Identification of three major target molecules of IgM antilymphocyte autoantibodies in systemic lupus erythematosus

Three cell lymphocyte antigens of m.w. 55,000, 70,000, and 105,000 to 110,000 were identified by Western blotting as targets of IgM autoantibodies in serum from a group of 49 patients with systemic lupus erythematosus. The 55- and 70-kDa antigens were well expressed on unstimulated peripheral T cells, whereas the 105- to 110-kDa target was demonstrable only on mitogen-activated T cells and lymphoblastoid T cell lines. Localization of these molecules to the plasma membrane was established by cytoabsorption experiments in which IgM antibody staining of blotted antigens was specifically absorbed from systemic lupus erythematosus serum during 4 degrees C incubations with intact lymphocytes, and by their detection in purified lymphocyte plasma membranes. While the identity of these target antigens vis a vis known surface determinants was not defined, their expression on peripheral T cells from multiple donors and on cell lines of both undifferentiated (HSB-2) and phenotypically mature (Jurkat; HUT 78) types excluded alloantigens, major histocompatibility complex-encoded determinants, and most T cell differentiation antigens as candidates in this regard. Expression of the IgM autoantibody targets on HSB-2 cells argues against discrete T subset specificities as well. IgM reactivity with the 55-, 70-, and 105- to 110-kDa antigens by blotting was highly correlated with antilymphocyte antibody activity in complement-dependent cytotoxicity assays (Fisher's p less than 0.001), and paralleled flow microfluorimetric and microcytotoxicity quantitation of IgM antibody activity in serial observations of individual patients studied during different phases of disease activity. Taken together, these data suggest that IgM lymphocytotoxic antibodies in systemic lupus erythematosus are directed predominantly against a limited number of non-T cell subset-specific antigens.     

Ribosomal protein autoantibodies in systemic lupus erythematosus

Autoantibodies to three eukaryotic 60S ribosomal phosphoproteins P0, P1 and P2 have been found in the sera of 10–20% of patients with systemic lupus erythematosus (SLE). These three proteins share a common epitope contained within the carboxy terminal 22 amino acids of each protein. Because central nervous system disturbances, with major behavioural disorders, occur in a significant fraction of SLE patients, the antiribosomal autoantibodies were measured in this subset of SLE individuals to determine whether or not there was an association. This antibody is present in 90% of SLE patients who were diagnosed as having psychosis, secondary to the disease.     

Identification of autoantibodies associated with systemic lupus erythematosus

Systemic lupus erythematosus (SLE) is an autoimmune disease characterized by the presence of antinuclear antibodies. We performed serological analysis of cDNA expression library (SEREX) to identify autoantibodies associated with SLE. The screening of three different cDNA expression libraries with pooled sera of patients with SLE yielded 11 independent clones that reacted with pooled sera of patients with SLE. In this screening, autoantibodies to poly(ADP-ribose) polymerase (PARP), U1snRNP, and galectin-3 were prevalent in the sera of patients with SLE (26/68, 25/68, 12/63, respectively). The frequency of autoantibody to PARP was significantly higher in SLE than that of healthy donors (0/76) (38.2% vs 0%, p<0.00001). The autoantibody to PARP was infrequently detected in the serum of patients with RA (1/50). However, autoantibody to PARP was not found in the sera of patients with other rheumatic diseases including Sjogren's syndrome (0/19), systemic sclerosis (0/18), and polymyositis/myositis (0/37). The frequency of autoantibody to human galectin-3 (12/63) was significantly higher in SLE than that of healthy donors (0/56) (19% vs 0%, p=0.0006). Autoantibody to galectin-3 was not found in the sera of patients with rheumatoid arthritis (0/50), Sjogren's syndrome (0/18), and systemic sclerosis (0/19). Interestingly, autoantibody to galectin-3 was also prevalent in the sera of patients with polymyositis/dermatomyositis (16/37, 43.2%). Further functional characterization of these autoantibodies would be necessary to determine their value as diagnostic markers or to define clinical subsets of patients with SLE. Statistical analysis revealed that the presence of autoantibody to PARP was inversely related with pleurisy, and the presence of autoantibody to galectin-3 related with renal disease.     

