Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0409974 (lupus)
 22,386 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A relatively large number of variable region genes (V) contribute, via gene rearrangements with smaller numbers of additional gene elements (D and J), to generate diversity in the immune response. While some VH gene families are thought to contain 100- 1000 members, the VH10 family has only two known functioning members with 99% sequence homology. Both members (monoclonal antibodies) are capable of binding DNA, and since they were derived from inbred mice afflicted with the lupus syndrome they are considered autoimmune antibodies. Relative uniqueness of the VH10 primary nucleotide sequence presents a model system with which to examine unrearranged VH genes and attempt to identify germline genes eventually expressed as autoantibodies. PCR amplified germline sequences of the VH10 family are highly conserved, with few base substitutions evenly distributed between both framework and CDR regions. It was determined that the PCR amplified germline sequences are highly similar to the DNA sequences of the two monoclonal VH10 antibodies, and a non-functional psuedo-germline gene was found that is identical to a non-functional cDNA derived from a hybridoma cell line. These findings indicate that the use of unique CDR DNA sequences for the identification and amplification of specific germline V genes via PCR can yield vital information that may answer fundamental questions about the origins of autoimmune anti-DNA antibodies in afflicted individuals. The nature of the germline gene populations and the possible microheterogeniety of these genes may prove to be important in understanding the role of autoimmune antibodies in normal and diseased individuals.
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PMID:Autoimmune VH gene family: PCR-generated murine germline VH10 genes. 155 50

The V region sequences of two anti-DNA (A52, D42) and two anti-RNA (D44, D444) autoantibodies, derived from lupus prone NZB/NZW F1 female mice, were determined by mRNA sequencing. The sequences had the following features: 1) there was no clear sequence relationship between anti-DNA and anti-RNA antibodies; 2) there were no major similarities between any of the L chain sequences and each VL gene segment belonged to a different mouse VK subgroup; 3) the H chains of the two anti-RNA antibodies showed closely related sequences of VH gene segments and very similar third complementarity determining regions (CDR3); 4) the H chains of the two anti-DNA antibodies had VH segments belonging to different VH gene families but had a unique and similar combination of D segments and junctional sequences, suggesting a common recognition element for Ag and/or for idiotypic regulation in the H chain CDR3; and 5) the VH gene segment of one anti-DNA antibody (D42) was found to be very similar to the VH gene segment of a CBA mouse hybridoma antibody (6G6) which binds to the environmental Ag phosphocholine. The three-dimensional structure of the Fv-region of the anti-DNA antibody (D42) was modeled by computer and a stretch of poly(dT), ssDNA was docked to a cleft in the antibody combining site, formed by the three H chain CDR and by CDR1 and CDR3 of the L chain. The cleft is characterized by a preponderance of arginine and tyrosine residues, lining both the walls and base of the cleft.
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PMID:V region sequences of anti-DNA and anti-RNA autoantibodies from NZB/NZW F1 mice. 245 27

We investigated idiotypic markers of monoclonal antibodies derived from patients with polyclonal B-cell activation. Four monoclonal antibodies with different ligand binding specificities derived from a patient with lepromatous leprosy and three monoclonal anti-DNA antibodies from two patients with SLE were studied. Three new public idiotopes, which were common to monoclonal antibodies from all three patients, were defined by five polyclonal rabbit antiidiotypes, two monoclonal mouse antiidiotopes, and a monoclonal mouse antibody against a synthetic peptide that contains residues of the heavy chain CDR-1 of a monoclonal lupus anti-DNA antibody. The antibody against the synthetic idiotype was found to react with native immunoglobulins in solution. One idiotope was found to be consistently immunogenic in all animals tested. Since the three patients are of different ethnic origins, these shared idiotypes are probably encoded by germline V genes. These genes may be recurrently expressed in states of polyclonal B-cell activation, regardless of etiology. The results suggest that some autoantibodies arise by expansion of a pool of precursors in the normal antibody repertoire.
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PMID:Idiotypic markers of polyclonal B cell activation. Public idiotypes shared by monoclonal antibodies derived from patients with systemic lupus erythematosus or leprosy. 349 14

