Immunogenicity of superoxide radical modified-DNA: studies on induced antibodies and SLE anti-DNA autoantibodies

Superoxide anion radical (SAR) is formed in almost all aerobic cells and it is the most abundant species generated by several enzymatic and non-enzymatic pathways in mammalian tissues, leading to unfavorable alteration of biomolecules including DNA. The SAR-modified macromolecules have been implicated in several disease states including disorders of inflammation. The SAR-induced damage to DNA showed hyperchromicity, single strand breaks, decrease in melting temperature, and modification of bases. Superoxide modified-DNA in rabbits elicited high titer antibodies and showed diverse antigens binding characteristics. The induced antibodies recognized native DNA and other nucleic acid polymers. Anti-DNA IgG from SLE sera, purified on Protein-A-Sepharose matrix, exhibited increased recognition of superoxide anion radical modified-DNA than native DNA in competitive immunoassay. The visual formation of immune complex between induced antibodies and native DNA, and between SLE anti-DNA IgG and superoxide modified-DNA, is a clear indication of property sharing between SLE autoantibodies and experimentally induced antibodies against superoxide modified-DNA.     

Antigen binding diversity of affinity purified autoantibodies against DNA.

Naturally occurring autoantibodies against native DNA (nDNA) in SLE sera showed diverse antigen binding characteristics. The antibodies isolated by affinity chromatography using nDNA linked to Sepharose 4B exhibited specificity towards nDNA and showed strong reactivity with DNA-psoralen photoadduct by direct binding assay and competitive ELISA. The anti-DNA antibody belong to both IgG and IgM immunoglobulin classes and their ratio was 5:1. The possible significance of altered conformation of nDNA in the etiology of SLE has been discussed.     

Immunogenicity of mitochondrial DNA modified by hydroxyl radical

Mitochondria consume about 90 percent of oxygen used by the body, and are a particularly rich source of reactive oxygen species (ROS). In this research communication mitochondrial DNA (mtDNA) was isolated from fresh goat liver and modified in vitro by hydroxyl radical generated from UV irradiation (254 nm) of hydrogen peroxide. As a consequence of hydroxyl radical modification, mtDNA showed hyperchromicity and sensitivity to nuclease S1 digestion as compared to control mtDNA. Animals immunized with mtDNA and ROS-modified mtDNA induced antibodies as detected by direct binding and competition ELISA. The data suggest that immunogenicity of mtDNA got augmented after treatment with hydroxyl radical. IgG isolated from immune sera showed specificity for respective immunogen and cross-reaction with other nucleic acids. Binding of induced antibodies with array of antigens clearly indicates their polyspecific nature. Moreover, the polyspecificity exhibited by induced antibodies is unique in view of similar multiple antigen binding properties of naturally occurring anti-DNA antibodies derived from SLE patients.     

Cross-Reactions of Human Lupus Autoantibodies with 8-Methoxypsoralen Photomodified DNA Fragments

DNA fragments of around 200 base pair (average size) have been covalently crosslinked with 8-methoxypsoralen under 365 nm UV light. The photoadduct, induced antibodies in rabbits with a titer of > 1:12,800 by direct bindng ELISA. Binding data showed that the induced antibodies are conformation-specific recognizing restricted conformational change at site of crosslinking. Human autoantibodies against DNA, bound not only to native DNA but to the photomodified DNA fragment as well. In addition, binding patterns of SLE sera obtained from different patients were remarkably similar, indicating the recognition of altered conformation of the modified polymer by naturally occurring SLE anti-DNA autoantibodies.     

