Gene/Protein Disease Symptom Drug Enzyme Compound
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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 8.12 idiotype is an anti-DNA-associated Id present on lambda L chains that are expressed at high titers in 50% of patients with systemic lupus erythematosus. Since this Id can be present on as much as a third of a patient's anti-DNA antibodies and is found in renal glomeruli, 8.12 is thought to be a marker for a subset of pathogenic anti-DNA auto-antibodies. A molecular analysis of the 8.12 positive antibodies was designed to explore the genetic basis of this Id. Monoclonal human B cell lines were generated by transformation with EBV and lambda L chain-secreting lines were analyzed for Id expression and V region gene usage. In this panel of Ig lambda cell lines, the 8.12 idiotype is encoded exclusively by members of the V lambda II gene family. The sequences of several 8.12+ and 8.12- V lambda II genes are reported here and are used to map the 8.12 Id to the vicinity of CDR1, as well as to further characterize the large and polymorphic V lambda II gene family.
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PMID:The anti-DNA-associated idiotype 8.12 is encoded by the V lambda II gene family and maps to the vicinity of L chain CDR1. 143 Nov 28

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

RNA sequences for the V regions of human hybridoma-produced autoantibodies were determined by primer extension with reverse transcriptase. The sequencing of IgM autoantibodies from a leprosy patient revealed examples of recurrent use of V region gene segments in different autoantibodies from this patient and a previously studied patient with SLE. Moreover, several gene segments used in these autoantibodies show little alteration from germ-line sequences. mAb TH3, from a patient with leprosy, binds denatured DNA and poly(dT). The center of its H chain CDR35 has a sequence identical to that found previously in two anti-DNA antibodies from a lupus patient; these identities and their overlapping with two other published sequences define a human D-gene segment of approximately 25 nucleotides. Autoantibody TH9, from a leprosy patient, does not bind DNA. Its VH sequence has 87% identity with a VHI anti-DNA antibody, but differs from it markedly in the CDR1 region. TH9 also has a different H chain CDR3. The closely related JH4 or JH5 gene segments are expressed in five lupus or leprosy autoantibodies. In four of the antibodies, examples of V kappa 1, V kappa 3, or V kappa 4 and J kappa 2, or J kappa 5 segments were found. Two distinct leprosy-derived anti-DNA antibodies, 8E10 and TH3, share a completely identical V kappa sequence. This sequence differs in only two positions from that of a germ-line RF L chain gene. Several gene segments that are close to the germ line in sequence encode Ig V regions with autoantibody reactivity. These results provide a base line for determining whether these genes are precursors of more highly diversified antibodies that may be pathogenic in patients with SLE.
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PMID:The recurrent expression of variable region segments in human IgM anti-DNA autoantibodies. 249 86

The complete amino acid sequences of the variable regions of the heavy and light chains of a human IgM monoclonal platelet-binding autoantibody have been determined. This antibody, HF2-1/17, produced by a human x human hybridoma prepared from lymphocytes of a patient with systemic lupus erythematosus and thrombocytopenia, is polyreactive with single-stranded DNA, synthetic polynucleotides, sulfated carbohydrates, and acidic glycolipids isolated from platelet membranes. The heavy chain is of the VHIII subgroup, and the light chain is of the VKI subgroup. The heavy chain is the expression product of the VH26 germline gene. The light chain bears significant homology to other immunoglobulins of known primary structure, including WEA, GAL, HAU, HK101, and DEE. These results suggest that HF2-1/17 may be an autoantibody derived with little or no modification from germline genes. A model of the antibody combining site suggests that arginine 24 and arginine 30 in the light chain (CDR1) interact with a surface defined by phosphate or sulfate groups of the antigen.
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PMID:Amino acid sequence of a platelet-binding human anti-DNA monoclonal autoantibody. 250 2

