Alteration in immune complex glomerulonephritis by arachidonic acid

We employed a model of immune complex glomerulonephritis produced in mice by the daily injection of apoferritin to study the effect of treatment with arachidonic acid (AA). Apoferritin injections produced demonstrable glomerular damage by light microscopy associated with deposition of immunoglobulin along peripheral capillary loops. Treatment with AA 100μg daily resulted in significantly less glomerular damage and a shift in the location of immune complex deposition to the mesanguim. The amount of anti-apoferritin antibody was determined by hemagglutination and found to be significantly decreased in mice treated with AA. Separate studies employing this dose of AA revealed that the number of IgM antibody producing cells to SRBC was not altered by AA.     

Nephrotic syndrome and subepithelial deposits in a mouse model of immune-mediated anti-podocyte glomerulonephritis

Subepithelial immune complex deposition in glomerular disease causes local inflammation and proteinuria by podocyte disruption. A rat model of membranous nephropathy, the passive Heymann nephritis, suggests that Abs against specific podocyte Ags cause subepithelial deposit formation and podocyte foot process disruption. In this study, we present a mouse model in which a polyclonal sheep anti-mouse podocyte Ab caused subepithelial immune complex formation. Mice developed a nephrotic syndrome with severe edema, proteinuria, hypoalbuminemia, and elevated cholesterol and triglycerides. Development of proteinuria was biphasic: an initial protein loss was followed by a second massive increase of protein loss beginning at approximately day 10. By histology, podocytes were swollen. Electron microscopy revealed 60-80% podocyte foot process effacement and subepithelial deposits, but no disruption of the glomerular basement membrane. Nephrin and synaptopodin staining was severely disrupted, and podocyte number was reduced in anti-podocyte serum-treated mice, indicating severe podocyte damage. Immunohistochemistry detected the injected anti-podocyte Ab exclusively along the glomerular filtration barrier. Immunoelectron microscopy localized the Ab to podocyte foot processes and the glomerular basement membrane. Similarly, immunohistochemistry localized mouse IgG to the subepithelial space. The third complement component (C3) was detected in a linear staining pattern along the glomerular basement membrane and in the mesangial hinge region. However, C3-deficient mice were not protected from podocyte damage, indicating a complement-independent mechanism. Twenty proteins were identified as possible Ags to the sheep anti-podocyte serum by mass spectrometry. Together, these data establish a reproducible model of immune-mediated podocyte injury in mice with subepithelial immune complex formation.     

Complement alternative pathway activation in the autologous phase of nephrotoxic serum nephritis

The complement cascade is an important part of the innate immune system, but pathological activation of this system causes tissue injury in several autoimmune and inflammatory diseases, including immune complex glomerulonephritis. We examined whether mice with targeted deletion of the gene for factor B (fB(-/-) mice) and selective deficiency in the alternative pathway of complement are protected from injury in the nephrotoxic serum (NTS) nephritis model of antibody-mediated glomerulonephritis. When the acute affects of the anti-glomerular basement membrane antibody were assessed, fB(-/-) mice developed a degree of injury similar to wild-type controls. If the mice were presensitized with sheep IgG or if the mice were followed for 5 mo postinjection, however, the fB(-/-) mice developed milder injury than wild-type mice. The immune response of fB(-/-) mice exposed to sheep IgG was similar to that of wild-type mice, but the fB(-/-) mice had less glomerular C3 deposition and lower levels of albuminuria. These results demonstrate that fB(-/-) mice are not significantly protected from acute heterologous injury in NTS nephritis but are protected from autologous injury in response to a planted glomerular antigen. Thus, although the glomerulus is resistant to antibody-initiated, alternative pathway-mediated injury, inhibition of this complement pathway may be beneficial in chronic immune complex-mediated diseases.     