Protein-bound 4-hydroxy-2-nonenal: an endogenous triggering antigen of antI-DNA response

Several lines of evidence indicate that the nonenzymatic oxidative modification of proteins and the subsequent accumulation of the modified proteins have been found in cells during aging and oxidative stress and in various pathological states, including premature diseases, muscular dystrophy, rheumatoid arthritis, and atherosclerosis. Our previous work suggested the existence of molecular mimicry between antibodies raised against hydroxy-2-nonenal (HNE)-modified protein and anti-DNA autoantibodies, a serologic hallmark of systemic lupus erythematosus (SLE). In the present study, we investigated the possible involvement of HNE-modified proteins as the endogenous source of the anti-DNA antibodies. Accumulation of the antigen recognized by the antibody against the HNE-modified protein was observed in the nucleus of almost all of the epidermal cells from patients with autoimmune diseases, including SLE. The SLE patients also showed significantly higher serum levels of the anti-HNE titer than healthy individuals. To determine if a specific anti-DNA response could be initiated by the HNE-derived epitopes, we immunized BALB/c mice with the HNE-modified protein and observed a progressive increase in the anti-DNA response. Moreover, we generated the monoclonal antibodies, showing recognition specificity toward DNA, and found that they can bind to two structurally distinct antigens (i.e. the native DNA and protein-bound 4-oxo-2-nonenal). The findings in this study provide evidence to suspect an etiologic role for lipid peroxidation in autoimmune diseases.     

A conserved anti-DNA antibody idiotype associated with nephritis in murine and human systemic lupus erythematosus

In order to identify unique structural features of pathogenic autoantibodies to DNA in SLE, a murine anti-anti-DNA (anti-Id) mAb (mAb 1C7) was produced in response to immunization of lupus mice with a syngeneic anti-DNA mAb (mAb 3E10). Immunization of lupus mice with mAb 3E10 inhibited production of native anti-DNA antibodies, suppressed development of lupus kidney disease (nephritis), and induced production of anti-anti-DNA (anti-Id) antibodies. mAb 1C7 bound F(ab')2 fragments of mAb 3E10, and it bound other murine anti-DNA mAb, but not murine mAb or polyclonal serum antibodies unreactive with DNA. Moreover, binding of mAb 1C7 anti-Id to mAb 3E10 was inhibited by DNA, suggesting anti-Id binding within or near the binding site for DNA. Furthermore, mAb 1C7 bound serum IgG immunoglobulins from 9/12 patients with lupus nephritis and serum anti-DNA antibodies compared to only 3/12 SLE patients with comparable serum levels of anti-DNA antibodies, but without nephritis (p = 0.04), and only 1/53 SLE patients without serum anti-DNA antibodies, 0/49 patients with rheumatoid arthritis, and 1/47 healthy subjects (p less than 0.001). These results provide evidence that mAb 1C7 identifies a conserved Id associated with anti-DNA antibodies in murine and human SLE and may be useful as a structural probe to characterize pathogenic anti-DNA antibodies in SLE.     

Hybridoma anti-DNA autoantibodies from patients with rheumatoid arthritis and systemic lupus erythematosus demonstrate similar nucleic acid binding characteristics

Hybridoma anti-DNA antibodies have been generated from the fusion of the GM 4672 lymphoblastoid line with peripheral blood lymphocytes from four normal subjects, nine patients with rheumatoid arthritis (RA), and 13 patients with systemic lupus erythematosus (SLE). A total of 441 hybridoma clones were obtained, of which 37 secreted anti-DNA autoantibodies. The nucleic acid binding characteristics of the anti-DNA antibodies produced by two hybridomas from normal subjects, nine hybridomas from RA patients, and 18 hybridomas from SLE patients are reported. The hybridoma anti-DNA antibodies from all three groups showed similar antigen-binding characteristics for denatured DNA (dDNA), native DNA (nDNA), poly(I), poly(dT), and cardiolipin, by both direct binding and competitive binding analyses. One difference noted between normal-derived anti-DNA antibodies and autoimmune-derived antibodies was the inability of the former to react with z-DNA. However, this requires further substantiation with larger numbers of normal-derived clones. The broad overlap of reactivity to nucleic acid antigens among individual anti-DNA autoantibodies found in two clinically different autoimmune diseases, namely RA and SLE, suggests that the pathogenicity of anti-DNA autoantibodies may bear no relationship to their nucleic acid antigen-binding characteristics.     