Antibodies to DNA similar to those found in patients with systemic lupus erythematosus (SLE) and autoimmune mice can be derived from the lymphocytes of normal individuals. It is not known whether these normal derived anti-DNA antibodies are made from the same VH gene elements as the anti-DNA antibodies made by SLE patients. To begin to answer this question, we examined mu chain cDNA clones from human hybrid clone C6B2 producing anti-DNA antibodies. The sequence of the 500 base pair restriction fragment containing the variable region (5' terminus) was determined and was sequenced. This antibody uses a VHII heavy chain subgroup gene, a J3 joining segment, a hitherto unknown D segment, and a previously reported leader sequence. Significant homology was found to a mouse anti-DNA antibody sequence in the use of VH subgroup in J3, and in the hypervariable regions with a shared Ser-Tyr construction in CDR1 and an identical five amino acid residue stretch in CDR2. Comparison with the limited sequence data of published SLE monoclonal anti-DNA antibodies, both human and mouse, suggests that this shared Ser-Tyr may be important in some but not all antibodies to DNA. Comparison of C6B2 antibody is made with other known antibody sequences with identification of those residues likely to be part of the antigen binding site.
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PMID:Identification and sequence of the VH gene elements encoding a human anti-DNA antibody. 311 73

We studied reactivity of affinity-purified human IgG anti-F(ab')2 antibodies for antigenic determinants on kappa light chains. Variable (VL) and constant (CL) regions of a human kappa I light chain (EU) were studied for enzyme-linked immunosorbent assay reactivity with monoclonal anti-k antibodies and human IgG antiF(ab')2 using overlapping heptamers of primary sequence synthesized as peptides on polypropylene pins. Polyclonal IgG anti-F(ab')2 antibodies isolated by affinity chromatography from the serum of patients with systemic lupus erythematosus (SLE) were found to react primarily with CDR1- and CDR3-related peptides. The most reactive residues included IL29, TRY32, LEU33, ALA34, GLU90, TYR91, and ASN 92. No striking difference in overall V-region anti-F(ab')2 reactivity profiles was noted when 10 IgG anti-F(ab')2 preparations from normal subjects and SLE patients were compared. In contrast, however, when tested against overlapping C kappa heptamer sequences, the reactivity in SLE-associated anti-F(ab')2 antibodies was markedly decreased. We report that this difference may reflect a defect in anti-idiotypic control mechanisms in SLE.
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PMID:IgG anti-F(ab')2 antibodies from SLE patients react with immunodominant residues in kappa CDRs, but show reduced C kappa region reactivity. 758 48

Immunoglobulins and their close relatives, the antigen-specific T-cell receptors, are recognition proteins that express structures which readily serve as self-immunogens. Healthy humans can produce antibodies against variable region-defined recognition structures termed idiotypes, as well as against constant region structures, and the levels of these can increase markedly in autoimmune disease; e.g., rheumatoid factors are autoantibodies directed against a conformational determinant of the gamma heavy chain. More recent analyses employing synthetic peptide technologies and construction of recombinant T-cell receptors document that autoantibodies directed against both variable and constant region markers of the alpha/beta T-cell receptor occur in healthy individuals. Alterations in levels of antibody, usage of IgM or IgG isotypes, and specificity for particular peptide-defined regions vary with natural physiological processes (aging, pregnancy), with artificial allografting, with retroviral infection, and with the inception and progression of autoimmune disease (e.g., rheumatoid arthritis, systemic lupus erythematosus). Two of the major autoimmunogeneic regions of the Tcr alpha/beta are "constitutive" markers inasmuch as all individuals tested produce antibodies against these regions. The most frequently observed autoantibodies are against Tcr V beta CDR1 and Fr3 markers. It is hypothesized that these are normally involved in immunoregulation. Autoantibodies usually are not detected against CDR2 region determinants, or the "private idiotypes" defined by the CDR3 region, or the highly conserved FR4 segment specified by the joining gene segment. However, autoantibodies against the CDR2 of the Tcr alpha chain occur in some SLE patients, and healthy pregnant women produce antibodies against the common peptide determinant expressed by the joining gene and the beginning of the C alpha or C beta domain. Although the precise role of the naturally occurring autoantibodies in immunoregulation remains to be determined, modification of the course of autoimmune diseases in experimental rodent models (experimental allergic encephalomyelitis) has been successfully carried out by immunization with synthetic peptides corresponding to the CDR2 and Fr3/CDR3 segments, and immunization of humans with synthetic V beta CDR2 segments may prove helpful in multiple sclerosis. Moreover, infusion of intravenous immunoglobulins has been successful in the treatment of many autoimmune diseases, including examples where levels of T cells bearing particular V beta gene subsets were elevated. The recent knowledge gained from T-cell receptor structural analysis and antigenic modeling holds promise for determining the roles of particular variable domain structures in antigen recognition MHC-restriction and immunoregulation, and in the development of synthetic and recombinant reagents for modulation of autoimmune and infectious diseases.
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PMID:Synthetic autoantigens of immunoglobulins and T-cell receptors: their recognition in aging, infection, and autoimmunity. 793 45