Identification of the immunochemical and structural properties of pathogenic anti-DNA antibodies is a major goal for understanding their origins and the mechanisms whereby they induce tissue lesions. Herein, we report on the production of an IgG2a,k anti-DNA monoclonal antibody (4B1), derived from a 12-month-old (NZB x NZW)F1 lupus mouse, able to form glomerular immune deposits. mAb 4B1 is a polyspecific antibody able to bind to ssDNA, actin, tubulin, cardiolipin and to laminin as shown by solid phase ELISAs. Indirect immunofluorescence labeling of HEp-2 cells gave a cytoplasmic staining pattern similar to that obtained with anti-cytoskeleton antibodies. Western blot analysis demonstrated that mAb 4B1 bore idiotype D23, previously shown to be characteristic of natural antibodies derived from normal mice. After injecting the 4B1-secreting hybridoma intraperitoneally into normal (NZW x BALB/c)F1 mice, glomerular immune deposits were observed along the capillary wall. These deposits contained mainly IgM, IgG2a and mAb 4B1, as demonstrated by direct immunofluorescence using a biotinylated-rat anti-4B1 idiotype mAb and kidney eluate analysis. Nucleotide sequence analysis of the VH and VL genes showed that mAb 4B1 is encoded by VH Q52, DSP2.9 and JH2 genes with minimal mutations and by VK8 very similar to the canonic D23 light chain, and JK1 germline genes. No arginine residues were observed in the VH CDR and both chains lacked N-segment addition. Thus, no structural characteristics deduced from the primary structure of mAb 4B1 could explain its pathogenic potential. However, the immunochemical and structural properties suggest that autoantibodies closely related to natural autoantibodies may be pathogenic.
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PMID:An idiotype D23-bearing polyspecific, murine anti-DNA monoclonal antibody forms glomerular immune deposits. Pathogenic role of natural autoantibodies? 754 Feb 57

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

Antiphospholid antibodies (APL) have a notable association with recurrent miscarriages, arterial and venous thrombosis and thrombocytopenia. Analysis of the potential pathogenic effects of such human antibodies has been hampered by the considerable difficulty in producing IgG as opposed to IgM monoclonal immunoglobulins. We have developed four human monoclonal IgG APL (LJ1, AH2, DA3 and UK4) by fusing the peripheral blood lymphocytes of three patients with SLE with a mouse human heteromyeloma cell line, CB-F7. These antibodies bind to a variety of anionic phospholipids, two (LJ1 and AH2) bind total histones but none binds to ssDNA or dsDNA. Binding to beta 2 GPI is non-specific. UK4 alone demonstrates lupus anticoagulant activity. All four have lambda light chains, two are IgG1 (AH2 and UK4) and two are IgG3 (LJ1 and DA3). These APL utilize VH genes present in the fetally restricted repertoire and multiple somatic mutations in the CDR suggest an antigen-driven process. In contrast, there is no restriction in V lambda gene usage and only one lambda chain is extensively mutated. Two clonally related hybridomas were isolated from a single patients. This supports the theory that clonal expansion is the mechanism whereby antigen selects high affinity mutations.
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PMID:The production, binding characteristics and sequence analysis of four human IgG monoclonal antiphospholipid antibodies. 908 Feb 99

IgA antibodies in the mucosal immune system are produced specifically to environmental antigens such as virus and bacteria, and possibly to some food components, which will provide a potential luminal antigen, DNA. To study the immune response to DNA in the gut, we established B-cell hybridomas producing IgA monoclonal antibodies (mAb) from Peyer's patches (PP) of non-immunized, non-autoimmune, specific pathogen-free BALB/c mice, and examined their specificity by enzyme-linked immunosorbent assay (ELISA). Three mAb out of 18 bound strongly to self, bacterial and synthetic DNA, with Kd of about 10-7 m. One of the three mAb also reacted with the histone component and another reacted with some mouse food component. The VH genes of these three mAb have not previously been reported to have anti-DNA specificity, and carry putative somatically mutated sites favouring DNA binding in CDR. The features resemble those of anti-DNA antibodies found in human and murine models of systemic lupus erythmatosus (SLE), and are indicative of an antigen-driven selection process. Our findings suggest that even in normal healthy animals, anti-DNA antibodies of IgA isotype can be produced in certain peripheral environments such as in PP by spontaneous antigenic stimulation.
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PMID:Anti-DNA IgA autoantibodies are spontaneously generated in mouse Peyer's patches. 982 76