Preferential Recognition of Peroxynitrite Damaged Thymidine-Monophosphate by Anti-DNA Autoantibodies in Systemic Lupus Erythematosus

This study was undertaken to investigate the role of peroxynitrite (ONOO^?) modified thymine-5′-monophosphate (TMP) in the generation of anti-DNA autoantibodies in patients with systemic lupus erythematosus (SLE). TMP was exposed to ONOO^? in vitro and challenged in vivo. TMP and ONOO^?-modified-TMP were found to be nonimmunogenic in rabbits. TMP-linked-BSA and ONOO^?-modified-TMP-BSA induced high titer antibodies. Induced antibodies against ONOO^?-TMP-BSA show crossreactions with nucleic acids conformers. A high degree of specific binding by SLE autoantibodies with ONOO^?-TMP-BSA was observed. Our novel results provide an important insight into the immunological basis of anti-DNA autoantibodies generation in SLE.     

Reactive oxygen species damaged human serum albumin in patients with type 1 diabetes mellitus: biochemical and immunological studies

The role of hydroxyl radical (.OH) damaged human serum albumin (HSA) in type 1 diabetes has been investigated in the present study. Hydroxyl radical induced modification on HSA has been studied by UV absorption spectroscopy, ANS fluorescence and carbonyl estimation. Hydroxyl radical modified HSA was found to be highly immunogenic in rabbits as compared to native HSA. The binding characteristics of circulating autoantibodies in type 1 diabetes patients against native and modified HSA were assessed. Diabetes patients (n=31) were examined by direct binding ELISA and the results were compared with healthy age-matched controls (n=22). High degree of specific binding by 54.8% of patients sera towards .OH modified HSA, in comparison to its native analogue (p<0.05) was observed. Sera from those type 1 diabetes patients having smoking history, high aging with high degree of disease showed substantially stronger binding to .OH modified HSA over native HSA in particular. Normal human sera showed negligible binding with either antigen. Competitive inhibition ELISA reiterates the direct binding results. Gel retardation assay further substantiated the enhanced recognition of modified HSA by circulating autoantibodies in diabetes patients. The increase in total serum protein carbonyl levels in the diabetes patients was largely due to an increase in oxidized albumin. HSA of diabetes mellitus patients (DM-HSA) and normal subjects (normal-HSA) were purified on a Sephacryl S-200 HR column. Spectroscopic analysis confirmed that the DM-HSA samples contained higher levels of carbonyls than normal-HSA (p<0.001). DM-HSA was conformationally altered, with more exposure of its hydrophobic regions. Collectively, the oxidation of plasma proteins, especially HSA, might enhance oxidative stress in type 1 diabetes mellitus patients.     

Immunochemical detection of oxidative DNA damage in cancer and aging using anti-reactive oxygen species modified DNA monoclonal antibody

The formation of reactive oxygen species (ROS), although a normal cellular activity, is considerably enhanced under chronic inflammatory conditions and ischemia. These species have been implicated in various disorders, mutagenesis, carcinogenesis and aging. Of many macromolecules, DNA is the most susceptible to hydroxyl radical, the most reactive of the ROS. The present study is designed to detect oxidative DNA damage in cancer patients and healthy aged humans using an anti-ROS-DNA monoclonal antibody (mAb). Purified calf thymus DNA fragments (approximate size 400 bp) were modified with ·OH, generated by UV-irradiation (254 nm) of hydrogen peroxide. ROS-modified DNA was characterized by UV-spectroscopy, melting temperature, alkaline sucrose density gradient ultracentrifugation and ion-exchange chromatography. ROS-DNA showed single strand breaks, decrease in T_m, modification of thymine (58.3%) and guanine (20%). The mAb generated against ROS-DNA was characterized for antigen binding specificity by competition ELISA. Monoclonal antibody showed strong binding to ROS-modified DNA, its modified fragments, polynucleotides and bases. With the exception of native DNA, binding of unmodified polynucleotides and bases was much lower. The mAb distinctly recognized DNA samples from lymphocytes of healthy aged humans and gave maximum inhibitions of 49, 53, 64 and 70%, while not reacting with DNA from young population. Similarly, oxidative lesions in DNA from cancer patients were also efficiently recognized by the mAb. DNA from healthy controls served as negative control. The studies demonstrate that the mAb, although cross-reactive, preferentially binds ROS-modified epitopes on DNA. High reactivity of mAb to DNA samples from cancer patients and healthy aged humans indicates increased oxidative stress leading to DNA damage.     