We used synthetic peptides duplicating the structures of a human lambda light chain (Mcg), and a human T-cell receptor (Tcr) alpha and a Tcr beta chain predicted from gene sequence to determine the presence and loci of activity of natural human autoantibodies directed against these antigen recognition molecules. We report that normal individuals and patients suffering from autoimmune diseases have antibodies directed against regions of lambda light chains and Tcr beta chains corresponding to the first complementarity determining region and the third framework region of the variable domain and to constant region determinants. The levels of IgM natural antibodies particularly against the CDR1 peptides tend to be higher in RA patients than in normals or SLE patients. Although polyclonal IgG immunoglobulins from healthy individuals did not show detectable reactivity to Tcr alpha peptides, such reactivity was found in the IgM immunoglobulins of RA patients, thereby showing that Tcr alpha peptides can be autoantigenic in man. The levels of IgM autoantibodies to V beta CDR1 peptides tend to decrease with age. By contrast, there was a marked increase in IgG natural autoantibodies to certain CDR1 sequences with advancing age. We suggest that the natural antibodies to defined regions of immunoglobulins and T-cell receptors are part of a physiological network for the regulation of the immune response.
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PMID:Naturally occurring human autoantibodies to defined T-cell receptor and light chain peptides. 797 28

To investigate the structural contribution of the light chain of anti-DNA antibodies to fine specificity, the VKappa genes of two monoclonal anti-DNA antibodies, termed H241 and H102, were cloned and sequenced. H102 and H241 are independently derived from MRL-lpr/lpr mice and differ in their fine specificity: H241 binds dsDNA and normal glomeruli in vitro and deposits in the kidney in vivo, whereas H102 binds only ssDNA and does not deposit in the kidney. Both are encoded by nearly identical VH genes but different N and D regions. Our previous results have demonstrated that the VH gene for H102 and H241 encodes eight other anti-DNA antibodies that also differed in fine specificity. This suggested that the gene product encoded by the VH 102/241 gene, may have intrinsic affinity for DNA, but is unlikely to determine fine specificity or nephritogenicity. In the present study we examined whether the VKappa gene might account for the difference in nephritogenicity. The complete nucleotide and deduced amino acid sequence of VK 102 and VK241 revealed that they are very dissimilar to each other (< 60% homology). VK 241 defined a new member of the VKappa gene family and was moderately homologous to two other VK genes encoding anti-DNA antibodies and to one VK gene encoding an anti-histone antibody all from lupus strains of mice. In addition, sequence diversity in the VK CDR1 region and position 96 of the CDR3 region was observed that may be of significance in determining fine specificity. VK 102 was highly homologous to two other VKappa genes, VKs17.2 and VK C8.5, both encoding anti-DNA antibodies and members of the VK20 gene family. It was striking that all three members of the VK 20 gene family code for DNA reactivity. This suggests that certain VKappa genes may also be used to repeatedly code for anti-DNA reactivity.
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PMID:The role of VL gene structural determinants in the fine specificity of anti-DNA antibodies. 799 57

Normal individuals possess low levels of autoantibodies specific for certain peptide defined regions of T-cell receptor (Tcr) variable regions, particularly CDR1 and Fr3. These regions are predicted to be exposed on the surface of the native molecule and, by analogy and comparison with immunoglobulins, correspond to public idiotype determinants. The anti-Tcr idiotype antibodies appear to be ubiquitous and we propose that they play a role in the regulation of T-cell function. To delineate the parameters of expression of these antibodies, we characterized anti-Tcr antibody activity in normal individuals, in those suffering from the autoimmune diseases rheumatoid arthritis (RA) and systemic lupus erythematosus (SLE), and in patients with non-autoimmune arthritis (osteoarthritis) as a disease control. There were significant increases in autoantibody levels in the autoimmune patients. There was also variation in isotype and the particular variable regions recognized. IgM autoantibodies directed against a few peptide defined determinants were elevated in RA, whereas SLE patient sera showed high levels of IgG binding to a broad spectrum of Tcr peptides.
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PMID:Autoregulation of Tcr V region epitopes in autoimmune disease. 864 7


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