Immune complexes with cationic antibodies deposit in glomeruli more effectively than cationic antibodies alone

In previously published studies, highly cationized antibodies alone and in immune complexes bound to glomeruli by charge-charge interaction, but only immune complexes persisted in glomeruli. Because normal IgG does not deposit in glomeruli, studies were conducted to determine whether cationized antibodies can be prepared which deposit in glomeruli when bound to antigen but not when free in circulation. A series of cationized rabbit antiHSA was prepared with the number of added amino groups ranging from 13.3 to 60.2 per antibody molecule. Antibodies alone or in preformed soluble immune complexes, prepared at fivefold or 50-fold antigen excess, were administered to mice. With the injection of a fixed dose of 100 micrograms per mouse, antibodies alone did not deposit in glomeruli with less than 29.6 added amino groups by immunofluorescence microscopy. In contrast, 100 micrograms of antibodies with 23.5 added amino groups in immune complexes, made at fivefold antigen excess, formed immune deposits in glomeruli. With selected preparations of cationized, radiolabeled antibodies, deposition in glomeruli was quantified by isolation of mouse glomeruli. These quantitative data were in good agreement with the results of immunofluorescence microscopy. Immune complexes made at 50-fold antigen excess, containing only small-latticed immune complexes with no more than two antibody molecules per complex, deposited in glomeruli similar to antibodies alone. Selected cationized antibodies alone or in immune complexes were administered to mice in varying doses. In these experiments, glomerular deposition of immune complexes, made at fivefold antigen excess, was detected with five- to 10-fold smaller doses than the deposition of the same antibodies alone. These studies demonstrate that antibody molecules in immune complexes are more likely to deposit in glomeruli by charge-charge interactions than antibodies alone.     

Removal of glomerular deposits induced by either preformed immune complexes or by a chronic immune complex model in NZB/W mice

The solubilization and removal of defined glomerular immune complex deposits by excess antigen was examined in NZB/W female mice. Glomerular deposits were induced by administering preformed immune complexes to young (2 to 4 mo) mice before they naturally acquired deposits from endogenous disease and to old (7 mo) mice with deposits from naturally acquired disease. The administration of excess antigen specifically removed deposits of preformed immune complexes in both groups. This was associated with a reduction in circulating large latticed complexes containing more than two antigen and two antibody molecules (greater than Ag2Ab2). Established deposits in old mice therefore did not interfere with removal of newly induced deposits of preformed immune complexes. Glomerular deposits were also induced in young mice by a chronic human serum albumin (HSA) immune complex model. The antigen in immune deposits induced by 2 wk of chronic antigen administration was solubilized and was removed within 48 hr of administering excess antigen. Circulating antibodies to the antigen were also reduced by excess antigen. Glomerular deposits of mouse immunoglobulin and complement were not significantly reduced by excess antigen but remained more intense than in mice of comparable age given preformed complexes. Thus deposits of other antigen antibody systems and possibly endogenous disease were induced by the chronic HSA immune complex model in NZB/W mice. However, defined antigen deposits within deposits containing multiple antigen antibody systems can clearly be removed by administering excess antigen.     

Aristolochic Acid Causes Albuminuria by Promoting Mitochondrial DNA Damage and Dysfunction in Podocyte

Aristolochic acid nephropathy, initially found in patients intaking of slimming herbs containing aristolochic acid (AA), was previously considered as a progressive renal interstitial fibrosis and urothelial malignancy. However, the presence of albuminuria in some patients with AAN suggests that AA may also damage the glomerular filtration barrier. In this study, mice AAN model was generated by daily administration of aristolochic acid I sodium salt intraperitoneally at a dose of 6 mg/kg body weight for 3 days. All of the mice developed heavy albuminuria at day 3 and 7 after receiving AA. In the mice received AA, morphologic change of glomeruli was minor under light microscopy but podocyte foot-process effacement was evident under electron microscopy. In mitochondria isolated from kidney, prominent mitochondrial DNA (mtDNA) damage was accompanied with marked decrease of mtDNA copy number and mitochondrial protein expression level. Similar to those in vivo results, AA treatment impaired the filtration barrier function of cultured podocytes. AA promoted mtDNA damage, decreased mtDNA copy number and mitochondrial protein expression in cultured podocytes. In addition, AA treatment also decreased ATP content, oxygen consumption rate and mitochondrial membrane potential as well as increased cellular reactive oxygen species in cultured podocytes. This study highlighted that AA could induce podocyte damage and albuminuria, which may be mediated by promoting mtDNA damage and mitochondrial dysfunction in podocytes.     