Specific and shared idiotypes found on hybridoma anti-DNA autoantibodies derived from rheumatoid arthritis and systemic lupus erythematosus patients

The idiotype determinants found on hybridoma anti-DNA autoantibodies produced from the fusion of peripheral blood lymphocytes from 13 systemic lupus erythematosus (SLE) and five rheumatoid arthritis (RA) patients with the GM 4672 human lymphoblastoid line were analyzed. A total of 47 SLE and 21 RA hybridomas were studied, of which 26 SLE and 10 RA produced anti-DNA autoantibodies. Rabbit antisera, raised to six of the SLE hybridoma anti-DNA IgM antibodies, were rendered idiotype specific by multiple absorptions on human IgM and IgG immunoabsorbent columns. In direct binding radioimmunoassays, all six anti-idiotype antisera reacted specifically with the anti-DNA antibody used as immunogen. In competition studies, five anti-idiotype antisera were able to inhibit the binding of their homologous idiotype to DNA-coated tubes. In addition, DNA and polynucleotides inhibited the binding of the five idiotypes to anti-idiotype-coated tubes, suggesting that these anti-idiotypes react with idiotype determinants located within the antigen-combining sites of the anti-DNA antibody molecules. Shared idiotypes were detected among the 68 hybridoma antibodies by direct binding studies on anti-idiotype-coated tubes. Our results revealed that 58% (21/36) of the anti-DNA antibodies and 16% (5/32) of the non-DNA-binding antibodies reacted with at least one anti-idiotype serum. Five anti-idiotype antisera reacted only with hybridoma anti-DNA antibodies from SLE patients. The other anti-idiotype antiserum reacted with both SLE- and RA-derived hybridoma anti-DNA and non-DNA-binding antibodies. These studies indicate that some anti-idiotype antisera may detect specific idiotypes found only on SLE-derived anti-DNA auto-antibodies, whereas other antisera detect shared idiotypes found on both RA and SLE DNA-binding and non-DNA-binding antibodies.     

Immunological studies on glycated human IgG

AimsTo study the immunogenicity of advanced glycation end product (AGE) modified IgG (AGE-IgG) in experimental animals.Main methodsHuman IgG was subjected to in vitro glycation with glucose and the formation of N^ε-(carboxymethyl)lysine (CML) was evaluated by high performance liquid chromatography (HPLC). The immunogenicity of native and AGE-IgG was investigated by raising polyclonal antibodies against them in rabbits. The induced antibodies were purified on a Protein-A agarose affinity column. Specific binding of antibodies was screened by competitive inhibition assay and band shift assay. Cross reactions of induced antibodies with various proteins or amino acids and their glycated conformers were ascertained by competitive inhibition ELISA.Key findingsWe detected the CML formation in AGE-IgG. The AGE-IgG was found to be highly immunogenic due to the generation of neo-epitopes on it. Affinity purified antibodies exhibited high degree of specific binding with AGE-IgG in comparison to the native IgG. Antibodies against AGE-IgG exhibited diverse antigen binding characteristics and the glycated conformers of various proteins and amino acids were found to be effective inhibitors of antibody-immunogen interaction in cross reaction studies. Band shift assay reiterated the results obtained by direct binding and competitive inhibition assay.SignificanceThe induced antibodies against AGE-IgG resembled the diverse antigen binding characteristics of autoantibodies found in rheumatoid arthritis (RA). IgG modified by AGEs under oxidative stress presents unique neo-epitopes which may be one of the factors for the induction of autoantibodies in RA patients.     

