Plasma levels of nucleosomes and nucleosome-autoantibody complexes in murine lupus: effects of disease progression and lipopolyssacharide administration.

OBJECTIVE: To evaluate the effect of disease progression and lipopolysaccharide (LPS) administration on the presence of nucleosomes, antinucleosome reactivity, and nucleosome-Ig complexes in the circulation of MRL and control mice. METHODS: Plasma samples from lupus-prone (MRL/lpr and MRL/+) and control (CBA, Swiss, and BALB/c) mice were tested in enzyme-linked immunosorbent assays for the presence of nucleosomes, antinucleosome antibodies, and nucleosome-Ig complexes. Nucleosome kinetics, apoptosis induction, and phagocytosis of apoptotic cells were also analyzed in MRL/lpr, MRL/+, and CBA control mice after a single injection of LPS or phosphate buffered saline. RESULTS: Nucleosomes were found in the circulation of MRL/lpr and MRL/+ mice from week 4 onward. Nucleosomes were also detected in young control mice, but with increasing age, the nucleosomes disappeared. Antinucleosome antibodies, nucleosome-Ig complexes, and albuminuria were found only in the MRL/lpr mice. LPS administration led to a significant increase in circulating nucleosomes (3-8-fold) in all strains tested. In only the MRL/lpr mice was this increase followed by a significant decrease in antinucleosome titers and an increase in nucleosome-Ig complexes. The number of apoptotic cells in the thymus after LPS was significantly higher in the MRL/lpr mice than in the MRL/+ and CBA control mice. LPS caused a profound reduction (50-70%) of the phagocytosis of apoptotic cells by peritoneal macrophages, which was comparable for all strains. CONCLUSION: In MRL lupus-prone mice, nucleosomes are persistently present in the circulation, whereas in control mice, nucleosomes are present only at a young age. The formation of antinucleosome antibodies and nucleosome-Ig complexes is a characteristic feature of MRL/lpr mice. LPS administration increases systemic nucleosome release due to an enhancement of apoptosis and a decrease in the clearance of apoptotic cells.

Attenuation of murine lupus nephritis by mycophenolate mofetil.

Mycophenolate mofetil (MMF) is the morpholinoethyl ester of mycophenolic acid, which is its active metabolite. MMF is effective in prolonging survival of allografts and xenografts. However, little is known about the effects and the main mechanism of action of MMF in autoimmune diseases. In this study, the effect of MMF on the spontaneous disease progression in the MRL/lpr mouse model of lupus was examined. Eight-week-old MRL/lpr mice (n=18) were orally treated with MMF dissolved in a vehicle (90 mg/kg) once a day. Control animals received vehicle alone (n=17). The incidence of albuminuria (>300 microg/18 h) was significantly reduced by MMF treatment compared with vehicle-treated controls (cumulative incidence of albuminuria at 23 wk in MMF-treated mice; 22% versus 88% in controls; P=0.0001). The glomerulonephritis was histologically less severe in MMF-treated mice than in control mice (P=0.005). Furthermore, in immunofluorescence studies the amount of immunoglobulin and C3 deposits in the glomerular capillary wall was significantly less in MMF-treated mice (P < or = 0.002). Surprisingly, in vivo no clear-cut immune-modulating effects were observed because there were no differences between MMF-treated and control animals with regard to autoantibody formation. Also, spleen enlargement and numbers of CD3+, CD4+, and CD8+ T cells in spleen, lymph nodes, and peripheral blood were not different between both groups. Furthermore, no immunosuppressive properties of 90 mg/kg MMF were found in BALB/c mice on delayed-type hypersensitivity and primary antibody response to methylated bovine serum albumin. Interestingly, renal perfusion experiments revealed that binding of nucleosome/antinucleosome complexes to the glomerular basement membrane is decreased in MMF-treated mice compared with control mice. It is concluded that MMF suppresses the development of lupus glomerulonephritis and albuminuria in MRL/ lpr mice. The observed reduction of glomerular immunoglobulin deposits in MMF-treated mice and the renal perfusion studies indicate that MMF treatment leads to a decreased binding of immune complexes in the glomerular capillary wall in lupus nephritis.

Antigen specificity of anti-nuclear antibodies complexed to nucleosomes determines glomerular basement membrane binding in vivo.

Monoclonal anti-nuclear antibodies which are complexed to nucleosomes are able to bind to the glomerular basement membrane (GBM) in vivo, whereas purified antibodies do not bind. The positively charged histone moieties in the nucleosome are-responsible for the binding to anionic determinants in the GBM. We tested the hypothesis that the specificity of the autoantibodies complexed to the nucleosome influences the glomerular binding of the antibody-nucleosome complex. We induced the formation of these immune complexes in vivo, by intraperitoneal inoculation of hybridomas producing monoclonal anti-nuclear antibodies (four anti-histone, three anti-double stranded (ds)DNA and three anti-nucleosome antibodies) into nude BALB/c mice. In ascites and plasma from the mice inoculated with these hybridomas, nucleosome/autoantibody complexes were detected in comparable amounts. Immunofluorescence of kidney sections revealed that about 60% of the mice inoculated with anti-nucleosome or anti-dsDNA hybridomas had immunoglobulin deposits in the GBM, whereas only 15% of the mice with anti-histone hybridomas showed these deposits (p < or = 0.04). In the Matrigel-ELISA (used as a GBM surrogate) ascites from anti-nucleosome or anti-DNA hybridomas displayed significantly higher titers (p < or = 0.002) than ascites from anti-histone hybridomas. In conclusion, nucleosome/immunoglobulin complexes comprising anti-nucleosome or anti-dsDNA auto-antibodies do bind more frequently to the GBM in vivo than nucleosome/immunoglobulin complexes containing anti-histone antibodies. It therefore appears that the specificity of the antibody bound to the nucleosome is a critical determinant for the nephritogenic potential of the nucleosome-autoantibody complex.