TWEAK as a target for therapy in systemic lupus erythematosus

Tumor necrosis factor (TNF)-like weak inducer of apoptosis (TWEAK) is a recently identified proinflammatory cytokine of the TNF superfamily. Through activation of the fibroblast growth factor-inducible 14 (Fn14) receptor, TWEAK regulates cell proliferation, cell death and inflammation. The available evidences have indicated that TWEAK might be a target for therapeutic intervention in renal, vascular injury and neuropathy. Since renal, vascular and neuropsychiatric complications are frequently encountered in systemic lupus erythematosus (SLE)—a systemic autoimmune disease, TWEAK-Fn14 pathway may be implicated in the pathogenesis of SLE. In this review, we will discuss the TWEAK-Fn14 pathway and the therapeutic potential of modulating this pathway in SLE.     

TIM-3 as a new therapeutic target in systemic lupus erythematosus

T-cell immunoglobulin- and mucin-domain-containing molecule-3 (TIM-3) was the first surface molecule that specifically identifies Th1 cells in both mice and human. Recently, identification of Galectin-9 as a ligand for TIM-3 has established the TIM-3–Galectin-9 pathway as an important regulator of Th1 immunity and tolerance induction. Many previous studies have demonstrated that TIM-3 influences chronic autoimmune diseases, such as multiple sclerosis and rheumatoid arthritis. In addition, association of TIM-3 polymorphisms with susceptibility to several autoimmune diseases has been identified. Recent work has explored the role of TIM-3 in systemic lupus erythematosus (SLE), and their results indicate that TIM-3 may represent a novel target for the treatment of SLE. In this review, we will discuss the TIM-3 pathway and the therapeutic potential of modulating the pathway in SLE.     

IgG subclasses of autoantibodies in systemic lupus erythematosus, Sjogren's syndrome, and drug-induced autoimmunity

The IgG subclasses displayed by autoantibodies were examined in patients with systemic rheumatic diseases. Solid-phase assays performed with purified antigens were combined with a set of four mouse monoclonal antibodies specific for each human subclass to provide quantitative data for all the major autoantibody specificities. IgG1 accounted for an average of 55% of the total antibody activity to native and denatured DNA, Sm antigen, and histone and constituted significantly more anti-SS-B and anti-nRNP (84% and 92%, respectively). The remaining antibody activity consisted largely of IgG3, and this subclass was particularly prominent with anti-histone and anti-Sm in patients with systemic lupus erythematosus. In contrast, IgG2 constituted 3 to 12% of the anti-native and anti-denatured DNA and less than 5% of the anti-SS-B/La activity in only three patients with Sjogren's syndrome. IgG2 was essentially undetectable in antibodies to Sm and RNP antigens. IgG4 was also uncommon, although this isotype was significantly more prevalent in anti-histone from patients treated with procainamide showed that the isotype distribution of anti-histone and anti-denatured DNA remained remarkably constant. However, during periods of large increases in autoantibody activity, a shift from predominantly IgG3 to predominantly IgG1 occurred, consistent with the interpretation that there might be a sequential activation of heavy chain constant regions as the immune response matures. The disproportionately high levels of IgG1 and IgG3 displayed by all the autoantibody specificities examined may indicate that a common immunogenic feature of autoantigens or a common control mechanism underlies the regulation of autoantibody expression.     

系统性红斑狼疮患者血清中CD83 与自身抗体的表达及其相互关系

目的:检测系统性红斑狼疮(systemic lupus erythematosus,SLE)患者血清中 CD83(soluble CD 83,sCD 83)和多种自身抗体的表达水平,并探讨其相互关系.方法:ELISA 检测患者可溶性 CD 83 和AnuA的表达,应用间接免疫荧光的方法检测抗cmDNA 抗体,应用乳凝法检测血清中的DNP,采用胶体金标记和快速膜渗滤技术测定血清中的抗 dsDNA 抗体.结果:对照组患者血清中可溶性 CD83 的表达为(0.26±0.10)ng/ml,实验组患者血清中可溶性 CD83 的表达为(5.56±0.72)ng/mI.与对照组相比,实验组患者血清中可溶性CD 83的平均浓度明显升高.在抗dsDNA抗体阴性的 51 例系统性红斑狼疮患者中 AnuA 的阳性率明显高于抗DNP 抗体和抗 cmDNA 抗体,同样在抗 DNP 抗体阴性的 58 例系统性红斑狼疮患者中 AnuA 的阳性率明显高于 dsDNA 抗体和抗 cmDNA 抗体.系统性红斑狼疮患者中可溶性 CD83 的水平(<2.68 ng/ml)与各种自身抗体(抗 dsDNA 抗体、AnuA、抗DNP抗体和抗 cmDNA 抗体) 水平的相关系数分别为(r＝0.542,0.613,0.489和0.367).具有高水平可溶性CD83的系统性红斑狼疮患者( ≥2.68 ng/ml),与各种自身抗体(抗dsDNA抗体,AnuA,抗 DNP 抗体和抗cmDNA 抗体)水平的相关系数分别为(r＝0.711,P<0.05)、(r＝0.845,P<0.01)、(r=0.862,P<0.01)和(r=0.724,P<0.051).结论:可溶性CD83通过活化DC细胞并激活补体系统,参与系统性红斑狼疮的发生发展,联合可溶性 CD83 和多种自身抗体的检测,能更明确系统性红斑狼疮患者病情的严重程度,有利于 SLE 的诊断和治疗.     