Schistosoma japonicum: Immunopathology of nephritis in Macaca fascicularis

Macaca monkeys experimentally infected with Schistosoma japonicum developed a chronic progressive kidney lesion characterized by an increase of mesangial matrix, local glomerular hypercellularity, and local thickening of glomerular basement membrane. Immunofluorescence studies revealed the localization of IgG, IgM, IgA, and IgE immunoglobulins mostly in the mesangial area of the glomeruli accompanied by the deposition of Schistosoma antigens. By electron microscopy, in addition to the local thickening of the glomerular basement membrane, dense homogeneous deposits and those with moth-eaten appearance were detected in the mesangial matrix. These findings suggest that worms in the bloodstream continuously release antigenic materials that stimulate host's antibody response belonging to various immunoglobulin classes including IgE. The produced antibodies and antigens would form immune complexes that deposited in the glomeruli. The increased vascular permeability caused by antigen-IgE antibody interaction may play an important role in the deposition of immune complexes and in the rapid development of kidney injury.     

CD100 enhances dendritic cell and CD4+ cell activation leading to pathogenetic humoral responses and immune complex glomerulonephritis

CD100, a member of the semaphorin family, is a costimulatory molecule in adaptive immune responses by switching off CD72's negative signals. However, CD100's potential pathogenetic effects in damaging immune responses remain largely unexplored. We tested the hypothesis that CD100 plays a pathogenetic role in experimental immune complex glomerulonephritis. Daily injection of horse apoferritin for 14 days induced immune complex formation, mesangial proliferative glomerulonephritis and proteinuria in CD100-intact (CD100+/+) BALB/c mice. CD100-deficient (CD100-/-) mice were protected from histological and functional glomerular injury. They exhibited reduced deposition of Igs and C3 in glomeruli, reduced MCP-1 and MIP-2 intrarenal mRNA expression, and diminished glomerular macrophage accumulation. Attenuated glomerular injury was associated with decreased Ag-specific Ig production, reduced CD4+ cell activation and cytokine production. Following Ag injection, CD4+ cell CD100 expression was enhanced and dendritic cell CD86 expression was up-regulated. However, in CD100-/- mice, dendritic cell CD86 (but not CD80) up-regulation was significantly attenuated. Following i.p. immunization, CD86, but not CD80, promotes early Ag-specific TCR-transgenic DO11.10 CD4+ cell proliferation and IFN-gamma production, suggesting that CD100 expression enables full expression of CD86 and consequent CD4+ cell activation. Transfer of CD100+/+ DO11.10 cells into CD100-/- mice resulted in decreased proliferation demonstrating that CD100 from other sources in addition to CD100 from Ag-specific CD4+ cells plays a role in initial T cell proliferation. Although T cell-B cell interactions also may be relevant, these studies demonstrate that CD100 enhances pathogenetic humoral immune responses and promotes the activation of APCs by up-regulating CD86 expression.     

A small proportion of cationic antibodies in immune complexes is sufficient to mediate their deposition in glomeruli

Positively charged antibodies mediate enhanced deposition of circulating immune complexes at the glomerular basement membrane. The presented experiments demonstrate that when soluble immune complexes were prepared with a mixture of antibodies containing 10 to 25% cationic antibodies, then noncationic antibodies in the complexes were deposited in mouse glomeruli. One or two cationic antibodies in each immune complex sufficed for deposition of the complexes. Proof for this was obtained by two kinds of experiments. First, the injected immune complexes were prepared in Ag excess from mixtures of radiolabeled noncationic rabbit antibodies to human serum albumin (HSA) and unlabeled cationized rabbit antibodies to HSA, thus permitting the specific quantitation of the deposition of noncationic antibodies in glomeruli because of the presence of cationized antibodies within the same complexes. As a control experiment, immune complexes prepared only with noncationic antibodies resulted in very little deposition in kidneys over the same time period. Second, detection of the localization of the noncationic antibody in deposits in glomeruli by immunofluorescence microscopy was accomplished using immune complexes prepared with mixtures of noncationic goat antibodies to HSA and cationized rabbit antibodies to HSA. Thus, the synthesis of a small population of cationic antibodies during the immune response may lead to the formation of circulating immune complexes with enhanced propensity for deposition in glomeruli in patients with SLE or other immune complex diseases.     