Anti-DNA antibodies bind directly to renal antigens and induce kidney dysfunction in the isolated perfused rat kidney

The pathogenesis of SLE is commonly attributed to the deposition of circulating immune complexes consisting of DNA and anti-DNA autoantibodies. However, recent work has shown multiple cross-reactions between anti-DNA antibodies and a variety of cellular and extracellular Ag. To test the possibility that these antibodies interact directly with glomerular Ag and induce kidney dysfunction, we applied mouse and human anti-DNA IgG to the isolated perfused rat kidney. The NZB/NZW mouse monoclonal anti-DNA bound to glomerular Ag with a concomitant induction of proteinuria and a decrease in inulin clearance. The albumin excretion was 2301 +/- 734 micrograms/min at 160 min of perfusion, as compared with 85 +/- 21 micrograms/min in controls (p less than 0.001). The inulin clearance was reduced to 0.17 +/- 0.02 ml/min as compared with 0.28 +/- 0.09 ml/min in controls (p less than 0.05). Polyclonal anti-DNA IgG obtained from patients with lupus nephritis bound to rat glomeruli and induced albumin excretion of 542 +/- 217 micrograms/min at 160 min of perfusion, as compared with 163 +/- 77 micrograms/min in controls (p = NS). The addition of plasma as a source of C to the human IgG increased the proteinuria markedly (albumin excretion of 1115 +/- 195 micrograms/min at 160 min of perfusion, p less than 0.02), probably due to C activation. Preincubation of the reactive mouse and human IgG with DNA completely abolished their binding to renal tissue and its physiologic consequences. These results suggest that direct binding of anti-DNA antibodies to renal Ag may play an important role in the induction of lupus nephritis.     

SLE血清中抗-DNA抗体分离和性质的研究

本文用国产高分子树脂(T)接枝小牛胸腺DNA,通过亲合层析从系统性红斑狼疮SLE患者血清中纯化出抗-ds DNA抗体和抗-ss DNA抗体。酶联免疫吸附分析(ELISA)的研究表明:SLE抗-DNA抗体和DNA结合的差异性很大,是高度非均一性的。抗-ss DNA抗体不仅组成成分比抗-ds DNA抗体复杂,ss DNA/抗-ssDNA亲合能力也明显高于ds DNA/抗-ds DNA。纯化的抗-DNA抗体以IgG类抗体占主导,同时也有其它类型抗体存在(例如IgM等)。抗-ds DNA抗体有较抗-ss DNA抗体高的IgG含量(两者的IgG/IgM分别是7.0和4.0),说明IgG抗-DNA抗体更倾向于同dsDNA结合。     

Base specificity and idiotypy of anti-DNA autoantibodies reactive with synthetic nucleic acids

