UMLS:C0024141 - FACTA Search

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Query: UMLS:C0024141 (systemic lupus erythematosus)
44,322 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The particular histocompatability antigen (HLA) gene(s) that may confer systemic lupus erythematosus (SLE) susceptibility remains unknown. In the present study, 58 unrelated patients and 69 controls have been analyzed for their class I and class II serologic antigens, class II (DR and DQ) DNA restriction fragment length polymorphism, their deduced DQA1 and B1 exon 2 nucleotide sequences and their corresponding amino acid residues. By using the etiologic fraction (delta) as an almost absolute measure of the strongest linkage disequilibrium of an HLA marker to the putative SLE susceptibility locus, it has been found that the strength of association of the HLA marker may be quantified as follows: DQA1*0501 (associated to DR3) or DQB1*0201 (associated to DR3) > non Asp 57 beta DQ/Arg 52 alpha DQ > DR3 > non Asp 57 beta DQ. Thus, molecular HLA DQ markers tend to be more accurate as susceptibility markers than the classical serologic markers (DR3). However, dominant or recessive non Asp 57 beta DQ susceptibility theories, as previously postulated for insulin-dependent diabetes mellitus, do not hold in our SLE nephritic population; indeed, three patients bear neither Arg 52 alpha DQ nor Asp 57 beta DQ suscepibility factors. On the other hand, nonsusceptibility factors are included in our population in the A30B18CF130-DR3DQ2(Dw25) haplotype and not in A1B8CS01-DR3DQ2(Dw24); this distinctive association has also been recorded in type I diabetes mellitus and may reflect the existence of common pathogenic HLA-linked factors for both diseases only in the A30B18CF10DR3DQ2(Dw25) haplotype. Finally, the observed increase of deleted C4 genes (and not 'null' C4 proteins) in nephritic patients shows that C4 genes are disease markers, but probably without a pathogenic role.
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PMID:Differential contribution of C4 and HLA-DQ genes to systemic lupus erythematosus susceptibility. 810 32

Ten percent of human lupus syndromes occur in patients as a result of treatment with certain medications. H-2s mice can produce autoantibodies following treatment with various drugs or heavy metals and they are a potential animal model of drug-induced lupus. We have examined nine anti-chromatin monoclonal antibodies (mAb) from A.SW mice that had been treated with either D-penicillamine or quinidine, two lupus-inducing drugs in humans. These mAb are specific either for DNA or histone-DNA complexes corresponding to nucleo-specific either for DNA or histone-DNA complexes corresponding to nucleosomes or subnucleosome particles. Only one mAb reacts with an unknown chromatin antigen. The V region sequences of six of these mAb were studied and are notable by several features. As previously observed in spontaneous autoantibodies to DNA or histone-DNA complexes, arginine or asparagine residues are found at critical locations throughout the V regions. Many of these residues, potentially important for binding to DNA or DNA-histone complexes, result either from somatic mutations or atypical VH-D-JH rearrangements. Another significant characteristic is that the VH genes of several D-penicillamine- or quinidine-induced mAb are most similar to those of anti-nucleolar mAb obtained from mercury-injected A.SW mice. The implications of these findings for the pathogenesis of spontaneous or induced autoimmunity are discussed.
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PMID:D-penicillamine- and quinidine-induced antinuclear antibodies in A.SW (H-2s) mice: similarities with autoantibodies in spontaneous and heavy metal-induced autoimmunity. 812 39