Role of MHC-linked genes in autoantigen selection and renal disease in a murine model of systemic lupus erythematosus

We previously described a renal protective effect of factor B deficiency in MRL/lpr mice. Factor B is in the MHC cluster; thus, the deficient mice were H2b, the haplotype on which the knockout was derived, whereas the wild-type littermates were H2k, the H2 of MRL/lpr mice. To determine which protective effects were due to H2 vs factor B deficiency, we derived H2b congenic MRL/lpr mice from the 129/Sv (H2b) strain. Autoantibody profiling using autoantigen microarrays revealed that serum anti-Smith and anti-small nuclear ribonucleoprotein complex autoantibodies, while present in the majority of H2k/k MRL/lpr mice, were absent in the H2b/b MRL/lpr mice. Surprisingly, 70% of MRL/lpr H2b/b mice were found to be serum IgG3 deficient (with few to no IgG3-producing B cells). In addition, H2b/b IgG3-deficient MRL/lpr mice had significantly less proteinuria, decreased glomerular immune complex deposition, and absence of glomerular subepithelial deposits compared with MRL/lpr mice of any H2 type with detectable serum IgG3. Despite these differences, total histopathologic renal scores and survival were similar among the groups. These results indicate that genes encoded within or closely linked to the MHC region regulate autoantigen selection and isotype switching to IgG3 but have minimal effect on end-organ damage or survival in MRL/lpr mice.     

Modulation of renal disease in MRL/lpr mice genetically deficient in the alternative complement pathway factor B

In systemic lupus erythematosus, the renal deposition of complement-containing immune complexes initiates an inflammatory cascade resulting in glomerulonephritis. Activation of the classical complement pathway with deposition of C3 is pathogenic in lupus nephritis. Although the alternative complement pathway is activated in lupus nephritis, its role in disease pathogenesis is unknown. To determine the role of the alternative pathway in lupus nephritis, complement factor B-deficient mice were backcrossed to MRL/lpr mice. MRL/lpr mice develop a spontaneous lupus-like disease characterized by immune complex glomerulonephritis. We derived complement factor B wild-type (B+/+), homozygous knockout (B-/-), and heterozygous (B+/-) MRL/lpr mice. Compared with B+/- or B+/+ mice, MRL/lpr B-/- mice developed significantly less proteinuria, less glomerular IgG deposition, and decreased renal scores as well as lower IgG3 cryoglobulin production and vasculitis. Serum C3 levels were normal in the B-/- mice compared with significantly decreased levels in the other two groups. These results suggest that: 1) factor B plays an important role in the pathogenesis of glomerulonephritis and vasculitis in MRL/lpr mice; and 2) activation of the alternative pathway, either by the amplification loop or by IgA immune complexes, has a prominent effect on serum C3 levels in this lupus model.     

Experimental model of membranous nephropathy in mice: sequence of histological and biochemical events

An experimental model of membranous nephropathy (MN) has not been established fully in mice. We characterized the time course of MN in a murine MN model induced by cationic bovine serum albumin (cBSA). Preimmunized mice received cBSA intravenously for six weeks to induce MN and were then sacrificed at different times. Metabolic profiles, renal histopathology, lymphocyte subsets, serum anti-cBSA immunoglobulins (Igs), antibody subclasses and circulating immune complexes (CIC) were evaluated to study the severity and mechanisms of disease initiation and progression. Clinical symptoms of overt proteinuria, hypoalbuminaemia and hypercholesterolaemia were observed from week 4, and typical histological findings of diffuse thickening of the glomerular basement membrane and subepithelial deposition were identified after week 6. Granular fluorescent staining for IgG and complement C3 were observed as early as week 4. Total splenocyte number increased, but the percentages of CD4+ and CD8+ cells did not change as the disease progressed. The predominant isotype of anti-cBSA Igs was IgG1, suggesting a T-helper 2 cell-prone immune response in the development of MN. The strong positive immunofluorescent staining of the immune complex concomitant with higher concentrations of Igs in serum but no significant change in CIC levels before week 4 suggest the involvement of in situ deposition of immune complex in the process of MN. This murine model resembles the clinical and pathological features of human MN and may provide a tool for investigating MN; this model may also have potential applications in gene-knockout or transgenic mouse technologies.     