系统性红斑狼疮患者血清中CD83与自身抗体的表达及其相互关系

目的：检测系统性红斑狼疮（systemic lupus erythematosus,SLE）患者血清中CD83（soluble CD 83,sCD 83）和多种自身抗体的表达水平,并探讨其相互关系。方法：ELISA检测患者可溶性CD 83和AnuA的表达,应用间接免疫荧光的方法检测抗cmDNA抗体,应用乳凝法检测血清中的DNP,采用胶体金标记和快速膜渗滤技术测定血清中的抗dsDNA抗体。结果：对照组患者血清中可溶性CD 83的表达为（0.26±0.10）ng/ml,实验组患者血清中可溶性CD 83的表达为（5.56±0.72）ng/ml。与对照组相比,实验组患者血清中可溶性CD 83的平均浓度明显升高。在抗dsDNA抗体阴性的51例系统性红斑狼疮患者中AnuA的阳性率明显高于抗DNP抗体和抗cmDNA抗体,同样在抗DNP抗体阴性的58例系统性红斑狼疮患者中AnuA的阳性率明显高于dsDNA抗体和抗cmDNA抗体。系统性红斑狼疮患者中可溶性CD83的水平（〈2.68 ng/ml）与各种自身抗体（抗dsDNA抗体、AnuA、抗DNP抗体和抗cmDNA抗体）水平的相关系数分别为（r=0.542,0.613,0.489和0.367）。具有高水平可溶性CD83的系统性红斑狼疮患者（≥2.68 ng/ml）,与各种自身抗体（抗dsDNA抗体,AnuA,抗DNP抗体和抗cmDNA抗体）水平的相关系数分别为（r=0.711,P〈0.05）、（r=0.845,P〈0.01）、（r=0.862,P〈0.01）和（r=0.724,P〈0.051）。结论：可溶性CD83通过活化DC细胞并激活补体系统,参与系统性红斑狼疮的发生发展,联合可溶性CD83和多种自身抗体的检测,能更明确系统性红斑狼疮患者病情的严重程度,有利于SLE的诊断和治疗。     

High prevalence of autoantibodies to RNA helicase A in Mexican patients with systemic lupus erythematosus

Introduction

Autoantibodies to RNA helicase A (RHA) were reported as a new serological marker of systemic lupus erythematosus (SLE) associated with early stage of the disease. Anti-RHA and other autoantibodies in Mexican SLE patients and their correlation with clinical and immunological features were examined.

Methods

Autoantibodies in sera from 62 Mexican SLE patients were tested by immunoprecipitation of ³⁵S-labeled K562 cell extract and enzyme-linked immunosorbent assay (anti-U1RNP/Sm, ribosomal P, β2GPI, and dsDNA). Anti-RHA was screened based on the immunoprecipitation of the 140-kDa protein, the identity of which was verified by Western blot using rabbit anti-RHA serum. Clinical and immunological characteristics of anti-RHA-positive patients were analyzed.

Results

Anti-RHA was detected in 23% (14/62) of patients, a prevalence higher than that of anti-Sm (13%, 8/62). Prevalence and levels of various autoantibodies were not clearly different between anti-RHA (+) vs. (-) cases, although there was a trend of higher levels of anti-RHA antibodies in patients without anti-U1RNP/Sm (P = 0.07). Both anti-RHA and -Sm were common in cases within one year of diagnosis; however, the prevalence and levels of anti-RHA in patients years after diagnosis did not reduce dramatically, unlike a previous report in American patients. This suggests that the high prevalence of anti-RHA in Mexican patients may be due to relatively stable production of anti-RHA.

