Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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 MRL mouse strain spontaneously produces antinuclear autoantibodies that recognize DNA and the small nuclear ribonucleoprotein (snRNP) antigens. The monoclonal antibody 2.73 was derived from the lupus prone MRL/n line and is reactive with the 70K protein of the U1 snRNP particle. The epitope recognized by 2.73 was characterized by peptide and inhibition ELISA analysis. Several arginine/aspartic acid (RD) repeats of varying lengths are found in the carboxyl terminus of the 70K protein and are responsible for immunoreactivity with 2.73. We investigated the contribution of charge and found that the immunoreactivity of 2.73 and the 70K protein is specific for the RD repeats. The presentation of the epitope may also contribute to the epitopes immunoreactivity with the 2.73 mouse monoclonal autoantibody.
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PMID:Immunochemical analysis of an arginine-rich systemic lupus erythematosus autoepitope. 750 33

MRL/Mp-lpr/lpr (MRL/lpr) mice develop anti-Sm Abs that bind the B and D proteins of the U1 and other U small nuclear ribonucleoproteins (snRNPs). Humans with SLE also develop anti-Sm, but in contrast to MRL/lpr mice, anti-Sm Abs in humans are virtually always accompanied by anti-snRNP Abs that bind the A and 70 kDa proteins of the U1 snRNP. In this study, we identified anti-U1 snRNP Abs in 60% of MRL/lpr mice (40 of 66 animals), with the earliest and most frequent response directed against the A protein. This response was either accompanied or closely followed by Abs to other snRNP proteins, including the 70-kDa protein of the U1 particle and the B and D proteins that represent the anti-Sm response. Other U snRNPs were rarely bound by these sera, analogous to previous observations in human SLE. Using in vitro translated 5' and 3' deletion mutants, we found that these early Abs principally bound an epitope on the COOH-terminal of the murine A protein. As shown previously, human sera with anti-U1 snRNP reactivity bind a similar epitope. In summary, we have shown that anti-snRNP Abs in MRL/lpr mice are composed of a linked group of specificities against proteins of the U1 snRNP particle, similar to human SLE. These observations, in conjunction with our previous findings that intact snRNPs are necessary for diversification of Abs in normal mice immunized with snRNPs, strongly suggests that intact U1 particles may be targets of the immune response in this disease.
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PMID:Pattern of anti-small nuclear ribonucleoprotein antibodies in MRL/Mp-lpr/lpr mice suggests that the intact U1 snRNP particle is their autoimmunogenic target. 751 40

Immunoreactivity of the arginine/aspartic acid (RD) repeats of the 70K protein of U1 small nuclear ribonucleoprotein (snRNP) was determined to be conformationally dependent. The monoclonal autoantibody 2.73, isolated from a lupus-prone MRL/n mouse model, is reactive with the RD repeat regions of U1 snRNP 70K protein. Immunochemical analysis of the antigenic determinants with use of chemically synthesized peptides characterized the 2.73 epitope as the RD repeat [Pelsue, S., et al. (1993) Autoimmunity, 15, 231-236] Analysis by circular dichroism (CD) and nuclear magnetic resonance spectroscopy indicates conformational preferences in the immunoreactive peptides. Computer analyses of CD spectra obtained on the RD-containing peptides predict beta-turns and beta-sheet to be the preferred conformations of the RD repeats. This structure was also predicted by the Chou-Fasman algorithm. The RD repeat is believed to be a conserved structural motif; however, the biological function is still unclear. Immunological and biochemical analysis of autoimmune antibodies and their respective antigenic determinants has helped to characterize the possible mechanisms that lead to autoimmune diseases. This is the first report of a conformationally dependent, linear epitope of an autoantibody.
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PMID:Immunoreactivity between a monoclonal lupus autoantibody and the arginine/aspartic acid repeats within the U1-snRNP 70K autoantigen is conformationally restricted. 752 19