We have used single and multiple site-directed mutagenesis, and molecular modeling, to identify critical residues in the DNA binding site of MAb 2C10, an IgG anti-dsDNA autoantibody from an MRL/lpr lupus mouse. Simultaneous replacement of four Arg residues in the CDR3H abolished binding activity. With one exception, replacement of any one of these Arg residues reduced the activity to 20-50% of the unmutated scFv activity. Arg to Asp replacements had a slightly greater effect than Arg to Ala replacements. In the one exceptional case, replacement of Arg99 with Ala actually increased DNA binding five-fold and replacement by Asp had little effect. Mutation of Phe32 and Asn35 to A1a in CDRIH decreased DNA binding, whereas replacement of Arg31 with A1a had negligible effect. Ala substitution of any one of a cluster of Asp residues in CDR1L increased DNA binding three to six-fold, confirming previous findings that the L-chain of MAb 2C10 is not favorable for DNA binding. The L-chain does participate in shaping the selectivity of antigen binding, and mutation of CDR3L residue Asp92 or Asn93 caused a decrease in DNA binding activity. Directed mutagenesis, consistent with a molecular model, indicates that: several CDR amino acids contribute to DNA binding, without one residue dominating; both VH and VL CDR3 domains contribute to specificity of binding whereas the CDR1L hinders DNA binding. The results suggest a significant role for electrostatics in the interaction of DNA with MAb 2C10.
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PMID:The structural basis for DNA binding by an anti-DNA autoantibody. 1019 94

Anti-dsDNA antibodies tend to be enriched for heavy chain complementarity determining region 3 (CDR-H3) intervals of above average length that contain an increased frequency of charged amino acids. It is unclear whether these types of CDR-H3s are more common in the primary B-cell repertoire of auto-immune prone strains or whether their increased prevalence in affected individuals reflects positive selection and expansion of atypical CDR-H3s in the pathogenic response to self-antigen. Here, we present evidence that when compared to C3H, a MRL/MpJ(2+) parental strain, CDR-H3 intervals from pre-B cells of adult lupus-prone MRL/MpJ(2+) mice are longer on average and are enriched for charged amino acids. The predicted prevalence of deformed loops per Shirai H3 criteria is also higher. In contrast, the frequency of charge, the distribution of length, and the pattern of predicted deformed loop structures did not differ in sequences obtained from neonates of the same two strains. These observations suggest that the mechanisms that serve to shape the initial CDR-H3 repertoire in adults, but not neonates, are being regulated differently in C3H versus MRL/MpJ(2+). Dysregulation of the adult pre-B CDR-H3 antibody repertoire could be a contributing factor for the development of florid auto-immune disease in MRL/MpJ(2+) mice.
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PMID:Adult lupus-prone MRL/MpJ2+ mice express a primary antibody repertoire that differs in CDR-H3 length distribution and hydrophobicity from that expressed in the C3H parental strain. 1582 67

Expansion of autoreactive T cells and their resistance to anergy was demonstrated in systemic lupus erythematosus (SLE). A pair of transcription factors, early growth response 2 (Egr-2) and 3 (Egr-3), are negative regulators of T cell activation that were shown to be important in anergy. A peptide (designated hCDR1 for human CDR1) based on the CDR-1 of an anti-DNA Ab ameliorated SLE in both induced and spontaneous lupus models. Our objectives were to determine the expression levels of Egr-2 and Egr-3 in autoreactive T cells following immunization with the lupus-inducing anti-DNA Ab that bears a common Id designated 16/6Id and also in a full-blown SLE and to determine the effect of hCDR1 on these transcription factors. We demonstrated diminished expression levels of Egr-2 and Egr-3 mRNA both early after immunization with the 16/6Id and in SLE-afflicted (NZB x NZW)F1 (New Zealand Black and New Zealand White) mice. Furthermore, by down-regulating Akt phosphorylation and up-regulating TGFbeta secretion, treatment with hCDR1 significantly up-regulated Egr-2 and Egr-3 expression. This was associated with an increased expression of the E3 ligase Cbl-b. Inhibition of Akt in T cells of immunized mice decreased, whereas silencing of the Egr-2 and Egr-3 in T cells of hCDR1-treated mice increased IFN-gamma secretion. Thus, hCDR1 down-regulates Akt phosphorylation, which leads to up-regulated expression of T cell Egr-2 and Egr-3, resulting in the inhibition of IFN-gamma secretion that is required for the maintenance of SLE.
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PMID:A peptide that ameliorates lupus up-regulates the diminished expression of early growth response factors 2 and 3. 1820 54


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