Anti-DNA IgA autoantibodies play an important immunopathologic role in SLE patients. To analyze the cellular origin and the VH and VL structure of anti-DNA IgA autoantibodies, we generated five IgA1 mAbs to DNA using B lymphocytes from three SLE patients. Two mAbs bound to ssDNA only and one to both ssDNA and dsDNA (monoreactive antibodies). The remaining two mAbs bound to DNA (one to ssDNA and the other to both ssDNA and dsDNA) and to other self and foreign Ag (polyreactive antibodies). The IgA mAb relative avidity for DNA ranged from 7.5 x 10(-8) to 8.0 x 10(-10) g/microliters. The anti-DNA IgA mAb used VH segments of the VHI(VI-3b), VHII (VH2-MC2), VHIII (WHG16G and VH26c), and VHIV (V71-2) families in conjunction with V kappa I, V kappa IIIb, or V lambda I segments. All IgA mAb VH segments were juxtaposed with JH4b segments. The heavy chain CDR3 sequences were divergent in composition and length. When compared with those of the closest reported germ line genes, the IgA mAb VH and VL gene sequences displayed a number of differences. That these differences represented somatic point mutations was formally proved in both the monoreactive IgA mAb 412.67.F1.3 and the polyreactive IgA mAb 412.66.F1 VH segments by differential PCR amplification and cloning and sequencing of genomic DNA from the mAb-producing cell lines and autologous polymorphonuclear cells. The sequences of the germ line genes that putatively gave rise to the mAb 412.67.F1.3 and mAb 412.66.F1 VH segments were identical with those of the WHG16G and VH26c genes, respectively. In not only the monoreactive mAb 412.67.F1.3 but also the polyreactive mAb 412.66.F1 and mAb 448.9G.F1 VH segments, the higher concentration of replacement (R) mutations and the higher R:S (silent) mutation ratios in the complementarity-determining region (infinity; 19:0) than in the framework region (1.0) (p = 0.00001, chi 2 test) were highly consistent with selection by Ag. In the five IgA mAb VH and VL segments, the putative and verified somatic point mutations yielded 68 amino acid replacements, of which 38 were nonconserved. Twenty of these yielded positively charged or polar residues that play a major role in DNA binding, including seven Arg, five Lys, three Tyr, two Gln, two His, and a Thr. The conserved amino acid changes included seven Asn. These findings suggest that anti-DNA IgA autoantibodies use a broad selection of VH and VL genes and enhance their fit for Ag by undergoing somatic hypermutation and Ag selection.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Structure of the VH and VL segments of monoreactive and polyreactive IgA autoantibodies to DNA in patients with systemic lupus erythematosus. 814 8

A monoclonal antibody (9G4) which detects an idiotope (Id) rising from heavy chains encoded by the VH4-21 gene segment has been utilized to investigate the role of this gene in encoding anti-DNA antibodies in SLE. Two hybridomas secreting Id-positive anti-DNA antibodies were established from two patients with SLE, with one (RT-79) an IgM kappa and the other (D-5) IgG kappa. Nucleotide sequence analysis of the heavy chain variable regions revealed involvement of the VH4-21 gene; the IgM antibody used the gene in germ line configuration, whereas the IgG antibody had 18 nucleotide changes. The CDR3 sequences for both the antibodies had a predominance of basic amino acids, with RT-79 having five and D-5 two arginine residues respectively. The VH4-21 gene segment, often in germ line configuration, is also used by IgM autoantibodies against red cell Ii antigens. However, IgM from a panel of six hybridomas secreting antibodies of Ii specificity, had no detectable activity against DNA. Conversely, RT-79 had only a weak ability to agglutinate red cells. Comparisons of Ig variable regions indicate that the amino acids in the CDR3 region of the mu chain influence the ability of IgM encoded by the VH4-21 gene segment to discriminate between a carbohydrate Ii antigen and DNA, and strongly support the suggested role of arginine in interaction with DNA. Sera from patients with SLE were found to have significantly raised levels of Id which was expressed by anti-DNA antibodies against both ss and dsDNA.
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PMID:Utilization of the VH4-21 gene segment by anti-DNA antibodies from patients with systemic lupus erythematosus. 815 58