Heparin and heparinoids prevent the binding of immune complexes containing nucleosomal antigens to the GBM and delay nephritis in MRL/lpr mice.

Monoclonal anti-nucleosome antibodies (mAbs) complexed to nucleosomal antigens can bind to DNA and to heparan sulfate (HS) in ELISA and to the GBM in vivo in a rat renal perfusion system, whereas non-complexed mAbs do not bind [1]. In this study, we analyzed whether heparin (HEP) or N-desulfated/acetylated heparins (DSA-HEP), structurally and functionally strongly related to HS, are able to prevent the binding of these complexed mAbs to DNA and to HS in vitro and to rat GBM in vivo. In ELISA the binding of nucleosome complexed antinucleosome antibodies to DNA and HS was inhibited dose-dependently by HEP, DSA-HEP and low molecular weight (LMW) DSA-HEP. Intravenous injection of nucleosome/anti-nucleosome immune complexes without heparin/heparinoids in BALB/c mice led to GBM binding, while simultaneous injection of heparin/heparinoids with complexed antibodies or pretreatment with heparin subcutaneously prior to injection of complexes prevented this binding. Subsequently, we tested the preventive effect of HEP, DSA-HEP and LMW-DSA-HEP on progression of renal disease in MRL/lpr mice. Treatment was started at an age of eight weeks in a dose of 50 micrograms daily. With all three drugs albuminuria was significantly delayed compared to PBS treated controls (cumulative incidence of proteinuria at 20 weeks in controls 60% vs. 13%, 14% and 6% respectively for HEP, DSA-HEP and LMW-DSA-HEP; P < 0.05). At week 21 the glomerulonephritis was histologically less severe in heparin/heparinoid treated animals (P = 0.02). In immunofluorescence the amount of immunoglobulin and C3 deposits in the glomerular capillary wall tended to be less in heparin/heparinoid treated mice compared to PBS treated controls (P = 0.07). Furthermore, at 20 weeks anti-HS levels in plasma of heparin/heparinoid treated mice were significantly lower (P < 0.05). We conclude that interaction of heparin or heparin analogs with HS reactive immune complexes containing nucleosomal antigens prevents the binding of these immune complexes to the GBM and delays nephritis in MRL/lpr mice.

Effects of cyclosporin A on autoimmune disease in MRL/1 and BXSB mice.

MRL/1 and BXSB mice were treated daily with cyclosporin A (CyA) in an oral dose of 25 mg/kg body weight. With this dose, blood levels within the therapeutic range were obtained. In normal mice CyA in this dose significantly prolonged the survival of an H-2 incompatible skin graft, and suppressed delayed-type hypersensitivity (DTH). It had no influence on the magnitude of a primary antibody response. Autoimmune mice were treated from 6 to 22 weeks of age. CyA treatment did not alter significantly the anti-DNA and anti-IgG autoantibody levels in either strain compared with control mice, who received olive oil. There was a slight but significant increase in serum IgG levels in CyA-treated MRL/1 mice. Clinical signs of glomerulonephritis (decreased kidney function and albuminuria), and glomerular proliferation were not altered by CyA treatment in either strain. The amount of mesangial IgG deposits was reduced in CyA-treated MRL/1 mice, and remained unchanged in BXSB mice. The extent of the interstitial and perivascular infiltrates and the frequency and severity of necrotizing arteritis in the kidneys of MRL/1 mice were reduced by CyA treatment. The most prominent effect of CyA was an evident reduction in lymphoproliferation in MRL/1 mice. Mortality was not reduced by CyA treatment in MRL/1 and BXSB mice.

Cross-reactivity of human and murine anti-DNA antibodies with heparan sulfate. The major glycosaminoglycan in glomerular basement membranes.

In 30 of 33 human systemic lupus erythematosus (SLE) sera and in 10 sera from MRL/l mice with spontaneous SLE, antibodies against heparan sulfate were detected. The anti-heparan sulfate titers showed a significant correlation with the anti-DNA antibody titers. By inhibition studies it was demonstrated that heparan sulfate could inhibit the binding of anti-DNA antibodies to DNA, whereas DNA could block the binding to heparan sulfate. That this reaction is due to crossreactivity of anti-DNA antibodies was further substantiated by the finding that two monoclonal anti-DNA antibodies also bound to heparan sulfate. Antibodies eluted from human and mouse kidneys with diffuse SLE glomerulonephritis showed a similar binding to DNA and heparan sulfate when these eluted antibodies were tested in vitro. Heparan sulfate is the major glycosaminoglycan constituent of the glomerular basement membrane. Our findings suggest that heparan sulfate might serve as a target antigen in vivo for cross-reactive anti-DNA antibodies.

Direct binding of monomeric anti-DNA antibodies to Raji cells.

The Raji-cell test is one of the most widely used methods for the detection and quantitation of immune complexes. Immune complexes and not 7 S IgG bind via C3 to complement receptors on the cell membrane of the Raji cell. During sucrose gradient fractionation of human and murine systemic lupus erythematosus sera, with a high Raji cell-binding activity, we could not demonstrate immune complexes in these sera. Subsequent analysis showed that the major part of the Raji cell binding was used by 7 S IgG with an anti-DNA specificity. Blocking experiments with complement-bearing aggregated IgG revealed that complement and Fc receptors were not involved in the binding of these anti-DNA antibodies to Raji cells. We conclude that the Raji cell test is not suitable for the detection and quantitation of immune complexes in sera containing anti-DNA antibodies.