Synthetic nucleic acid reactivities and the distribution of idiotypes associated with poly(dA) and poly(dT) specificities were evaluated among both monoclonal and polyclonal anti-DNA antibodies from autoimmune New Zealand mice. Ten monoclonal anti-DNA antibodies (IgG2a or IgG2b), derived from NZB/NZW mice and reactive with natural DNA (duplex and/or heat-denatured), were found to collectively exhibit a diverse binding pattern with six deoxyribohomopolymers. Several monoclonal antibodies displayed reactivity with poly(dT) comparable to that with natural DNA. Serologic studies indicated that polyclonal anti-DNA autoantibodies from NZW/NZW mice and both parental strains also cross-reacted with various homopolymers and bound preferentially with those containing pyrimidines, particularly poly(dT), relative to purines. Detailed binding analyses with two poly(dT)-reactive monoclonal antibodies demonstrated that stable DNA/anti-DNA complexes were formed with synthetic oligomers containing six to 10 nucleotides; binding to such antigens was relatively insensitive to ionic strength and inversely dependent on temperature. Both antibodies exhibited preferential binding (greater than or equal to 10-fold) with poly(dT) relative to poly(dU), suggesting the importance of the C5-methyl group and/or helical conformation in pyrimidine base recognition. Idiotypes on poly(dA)-specific and poly(dT)-specific monoclonal antibodies were found to be reciprocally distinct, localized at or near active site residues, and expressed at low levels (less than 10 to 130 ng/ml) in anti-DNA sera from all three New Zealand strains. These findings suggest that: nucleotide base determinants are significantly involved in DNA/anti-DNA interactions; poly(dT) represents a major cross-reactive synthetic antigen; and idiotype expression among lupus autoantibodies which recognize such determinants may be diverse.     

Pathogenic autoantibodies in systemic lupus erythematosus are derived from both self-reactive and non-self-reactive B cells

Previous studies have shown that both murine and human anti-double-stranded DNA (anti-dsDNA) antibodies can develop from non-DNA-reactive B cells and suggest a crucial role for somatic mutation in dsDNA binding. However, since only a limited number of human anti-dsDNA antibodies have been analyzed previously, we could not exclude other mechanisms for the generation of anti-dsDNA antibodies in patients with systemic lupus erythematosus (SLE). Therefore, we isolated IgM anti-dsDNA antibodies from peripheral blood B cells of a patient with SLE. Three somatically mutated IgM anti-DNA antibodies with pathogenic potential (glomerular binding) were reverted to their germline configuration. Although all three IgM anti-dsDNA antibodies came from the same lupus patient, they displayed different profiles. Reversion to the germline sequence of autoantibodies A9 and B5 resulted in decreased dsDNA binding. In contrast, the germline form of G3-recognized dsDNA as well as the mutated counterpart. These results suggest that mutated IgM anti-dsDNA antibodies may develop from both DNA- and non-DNA-reactive B cells. The implications are that B cell activation occurs in response to self and non-self antigens, while selection after activation may be mediated by self antigen in SLE. Moreover, ineffective tolerance checkpoints may exist before and after antigen activation in SLE.     

Antibodies against nitric oxide damaged poly L-tyrosine and 3-nitrotyrosine levels in systemic lupus erythematosus

Alterations in the amino acid structure or sequence can generate neo-epitopes from self-proteins causing autoaggressive immune attack. Reactive nitrogen species are an important factor that induces post-translational modification of proteins by cellular reduction and oxidation mechanism; cysteinyl-nitrosylation or tyrosine nitration leading to potentially pathogenic pathways. It was thought of interest to investigate the immunogenicity of nitrated poly L-tyrosine vis-á-vis its possible role in the induction of antibodies in systemic lupus erythematosus (SLE). Commercially available poly L-tyrosine was exposed to nitrating species and the damage was monitored by UV spectroscopy and alkaline gel electrophoresis. The results indicated the formation of 3-nitrotyrosine. Nitrated poly L-tyrosine induced higher titre antibodies as compared to the native form. Nitrated poly L-tyrosine was recognized by the autoantibodies present in the sera of patients suffering from SLE by enzyme immunoassays and band shift assay. The possible role of nitrated self-proteins has been discussed in the production of circulating anti-DNA antibodies in SLE.     