The major small nuclear ribonucleoproteins (snRNPs) U1, U2, U4/U6, and U5 share a set of common proteins denoted B/B', D1, D2, D3, E, F, and G which play an important part in the biogenesis of the snRNPs. In addition, there is a link between the common proteins and autoimmunity; the three D proteins, together with B/B', are the major autoantigens for the so-called anti-Sm antibodies often produced by patients suffering from systemic lupus erythematosus. Here we describe the characterization of the human proteins D2 and D3 by cDNA cloning and immunological methods. D2 and D3 are encoded by distinct genes and are 118 and 126 amino acids in length, respectively. Both proteins prepared by in vitro translation exhibit Sm epitopes and can be precipitated by anti-Sm autoantibodies. They react differently with various patient sera, in a manner consistent with the reaction pattern on immunoblots of the D proteins isolated from HeLa cells. D1 and D2 synthesized in vitro form specific complexes, a result that is significant for the assembly pathway of the various core proteins into an snRNP's core ribonucleoprotein structure. The D3 protein is homologous to the human D1 protein, showing an overall amino acid sequence identity of 29%, including two regions with over 60% identity. D2 has less than 15% sequence identity with D1 and D3. A data bank search revealed a striking similarity (with more than 40% sequence identity) between human D3 and a Saccharomyces cerevisiae gene, previously published as the 5' flanking gene of yeast pep3 [Preston, R.A., Manolson, M., Becherer, K., Weidenhammer, E., Kirkpatrick, D., Wright, R. & Jones, E. (1991) Mol. Cell. Biol. 11, 5801-5812], suggesting that this gene encodes the yeast homologue of the human D3 protein.
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PMID:cDNA cloning of the Sm proteins D2 and D3 from human small nuclear ribonucleoproteins: evidence for a direct D1-D2 interaction. 752 60

Systemic lupus erythematosus is characterized by high titers of autoantibodies directed at multiple proteins of the U1/Sm small nuclear ribonucleoproteins (snRNPs). The origin of this type of autoimmunity, that is, whether it is initiated by foreign molecular mimics or by the self-snRNPs, is not known. In this study using normal mice, we investigated the presence of autoreactive B and T cells to the D protein of murine snRNPs. Although neither B nor T cell responses could be detected after immunization with native self-snRNPs, two synthetic self-peptides corresponding to amino acids 26-40 and 56-70 of the snRNP D protein elicited strong autoreactive T cell proliferation as well as a limited Ab response that bound the self-protein in immunoblots. T cells elicited by these peptides did not respond to stimulation with native snRNPs, suggesting that the peptides are cryptic and are not processed from the native protein for presentation by APCs. After priming with either of these cryptic self-peptides, exposure of the immune system to native murine snRNPs resulted in a diversified response with Abs that immunoprecipitated snRNPs and that produced an antinuclear immunofluorescence pattern on murine cell substrates. These studies demonstrate that autoreactive B and T cells specific for self-snRNPs are components of the normal repertoire of mouse lymphocytes; they have been neither deleted nor irreversibly anergized. Furthermore, we show that a diverse autoimmune response to lupus autoantigens, snRNPs, can originate from self-peptides without the influence of foreign Ags or molecular mimics.
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PMID:Self-peptides in the initiation of lupus autoimmunity. 753

T cells that recognize autoantigens might play an important role in autoimmune diseases. To analyze "autoantigen-reactive T cell" in patients with an autoimmune disease, a human lymphocyte proliferation assay using soluble recombinant autoantigens has been conducted. PBMC from mixed connective tissue disease and SLE patients who possessed anti-U1-small nuclear ribonucleoprotein (snRNP) A autoantibodies responded to a recombinant U1-snRNP A protein. In contrast, PBMC from healthy subjects or autoimmune disease patients not possessing anti-U1-snRNP A autoantibodies did not show such responses. In addition, this proliferative response was inhibited by anti-CD4 mAb. Limiting dilution analyses revealed that the autoantigen-reactive T cells exist in relatively high frequency (1 of 4,065 to 1 of 23,256) in the mixed connective tissue disease patients. Moreover, by T cell epitope mapping, the T cell epitope area was found to be located in the C-terminus of the U1-snRNP A protein, overlapping the B cell epitope area that has been reported. These findings suggest the presence of autoantigen-reactive T cells in such patients, and when these T cells are activated, they may play a central role in the autoantibody generation.
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PMID:Detection and epitope analysis of autoantigen-reactive T cells to the U1-small nuclear ribonucleoprotein A protein in autoimmune disease patients. 768 15