Modulation of the population density of identifiable epidermal Langerhans cells associated with enhancement or suppression of cutaneous immune reactivity

The epidermis on the backs or ears of DBA/2 mice treated for 7 days with a 20% concentration of monobenzyl ether of hydroquinone (MBEH) had a significantly greater population density of ATPase- and Ia-positive cells compared with control mice treated with diluent. There was no decrease or increase in ATPase- or Ia-positive cells at sites distal from the treated tissue. This increase in population density of Langerhans cells was associated with a significant increase in functional afferent immune reactivity measured by allergic contact hypersensitivity. We also found evidence for enhanced efferent immune reactivity. Animals treated on the ears for 7 days with MBEH were sensitized to DNFB on untreated back. MBEH treated ears with more Ia-positive Langerhans cells demonstrated a threefold greater increase in swelling after the DNFB challenge than the control mice. Results of other studies suggest that the afferent and efferent enhanced immune reactivity produced by MBEH are local effects. We postulated that MBEH produced its effects by activating the oxidation of arachidonic acid (AA) to prostaglandins. To test this, we applied AA to mouse skin. AA has a biphasic effect on epidermal Langerhans cells: in low doses it increases their number; in high amounts it decreases the number of identifiable cells with either the Ia or the ATPase technique. An increased population density of identifiable epidermal Langerhans cells induced with AA was correlated with an increase in afferent and efferent immune reactivity. In contrast, reduction of Langerhans cells with larger amounts of AA suppress the afferent and efferent limb of the immune response. DNFB applied to skin with decreased Langerhans cell density from AA induced a state that mimics immune tolerance. The findings are significant because we report the only method to either increase or decrease the population density of Langerhans cells: and to modulate up or down the afferent or efferent limbs of the cutaneous immune response. Our results also suggest that the Langerhans cell may be involved in the efferent limb of the immune efferent response. These effects may be modulated in part by products of AA metabolism.     

Dietary fat and immune function. II. Effects on immune complex nephritis in (NZB x NZW)F1 mice

(NZB x NZW)F1 mice initiated on fat restriction at weanling were significantly protected from the development of immune complex glomerulonephritis. Whereas the mice on high-fat intake demonstrated immune depositions both in capillary walls and mesangial areas in a diffuse granular pattern, those on a low-fat diet with caloric content similar to the high-fat diets exhibited mesangial confinement of the depositions of immunoglobulins, complement, and retroviral gp70. In association with these divergent patterns of immune deposition, the mice on high-fat diets had evidence of extensive diffuse cellular proliferation, wire loop lesion, and sclerosis in the glomeruli. In contrast, most of the mice on the low-fat diet showed only mesangial cell and matrix proliferations. In addition, the group of mice fed high saturated fat showed more severe glomerular pathology as compared to those fed high unsaturated fat. Paradoxically, levels of circulating immune complexes (as measured by the polyethylene glycol precipitation technique) in the high saturated fat group were low and did not correlate with the findings by light and immunofluorescence microscopy. These findings suggest that dietary fat restriction can serve as either a prophylactic or effective therapeutic approach to murine lupus nephritis.     