Serum levels of autoantibodies against monomeric C-reactive protein are correlated with disease activity in systemic lupus erythematosus

This study was performed to investigate the relation between IgG autoantibodies against human C-reactive protein (anti-CRP) and disease activity measures in serial serum samples from 10 patients with systemic lupus erythematosus (SLE), of whom four had active kidney involvement during the study period. The presence of anti-CRP was analysed by enzyme-linked immunosorbent assay. The cut-off for positive anti-CRP test was set at the 95th centile of 100 healthy blood donor sera. Specificity of the anti-CRP antibody binding was evaluated by preincubating patient sera with either native or monomeric CRP. Disease activity was determined by the SLE disease activity index (SLEDAI), serum levels of CRP, anti-DNA antibodies, complement components and blood cell counts. Of 50 serum samples, 20 (40%) contained antibodies reactive with monomeric CRP, and 7 of 10 patients were positive on at least one occasion during the study. All patients with active lupus nephritis were positive for anti-CRP at flare. Frequent correlations between anti-CRP levels and disease activity measures were observed in anti-CRP-positive individuals. Accumulated anti-CRP data from all patients were positively correlated with SLEDAI scores and anti-DNA antibody levels, whereas significant inverse relationships were noted for complement factors C1q, C3 and C4, and for lymphocyte counts. This study confirms the high prevalence of anti-CRP autoantibodies in SLE and that the antibody levels are correlated with clinical and laboratory disease activity measures. This indicates that anti-CRP antibodies might have biological functions of pathogenetic interest in SLE. Further prospective clinical studies and experimental studies on effects mediated by anti-CRP antibodies are warranted.     

Lupus prone (SWR x NZB)F1 mice produce potentially nephritogenic autoantibodies inherited from the normal SWR parent

The incidence of nephritis in autoimmune NZB mice is low, but when they are crossed with normal SWR mice, almost 100% of the female F1 hybrids (SNF1) develop lethal glomerulonephritis. To define the contribution of the normal SWR strain to the development of nephritis, we analyzed 65 monoclonal anti-DNA autoantibodies derived from SNF1 mice and compared them with those obtained from the NZB parent. The majority of the SNF1-derived anti-DNA antibodies were IgG and cationic in charge. By contrast, 77% of the NZB-derived antibodies were IgM. Moreover, all three NZB-derived IgG anti-DNA antibodies were anionic. The cationic property of the SNF1-derived IgG autoantibodies was not restricted to any particular antigenic specificity pattern or IgG subclass, nor was there a preference for the allotype of either parent. However, we identified a set of highly cationic (pI at 8.2 to 8.8 pH) IgG2b anti-DNA antibodies from SNF1 hybrids that had the SWR allotype. Isoelectric focusing of intact antibodies and isolated heavy and light chains showed that the highly cationic charge of these antibodies was determined by the variable regions of their heavy chains. Because IgG anti-DNA antibodies with cationic charge are especially pathogenic, those antibodies bearing the allotype of the normal SWR parent may account for the high incidence of severe nephritis in the F1 hybrids. The results indicate that pathogenic autoantibodies, which are encoded by genes of the nonautoimmune SWR parent, are expressed in the SNF1 mice due to some cellular and genetic regulatory influence of the NZB parent.     

High incidence of antinuclear antibodies that recognize the matrix attachment region.

The matrix attachment region (MAR) is a distinctive genomic DNA involved in a variety of nuclear processes through association with the nuclear matrix. Recent studies suggest that nuclear matrix is altered in the process of apoptosis and presented to the immune system, leading to the production of autoantibodies against its protein components. To see whether MARs are also recognized by autoantibodies, a collection of human sera containing antinuclear antibodies was screened for the presence of binding activities against cloned MARs. We found that MAR-binding activities are quite common in these sera. There was a positive correlation among the MAR-binding titers for three different MAR probes. As expected, the MAR-binding activity was copurified with serum IgG, and subclass analysis with affinity-purified IgG on MAR-Sepharose showed a predominance of IgG2 isotype. Several lines of evidence implied that the anti-MAR antibodies detected here is distinct from the ordinary anti-DNA antibodies that are reactive to bulk DNA.