Autoantibodies to ribonucleoproteins (RNP) occur prominently in human systemic lupus erythematosus and murine lupus models. In previous studies we demonstrated a relationship in MRL/Mp-lpr/lpr (MRL/lpr) mice between antibodies to Sm, an RNP autoantigen, and antibodies to DNA. Thus, many anti-Sm monoclonals bound DNA and expressed the same V region genes as anti-DNA. In addition, many had multiple VHCDR3 Arg residues suggestive of selection by DNA, and some had somatic mutations suggesting selection for mutant B cells by DNA. To determine whether autoantibodies to other RNP antigens are also associated with the anti-DNA response, we have analyzed the response to the La RNP. Six anti-La B cell hybridomas were generated from a single MRL/lpr mouse. Southern blot analysis of Ig V gene rearrangements and V gene sequences indicated two clonally related pairs, suggesting an oligoclonal response. Antibodies from all six hybridomas bound single-stranded DNA, while antibodies from five hybridomas bound double-stranded DNA. Two hybridomas expressed a VH7183 gene which is used by members of two previously reported anti-DNA clones and two anti-Sm/DNA clones of MRL/lpr origin. These data demonstrate an association between the anti-La and anti-DNA responses in MRL/lpr mice, suggesting that cross-reactive anti-RNP and anti-DNA responses are a general feature of autoimmunity in this lupus model.
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PMID:The anti-La response of a single MRL/Mp-lpr/lpr mouse: specificity for DNA and VH gene usage. 820 93

The histone H2A-H2B dimer is a component of nucleosomes in chromatin and a frequent target of autoantibodies in spontaneous and drug-induced lupus. We obtained a panel of several lgG mAbs reacting with H2A-H2B or DNA from MRL mice which develop a spontaneous lupus-like syndrome. Several of these antibodies do not react with individual histones, but bind strongly to the H2A-H2B dimer and some bind even more strongly to the H2A-H2B-DNA complex. Moreover, these antibodies not only bind to H2A-H2B dimers in the absence of DNA, but also exhibit significant binding to DNA in the absence of histones, indicating an overlap between the anti-histone and anti-DNA specificities. The analysis of the variable region gene sequences of these antibodies shows a recurrent usage of similar VH genes, suggesting a dominant role for the heavy chain in determining binding specificity. The heavy chain third complementarity determining regions of these antibodies are also remarkable for their frequency of D-D fusions and of D segments read in unusual reading frames and for many arginine residues that may contribute to DNA binding. In addition, several antibodies obtained from an individual mouse are clonally related and some differ through somatic mutations, indicating that autoreactive clones are positively selected by nuclear antigens.
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PMID:Relationships among antinuclear antibodies from autoimmune MRL mice reacting with histone H2A-H2B dimers and DNA. 831 54

Immunization of normal mice with bacterial DNA induces a significant anti-DNA response that includes antibodies resembling some lupus anti-DNA in their binding properties, although lacking specificity for mammalian dsDNA. To determine the structure of these induced antibodies and their relationship to anti-DNA from lupus mice, we have characterized the clonality and selected V-region sequences of a panel of 20 anti-DNA antibodies from 3 BALB/c mice immunized with ssDNA from Escherichia coli. Southern blot analysis of H and L chain rearrangements indicated that two of the animals expressed pairs of clonally related antibodies. Amino acid sequences of 10 of the induced antibodies demonstrated predominant utilization of J558 family VH genes and JH4 in association with various DH, J kappa and V kappa genes. Among the VH CDR3 of these 10 antibodies, 4 displayed arginine residues as a result of N region additions. None of these antibodies, however, had more than one arginine residue in VH CDR3 nor arginines at positions 100 or 100a, characteristic features of lupus antibodies to dsDNA. These results suggest that normal mice immunized with bacterial DNA display certain facets of DNA Ag drive, although lacking the mechanisms for the production of antibodies to mammalian dsDNA.
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PMID:Molecular characterization of anti-DNA antibodies induced in normal mice by immunization with bacterial DNA. Differences from spontaneous anti-DNA in the content and location of VH CDR3 arginines. 833 32