Role for nephritogenic T cells in lupus glomerulonephritis: progression to renal failure is accompanied by T cell activation and expansion in regional lymph nodes

Autoreactive T cells are critical in the initiation and maintenance of autoantibody responses that are a hallmark of systemic lupus erythematosus. However, the direct contribution of T cells in end-organ disease like lupus glomerulonephritis (GN) is poorly understood. In this study, we investigated the role of T cells in progression of lupus GN in NZM2328 mice, a murine model of spontaneous systemic lupus erythematosus. At 26 wk of age, NZM2328 female mice showed glomerular immune complex deposits and acute proliferative GN. This was associated with up-regulation of MHC class II and the detection of T cells and CD11c(+) dendritic cells in the glomeruli. The regional lymph nodes (LN) showed preferential activation of T cells and an oligoclonal T cell response with skewed expansion of certain Vbeta families. This suggests an Ag-driven response occurring in the regional LN of nephritic mice during acute GN. In contrast, male NZM2328 mice developed glomerular immune complexes and acute GN, but rarely progressed to fatal chronic GN. Significantly, male kidneys at 40 wk of age did not have detectable dendritic cells and T cells in the glomeruli. Thus, glomerular immune complex deposition initiates an immune response against renal Ags in the regional LN, leading to T cell recruitment into the kidney during acute proliferative GN. This T cell activation and infiltration are influenced by gender-dependent end-organ factors and may determine the progression of acute GN to chronic GN and renal failure.     

Possible role of metal ionophore against zinc induced cognitive dysfunction in <Emphasis Type="SmallCaps">d-</Emphasis>galactose senescent mice

Metal ionophores are considered as potential anti-dementia agents, and some are currently undergoing clinical trials. Many metals are known to accumulate and distribute abnormally in the aging brain. Alterations in zinc metal homeostasis in the glutaminergic synapse could contribute to ageing and the pathophysiology of Alzheimer’s disease (AD). The present study was designed to investigate the effect of metal ionophores on long term administration of zinc in D-galactose induced senescent mice. The ageing model was established by combined administration of zinc and D-galactose to mice for 6 weeks. A novel metal ionophore, PBT-2 was given daily to zinc-induced d-galactose senescent mice. The cognitive behaviour of mice was monitored using the Morris Water Maze. The anti-oxidant status and amyloidogenic activity in the ageing mouse was measured by determining mito-oxidative parameters and deposition of amyloid β (Aβ) in the brain. Systemic administration of both zinc and D-galactose significantly produced memory deficits, mito-oxidative damage, heightened acetylcholinesterase enzymatic activity and deposition of amyloid-β. Treatment with PBT-2 significantly improved behavioural deficits, biochemical profiles, cellular damage, and curbed the deposition of APP in zinc-induced senescent mice. These findings suggest that PBT-2, acting as a metal protein attenuating compound, may be helpful in the prevention of AD or alleviation of ageing.     

Defective oral tolerance promotes nephritogenesis in experimental IgA nephropathy induced by oral immunization.

Oral tolerance, an important feature of the mucosal immune system, appears to protect against immune-mediated disease by blunting production of systemic IgG and IgM antibody directed toward immunogens chronically present at mucosal surfaces. In this study, we explored the role of oral tolerance and mucosal immunoregulation in an experimental model of IgA nephropathy (IgAN), an important form of nephritis in humans. Cyclophosphamide and estradiol were used to inhibit the expression of oral tolerance, which otherwise develops after chronic oral presentation of Ag. BALB/c mice given drinking water containing 0.1% bovine gamma globulin (BGG) continuously for 14 wk were randomly assigned to groups given either 2 mg of cyclophosphamide i.p., 2 mg of estradiol s.c. or both drugs. Groups of control mice received neither BGG nor drugs. In three separate experiments, a low percentage of saline-treated orally immunized mice had microscopic hematuria (0 to 20%), as did nonimmunized controls (0 to 20%). However, 58 to 83% of mice given estradiol and/or cyclophosphamide at appropriate times developed significant hematuria. If drugs were given at suboptimal times, only 25 to 56% of mice developed hematuria. Drug-treated immunized mice also had more serum IgG and IgM anti-BGG antibodies than control and saline groups. Immunofluorescence showed significantly more glomerular deposits of IgG, IgM, and C3 in drug-treated immunized mice compared to saline-treated immunized and normal untreated control mice. Hematuria and glomerular deposits of IgG, IgM, and C3 paralleled serum IgG and IgM antibody. All immunized mice showed significant mesangial IgA and BGG deposits and there were no differences in such deposits between saline- and drug-treated immunized mice. We suggest that blunting of oral tolerance with promotion of systemic IgG and IgM antibody production leads to nephritis in chronically orally immunized mice and that glomerular immune complexes containing IgG and/or IgM promote complement deposition and hematuria in IgAN. Analogous defects in oral (or more generally mucosal) tolerance could play a role in the genesis of symptomatic human IgAN.     