Conclusions

Anti-RHA was detected at high prevalence in Mexican SLE patients. Detection of anti-RHA in races in which anti-Sm is not common should be clinically useful. Racial difference in the clinical significance of anti-RHA should be clarified in future studies.     

Identification of three new autoantibodies associated with systemic lupus erythematosus using two proteomic approaches

Our objective was to identify new serum autoantibodies associated with systemic lupus erythematosus (SLE), focusing on those found in patients with central nervous system (CNS) syndromes. Autoantigens in human brain proteins were screened by multiple proteomic analyses: two-dimensional polyacrylamide gel electrophoresis/Western blots followed by matrix-assisted laser desorption/ionization time-of-flight mass spectrometry analysis and immunoprecipitation followed by liquid chromatography-tandem mass spectrometry shotgun analysis. The presence of serum IgG autoantibodies against 11 selected recombinant antigens was assessed by Western blot and enzyme-linked immunosorbent assay (ELISA) in the sera of 106 SLE patients and 100 normal healthy controls. The O.D. values in sera from SLE patients were significantly higher than those of controls for the antigens crystallin αB (p = 0.0002), esterase D (p = 0.0002), APEX nuclease 1 (p < 0.0001), ribosomal protein P0 (p < 0.0001), and PA28γ (p = 0.0005); the first three are newly reported. The anti-esterase D antibody levels were significantly higher in the CNS group than in the non-CNS group (p = 0.016). Moreover, when the SLE patients were categorized using CNS manifestations indicating neurologic or psychiatric disorders, the anti-APEX nuclease 1 antibody levels were significantly elevated in SLE patients with psychiatric disorders (p = 0.037). In conclusion, the association of SLE with several new and previously reported autoantibodies has been demonstrated. Statistically significant associations between anti-esterase D antibodies and CNS syndromes as well as between anti-APEX nuclease 1 antibodies and psychiatric disorders in SLE were also demonstrated. The combined immunoproteomic approaches used in this study are reliable and effective methods for identifying SLE autoantigens.     

Prothrombin binds to the surface of apoptotic,but not viable,cells and serves as a target of lupus anticoagulant autoantibodies

Anti-phospholipid Ab (aPL) are a heterogeneous group of autoantibodies directed against various combinations of phospholipids (PL) and PL-binding proteins. Lupus anticoagulant (LA) Ab, a subset of aPL, exhibit anticoagulant properties in vitro, but are procoagulant in vivo. Most LA Ab are specific for either beta(2)-glycoprotein I (beta(2)GPI) or prothrombin (PT), two PL-binding proteins. We have previously shown that beta(2)GPI and beta(2)GPI-dependent aPL bind specifically to apoptotic, but not viable, thymocytes. In this study, we demonstrate that PT, like beta(2)GPI, binds selectively to the surface of apoptotic, but not viable, Jurkat cells. Furthermore, PT supports the binding of systemic lupus erythematosus-derived polyclonal and murine monoclonal LA Ab to apoptotic cells. Two LA mAb, which differed dramatically in their relative affinities for PT, were studied. Although one mAb (29J3-62) had a high affinity for PT alone, the other (29I4-24) showed minimal reactivity with PT alone and required PL for elevated binding. Monovalent fragments of 29I4-24 reacted with PL-bound PT with high affinity, suggesting that this mAb recognizes a PL-dependent epitope. Despite these differences, PT-dependent binding of both mAb to apoptotic cells was 30-fold greater than that to viable cells. Moreover, binding of PT to apoptotic cells was, itself, increased in the presence of bivalent, but not monovalent, forms of either mAb. In summary, our data demonstrate the following: 1) specific binding of PT to apoptotic cells, an effect enhanced by PT-dependent LA Ab; 2) heterogeneity of PT-dependent LA Ab; and 3) potential pathogenicity of Ab of either low or high affinity for PT.     

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.     

Interleukin-21 as a potential therapeutic target for systemic lupus erythematosus

Interleukin-21(IL-21) is the most recently discovered member of the type-I cytokine family. Structurally, IL-21 shows homology to IL-2, 4, and 15 proteins. It has a variety of effects on the immune system, including B cell activation, plasma cell differentiation, and immunoglobulin production. Many previous studies have identified that IL-21 was associated with different autoimmune and inflammatory diseases, such as rheumatoid arthritis, multiple sclerosis and inflammatory bowel disease. In addition, recent work has explored the role of IL-21 in systemic lupus erythematosus (SLE). Elevated expression of IL-21 was found in the sera of patients and mice with SLE. Moreover, association of IL-21 and IL-21R polymorphisms with susceptibility to SLE have been reported. All these findings suggest that IL-21 may have promise as a potential therapeutic target for SLE. In this review, we will discuss the biological features of IL-21, the IL-21 signaling and its potential role in SLE.     

