because the structure of the different complement proteins is better known. Partial defects may be detected in some components by the combined utilization of titration techniques, polymorphism studies and linkage analyses. The partial deficiency in C4 seems to be the most frequent protein deficiency in the human. The complement markers on the short arm of the sixth chromosome in man (BF, C2, C4A and C4B) are located in close proximity to the HLA-D/DR region. The combined study of the complement and HLA markers will probably allow the fine structure of the HLA region to be better defined. The association of some diseases with HLA types will probably also be better specified by the definition of associations not only with HLA-B or HLA-D types but also with the BF, C2 and C4 types.     

X-ray crystal structure of C3d: a C3 fragment and ligand for complement receptor 2

Activation and covalent attachment of complement component C3 to pathogens is the key step in complement-mediated host defense. Additionally, the antigen-bound C3d fragment interacts with complement receptor 2 (CR2; also known as CD21) on B cells and thereby contributes to the initiation of an acquired humoral response. The x-ray crystal structure of human C3d solved at 2.0 angstroms resolution reveals an alpha-alpha barrel with the residues responsible for thioester formation and covalent attachment at one end and an acidic pocket at the other. The structure supports a model whereby the transition of native C3 to its functionally active state involves the disruption of a complementary domain interface and provides insight into the basis for the interaction between C3d and CR2.     

Association of TAP1 and TAP2 with systemic sclerosis in Japanese

Paroxysmal nocturnal haemoglobinuria (PNH) is an acquired clonal stem cell disorder resulting in insufficient and defective haematopoesis associated frequently with aplastic anaemia (AA). A deficiency of the glycosyl phosphatidylinositol (GPI)-anchored complement activation regulatory proteins CD55 and CD59 is responsible for an increased sensitivity of erythrocytes to complement attack leading to chronic intravascular haemolysis with haemoglobinuria. In this study we investigated the effects of complement activation caused by anti-thymocyte globulin (ATG) treatment on the PNH clone in a patient affected with the PNH/AA-syndrome. Fluid phase complement components C3, C4, C6 and terminal complement complex (TCC) were assayed by ELISA. CD55, CD59 and cell-associated TCC were monitored by flow cytometry. ATG treatment resulted in profound systemic complement activation which led to a decrease in the levels of native C3 and C4 to 65% and 40%, respectively, of the original levels on day 5 and of C6 and TCC to 61% and 23%, respectively, on day 10. A return to pre-treatment levels was observed for C3 by day 15, for C6 by day 30 and for C4 by day 90. Flow cytometry revealed that the deficiency in the GPI-anchored protein was restricted to granulocytes, while lymphocytes remained unaffected. Cell-bound TCC increased by 1.67-fold and 2.37-fold on day 5 and day 10, respectively, decreasing to 1.40-fold and 1.30-fold on day 15 and day 30, respectively. The percentage of PNH granulocytes as identified by the absence of the CD55- and CD59-antigens exhibited a temporary decrease from 72% on day 0 to 65% on day 5 and 59% on day 10 and returned thereafter to the original percentage of 70% by day 15 and exceeding this level to 76% on day 30 and 79% on day 90. We report profound activation of the classical pathway of the complement cascade and the terminal complement complex by the globulin leading to a transient decrease of the PNH clone, presumably due to subsequent lysis of the PNH cells devoid of complement regulatory proteins.     

Acute nephrotoxic serum nephritis in complement knockout mice: relative roles of the classical and alternate pathways in neutrophil recruitment and proteinuria

BACKGROUND: The importance of complement in the pathophysiology of renal disease is still being appreciated. To further address the role of this mediator system, we evaluated the influence of absolute deficiency of C3 and C4 on acute nephrotoxic serum nephritis (NSN). METHODS: Selective 'knockout' of C3 and C4 was routinely confirmed in null mice by ELISA. NSN was induced by intravenous injection of a sheep anti-rat nephrotoxic serum that cross-reacts with murine glomerular antigens. Deposition of heterologous immunoglobulin in wild-type glomeruli was associated with rapid complement deposition and neutrophil infiltration, and followed by the development of proteinuria. RESULTS: Neutrophil infiltration was markedly inhibited in C3-deficient mice indicating a role for complement in PMN recruitment. In contrast, C3 deficiency afforded only partial protection against proteinuria. NSN was studied further in C4 null mice to probe the relative roles of the classical and alternate pathway in disease pathophysiology. C3 and C4 deficiency were associated with equivalent inhibition of PMN recruitment and proteinuria. CONCLUSIONS: In aggregate, the data support a major role for complement in PMN recruitment in this model and point to complement-independent mechanisms of proteinuria in antibody-mediated glomerulonephritis. These 'knockout' mice should prove valuable for defining the complement-activated mediator systems that regulate leukocyte recruitment and tissue injury in renal diseases.