Apolipoprotein J/clusterin prevents a progressive glomerulopathy of aging

Apoliprotein J (apoJ)/clusterin has attracted considerable interest based on its inducibility in multiple injury processes and accumulation at sites of remodeling, regression, and degeneration. We therefore sought to investigate apoJ/clusterin's role in kidney aging, as this may reveal the accumulated effects of diminished protection. Aging mice deficient in apoJ/clusterin developed a progressive glomerulopathy characterized by the deposition of immune complexes in the mesangium. Up to 75% of glomeruli in apoJ/clusterin-deficient mice exhibited moderate to severe mesangial lesions by 21 months of age. Wild-type and hemizygous mice exhibited little or no glomerular pathology. In the apoJ/clusterin-deficient mice, immune complexes of immunoglobulin G (IgG), IgM, IgA, and in some cases C1q, C3, and C9 were detectable as early as 4 weeks of age. Electron microscopy revealed the accumulation of electron-dense material in the mesangial matrix and age-dependent formation of intramesangial tubulo-fibrillary structures. Even the most extensively damaged glomeruli showed no evidence of inflammation or necrosis. In young apoJ/clusterin-deficient animals, the development of immune complex lesions was accelerated by unilateral nephrectomy-induced hyperfiltration. Injected immune complexes localized to the mesangium of apoJ/clusterin-deficient but not wild-type mice. These results establish a protective role of apoJ/clusterin against chronic glomerular kidney disease and support the hypothesis that apoJ/clusterin modifies immune complex metabolism and disposal.     

Control of autologous immune complex nephritis. I. Suppression of the disease in the presence of T cell sensitization

Pretreatment of Lewis and Sprague-Dawley rats with the nephritogenic antigen, Fx1A, in incomplete Freund's adjuvant (IFA) reduced the incidence of autologous immune complex nephritis in rats subsequently challenged with Fx1A in complete Freund's adjuvant (CFA). The suppression was evidenced by a decrease in antibody production, in glomerular deposition of immunoglobulins, and in the incidence of proteinuria, and it was antigen specific. In vitro blastogenesis to Fx1A of lymphocytes from Fx1A-IFA-pretreated animals was normal. Rats pretreated with Fx1A-IFA initially developed a normal antibody response after challenge with Fx1A-CFA, but the response was not sustained. These results indicate that the Fx1A-IFA-induced suppressor mechanism does not inhibit sensitization, but rather modifies specific antibody production.     

Virus-induced immune complex disease: identification of specific viral antigens and antibodies deposited in complexes during chronic lymphocytic choriomeningitis virus infection.

Structural proteins of LCMV were identified and their role in the immune complex glomerulonephritis of LCMV carrier mice was examined. Purified LCMV contained three major polypeptides, a single nonglycosylated nucleoprotein with an estimated m.w. of 63,000, and two surface glycoproteins of 54,000 and 35,000. Deposition of nucleoprotein antigen in the glomeruli of LCMV carrier mice of several strains was demonstrated by immunofluorescent staining with a monospecific antibody. In addition, Ig eluted from kidneys of three strains of LCMV carrier mice was shown by immune precipitation to react against all of major viral polypeptides of LCMV. Antibody from normal mice, and from mice with immune complex disease unrelated to LCMV did not show deposition of LCMV antigen in glomeruli, and Ig eluted from the kidneys of these mice did not react against LCMV antigens. Hence, mice infected at birth with LCMV and persistently infected throughout their life make antibodies to all the known structural polypeptides of the virus.