Phosphorylation of RNA polymerase I augments its interaction with autoantibodies of systemic lupus erythematosus patients

Purified RNA polymerase I was phosphorylated by the endogenous protein kinase or dephosphorylated by alkaline phosphatase and used as antigen in a radioimmunoassay with sera from systemic lupus erythematosus patients or serum from an immunized rabbit. Enzyme incubated in the absence of ATP or phosphatase served as control. Three to seven times more of the autoantibodies in the patients' sera reacted with phosphorylated RNA polymerase I than with control enzyme. The reactivity of the dephosphorylated enzyme with lupus autoantibodies was only 50-60% of that observed with control enzyme. Neither phosphorylation nor dephosphorylation of the enzyme had an effect on its reaction with the rabbit antibodies. The effect of phosphorylation on the reaction of each RNA polymerase I subunit (S1-S8; Mr = 190,000-17,000) with the patients' antibodies was determined by an immunoblot procedure following resolution of the subunits on polyacrylamide gels. Prior phosphorylation of the enzyme resulted in a dramatic increase in binding of each patient's antibodies to all polymerase subunits with the exception of S4. Anti-S4 antibody was not detected with either phosphorylated or control enzyme. Strikingly, antibodies in each patients' sera reacted with S6 only after its phosphorylation. Similarly, anti-S5 antibodies in the serum of one patient were only detected with phosphorylated RNA polymerase I. The present data suggest that at least a significant fraction of the anti-RNA polymerase I autoantibodies in the sera of systemic lupus erythematosus patients might be directed against phosphorylated sites on the enzyme and that phosphorylation may have a role in the production of this and other autoimmunogenic nuclear components which are hallmarks of this disease.     

To target or not to target APRIL in systemic lupus erythematosus: that is the question!

Among the cytokines that regulate B-cell homeostasis are the TNF-like ligands B-lymphocyte stimulator (BLyS; also B-cell activation factor) and a proliferation-inducing ligand (APRIL). BLyS and APRIL share two receptors; that is, B-cell maturation antigen and transmembrane activator and CAML interactor. Therapeutic approaches using biologics are limited for treatment of lupus patients. One previously approved drug is belimumab, which antagonizes the B-cell stimulator BLyS. Atacicept, another biologic inhibiting BLyS and APRIL, was terminated for serious adverse events - raising the question of whether APRIL should be neutralized in autoimmune diseases.Treamtrakanpon and coworkers analyzed B-lymphocyte stimulator (BLyS; also B-cell activation factor) and a proliferation-inducing ligand (APRIL) expression in patients with lupus nephritis and observed a correlation with renal disease activity and APRIL serum levels [1]. In addition, the authors describe that, upon treatment with immunosuppressors, nonresponding patients had higher APRIL serum levels. They thus concluded that APRIL could be a potential biomarker for predicting difficult-to-treat cases of lupus nephritis, and propose the use of APRIL antagonists such as atacicept for treatment of lupus nephritis patients with high APRIL serum levels.These conclusions might be premature, as Treamtrakanpon and coworkers have not found a correlation between the level of APRIL in kidney tissue and renal disease activity. Another hypothesis could be that APRIL has a protective effect in autoimmune diseases. Indeed, the crucial role of BLyS in B-cell maintenance became evident by the analysis of BLyS-deficient mice displaying lower numbers of mature B cells and of BLyS transgenic mice developing severe B-cell hyperplasia. Although APRIL can trigger different B-cell responses in vitro, including proliferation and survival of human and murine B cells, it is less critical than BLyS in B-cell maintenance as APRIL knockout and transgenic mice reveal no gross abnormalities in lymphoid homeostasis [2]. In fact, APRIL was found to modulate specific B-cell responses such as IgA isotype switching, increased IgM secretion and B1 cell activity.Meanwhile, BLyS is an established promoter of B-cell-triggered autoimmmune diseases such as systemic lupus erythematosus and rheumatoid arthritis, whereas the role of APRIL in these pathologies is rather controversial. Neutralizing BLyS with the mAb belimumab displayed a modest, although statistically significant, therapeutic effect in systemic lupus erythematosus [3,4]. But blocking both BLyS and APRIL with atacicept (TACI-Fc) was associated with a pronounced reduction of immunoglobulins, and occurrence of serious infections led to a premature termination of a phase II/III trial in lupus nephritis [5]. The combination of mycofenolate mofetil with atacicept may have contributed to the decrease of immunoglobulins. However, at acicept combined with another drug such as methotrexate in patients with rheumatoid arthritis was also associated with a significant reduction of immunoglobulins (especially IgM). In this autoimmune disease, atacicept failed to demonstrate efficacy on American College of Rheumatology 20 criteria [6]. In contrast, administration of belimumab showed a modest but significant efficacy using the same evaluation criteria in rheumatoid arthritis [7].These findings suggest distinct roles for BLyS and APRIL in lupus and other B-cell-mediated autoimmune diseases. Elevated serum levels are found for both cytokines in lupus patients, and for BLyS there is a consensus in the literature that this reflects its disease-promoting activity. Elevated APRIL serum levels, however, have been - depending on the respective study - either positively or negatively correlated with disease features [8]. One possible explanation for this discrepancy could be differences in the patient cohorts analyzed. A recent study by Jacob and colleagues analyzed a murine lupus model in APRIL-deficient mice and observed elevated numbers of splenocytes, increased autoantibody production and a tendency towards increased IgG production [9]. Notably, ectopic APRIL expression does not result - in contrast to BLyS transgenic mice - in lupus-like symptoms. In fact, we found that APRIL does dampen collagen-induced arthritis, the most common mouse model for human arthritis [10].Experimental mouse models for autoimmune diseases obviously cannot entirely mimic human diseases. Nevertheless, in vivo data are accumulating that do not support a disease-supporting role for APRIL in B-cell-mediated autoimmunity. The study by Treamtrakanpon and colleagues is putting forward the need to better elucidate the role of APRIL in B-cell-driven diseases before concluding a therapeutic approach.     