Human monoclonal anti-single/double-stranded (ss/ds) DNA antibodies (NE-1 and NE-13) expressed cross-reactive idiotypes (Id), NE-1 Id, which have been detected on the lupus glomeruli-deposited anti-DNA antibodies. The nucleotide sequences of the variable regions of NE-1 and NE-13 clones were analogous except for one nucleotide difference in the Vk region. The VH and Vk gene segments of NE-13 clone were identical with germline genes VH4.21 and Vb (or Vb'), respectively. CDR3s of NE-1 and NE-13 heavy chains were arginine rich and CDR1s contained an amino acid stretch, SGYY, the inverted sequence of YYGS, which was shared among CDR3s of several anti-DNA antibodies. Clonal frequency analysis using a limiting dilution method revealed that NE-1 Id-positive clones at precursor cell level increased in lupus patients. These findings suggest that some IgM anti-DNA clones which express NE-1 Id associated with lupus nephritis use germline genes without mutation and they may be preferentially expanded at the precursor cell levels as well as at the mature cell level.
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PMID:Human B-cell clones expressing lupus nephritis-associated anti-DNA idiotypes are preferentially expanded without somatic mutation. 838 26

The origin and structure of two clonally unrelated IgG anti-DNA autoantibodies from lupus-prone MRL/Ipr mice were examined. One of these antibodies, H241, binds dsDNA and glomeruli and deposits in the kidneys of normal mice, whereas the other, H102, binds only ssDNA and does not deposit in kidneys. The VH genes of these two antibodies were almost identical to each other and were frequently expressed in anti-DNA antibodies derived from lupus-prone mice. Six other clonally unrelated anti-DNA antibodies from the literature or from data banks expressed nearly identical VH genes (< or = 4 nucleotide differences) and eight others had nearly identical protein sequences (< or = 3 amino acid differences). Analysis of the germ line with oligonucleotide probes from the CDR regions suggests that all 10 autoantibodies are derived from a single member of the J558 gene family, which is present only in mice with the j haplotype for the J558 gene family. The amount of somatic mutation in these VH genes appears to be low, suggesting that some V, N, and D gene combinations can generate high affinity IgG anti-DNA auto-antibodies with little or no somatic mutation. Unusual reading frames, D-D fusions, and inversions were common in the IgG antibodies and may have been co-selected. Although the N and D regions of one IgM and all five IgG autoantibodies contained Arg residues, the presence of Arg residues was not correlated with binding to dsDNA or with pathogenicity. These results suggest that differences in the Ag-binding properties and the pathogenicity of these antibodies are determined by the CDR3 region and the L chain.
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PMID:Independently derived IgG anti-DNA autoantibodies from two lupus-prone mouse strains express a VH gene that is not present in most murine strains. 840 27

Autoantibodies specific for the Sm ribonucleoprotein are spontaneously produced in patients with SLE and in mice of the MRL mouse strains. We have previously reported the characterization of the clonality and V region gene use of 41 MRL/Mp-lpr/lpr (MRL/lpr)-derived B cell hybridomas selected for Sm binding. In this report, we show that many of the expressed V genes of these hybridomas are also expressed by anti-DNA hybridomas of MRL/lpr mice. Moreover, the anti-Sm hybridomas from nine clonal groups produce antibodies that bind ssDNA, and those of five clones produce antibodies that also bind dsDNA. Sm/DNA-specific hybridomas, but not Sm-only-specific hybridomas, have a higher than expected content of arginine residues in CDR3 of the H chain, similar to MRL/lpr hybridomas selected on the basis of DNA binding. One clone displays intraclonal differences in DNA binding, inasmuch as the most extensively mutated members produce antibodies that are able to bind dsDNA and have a higher affinity for ssDNA than the least mutated members of this clone. Thus, DNA appears to be a selecting Ag in this response. These data indicate an overlap in the anti-Sm and anti-DNA autoimmune responses in MRL mice that may have implications for the activation of anti-Sm B cells, and for defining the spectrum of Ag targeted in SLE.
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PMID:Overlap of the anti-Sm and anti-DNA responses of MRL/Mp-lpr/lpr mice. 843 94

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