The spliceosomal small nuclear ribonucleoproteins (snRNPs) U1, U2, U4/U6 and U5 share eight proteins B', B, D1, D2, D3, E, F and G which form the structural core of the snRNPs. This class of common proteins plays an essential role in the biogenesis of the snRNPs. In addition, these proteins represent the major targets for the so-called anti-Sm auto-antibodies which are diagnostic for systemic lupus erythematosus (SLE). We have characterized the proteins F and G from HeLa cells by cDNA cloning, and, thus, all human Sm protein sequences are now available for comparison. Similar to the D, B/B' and E proteins, the F and G proteins do not possess any of the known RNA binding motifs, suggesting that other types of RNA-protein interactions occur in the snRNP core. Strikingly, the eight human Sm proteins possess mutual homology in two regions, 32 and 14 amino acids long, that we term Sm motifs 1 and 2. The Sm motifs are evolutionarily highly conserved in all of the putative homologues of the human Sm proteins identified in the data base. These results suggest that the Sm proteins may have arisen from a single common ancestor. Several hypothetical proteins, mainly of plant origin, that clearly contain the conserved Sm motifs but exhibit only comparatively low overall homology to one of the human Sm proteins, were identified in the data base. This suggests that the Sm motifs may also be shared by non-spliceosomal proteins. Further, we provide experimental evidence that the Sm motifs are involved, at least in part, in Sm protein-protein interactions. Specifically, we show by co-immunoprecipitation analyses of in vitro translated B' and D3 that the Sm motifs are essential for complex formation between B' and D3. Our finding that the Sm proteins share conserved sequence motifs may help to explain the frequent occurrence in patient sera of anti-Sm antibodies that cross-react with multiple Sm proteins and may ultimately further our understanding of how the snRNPs act as auto-antigens and immunogens in SLE.
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PMID:snRNP Sm proteins share two evolutionarily conserved sequence motifs which are involved in Sm protein-protein interactions. 774 13

Several small nuclear RNAs (snRNAs), including the spliceosomal U1, U2, U4 and U5 snRNAs, are associated with Sm proteins. These eight small proteins form a heteromeric complex that binds to snRNAs and plays a major role in small nuclear ribonucleoprotein (snRNP) biogenesis and transport. These proteins are also a major target for autoantibodies in the human disease systemic lupus erythematosus. By sequence comparison I have shown that all the known Sm proteins share a common structural motif which might explain their immunological cross-reactivity. Database searches using this motif uncovered a large number of Sm-like proteins from plants, animals and fungi. These proteins have been grouped in at least 13 different subfamilies. Genes encoding divergent yeast members were cloned and used to produce tagged fusion proteins. Some of these proteins are canonical Sm proteins as they associate with the yeast U1, U2, U4/U6 and U5 snRNAs. Surprisingly, one Sm-like protein was found to be a component of the U6 snRNP. These findings have implications for the structure of the Sm protein complex, spliceosomal snRNP evolution, snRNA transport and modification as well as the involvement of Sm proteins in systemic lupus erythematosus.
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PMID:Sm and Sm-like proteins belong to a large family: identification of proteins of the U6 as well as the U1, U2, U4 and U5 snRNPs. 774 14

T cells that recognize autoantigens may play a central role in the autoimmune response. We have previously shown that autoantigen-reactive T cells (CD4+) to U1-small nuclear ribonucleoprotein A were found in the PBMC of patients with systemic lupus erythematosus or mixed connective tissue disease. To reveal clonotypes of such T cells that spread to the periphery, T cell clonal accumulations and their TCR-beta chain variable gene usages in fresh PBMC from eight patients with mixed connective tissue disease were analyzed by a new method of single strand conformation polymorphism applying to TCR gene detection. The results revealed that the numbers of accumulated T cell clones (mean: 24.3 clones) were greater than the numbers of clones detected in healthy donors (mean: 4.0 clones). Frequently used V beta genes in these accumulated T cell clones were V beta 1, 3, 4, 5.2, 14, and 16. After the stimulation for these samples with the soluble recombinant U1-small nuclear ribonucleoprotein A protein, proliferative T cell responses were observed. We found that T cell clones expressing more restricted TCR V beta genes (1, 3, 5.2, and 14 families) accumulated in vitro. These results suggest that autoantigen-reactive oligoclonal T cell accumulations are present in the peripheral blood from systemic autoimmune disease patients.
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PMID:Clonotype analysis of peripheral blood T cells and autoantigen-reactive T cells from patients with mixed connective tissue disease. 793 May 95

Analysis of gene usage can provide insight into the structure, function, molecular genetics and regulation of antibodies, and in the case of autoantibodies perhaps provide immunopathological insight into autoimmune disease. Antibodies reactive with the U1 small nuclear ribonucleoprotein 70 K protein are common in mixed connective tissue disease and systemic lupus erythematosus. The monoclonal antibody 2.73 was spontaneously derived from a lupus-prone mouse and is reactive with 70 K. The polymerase chain reaction was used to amplify heavy and light chain cDNA from the 2.73 hybridoma. Genetic analysis revealed homology with other unrelated antibodies. Immunization of non-autoimmune mice with the purified 2.73 antibody induced autoantibodies towards 70 K and DNA. These results may implicate 2.73 involvement in the generation and/or maintenance of autoantibodies in lupus.
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PMID:Gene usage by an anti-U1 snRNP 70K monoclonal autoantibody derived from a lupus-prone mouse. 803 37


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