Autoantigen microarrays reveal autoantibodies associated with proliferative nephritis and active disease in pediatric systemic lupus erythematosus

IntroductionPediatric systemic lupus erythematosus (pSLE) patients often initially present with more active and severe disease than adults, including a higher frequency of lupus nephritis. Specific autoantibodies, including anti-C1q, anti-DNA and anti-alpha-actinin, have been associated with kidney involvement in SLE, and DNA antibodies are capable of initiating early-stage lupus nephritis in severe combined immunodeficiency (SCID) mice. Over 100 different autoantibodies have been described in SLE patients, highlighting the need for comprehensive autoantibody profiling. Knowledge of the antibodies associated with pSLE and proliferative nephritis will increase the understanding of SLE pathogenesis, and may aid in monitoring patients for renal flare.MethodsWe used autoantigen microarrays composed of 140 recombinant or purified antigens to compare the serum autoantibody profiles of new-onset pSLE patients (n = 45) to healthy controls (n = 17). We also compared pSLE patients with biopsy-confirmed class III or IV proliferative nephritis (n = 23) and without significant renal involvement (n = 18). We performed ELISA with selected autoantigens to validate the microarray findings. We created a multiple logistic regression model, based on the ELISA and clinical information, to predict whether a patient had proliferative nephritis, and used a validation cohort (n = 23) and longitudinal samples (88 patient visits) to test its accuracy.ResultsFifty autoantibodies were at significantly higher levels in the sera of pSLE patients compared to healthy controls, including anti-B cell-activating factor (BAFF). High levels of anti-BAFF were associated with active disease. Thirteen serum autoantibodies were present at significantly higher levels in pSLE patients with proliferative nephritis than those without, and we confirmed five autoantigens (dsDNA, C1q, collagens IV and X and aggrecan) by ELISA. Our model, based on ELISA measurements and clinical variables, correctly identified patients with proliferative nephritis with 91 % accuracy.ConclusionsAutoantigen microarrays are an ideal platform for identifying autoantibodies associated with both pSLE and specific clinical manifestations of pSLE. Using multiple regression analysis to integrate autoantibody and clinical data permits accurate prediction of clinical manifestations with complex etiologies in pSLE.

Electronic supplementary material

The online version of this article (doi:10.1186/s13075-015-0682-6) contains supplementary material, which is available to authorized users.