Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C0024141 (systemic lupus erythematosus)
 44,322 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

SS-B/La is a conserved cellular phosphoprotein of 46 to 48 KD that is the target antigen of autoantibodies in sera of patients with Sjogren's syndrome and systemic lupus erythematosus. SS-B/La is also known to be associated with certain small cellular and viral RNA, including adenovirus VAI and VAII RNA. Two relatively protease-resistant domains (X and Y) were defined in SS-B from HeLa cells by using human autoantibodies as reagents. Domain X, a methionine-containing nonphosphorylated 28 KD polypeptide, was found to be resistant to partial digestion with six different proteases. Similar domains were also found in calf and rabbit SS-B. Domain Y, a 23 KD polypeptide, was detected after limited digestion with S. aureus V8 and trypsin. This domain contained little if any methionine, but all the detectable phosphorylated amino acids. Among 16 anti-SS-B sera tested by immunoblotting, 11 (69%) were reactive with both domains, three (19%) only with domain X, and two (13%) only with domain Y. These results showed that there are at least two distinct antigenic epitopes on the 46 to 48 KD SS-B/La protein, each located on a separate structural domain. The asymmetric distribution of methionine and phosphorylated amino acid residues in SS-B/La show striking similarity to the two reported domains of the adenovirus 72 KD DNA-binding protein, and raises questions concerning functional similarities that await investigation.
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PMID:Epitopes, structural domains, and asymmetry of amino acid residues in SS-B/La nuclear protein. 242 60

Anti-SS-A/Ro autoantibodies are found in the sera of patients with Sjogren's syndrome (SS) and SLE. In the course of analyzing 61 SS patients for their autoantibody profiles, we found that 42 were positive for anti-SS-A by double diffusion in agarose and demonstrated precipitin lines identical to that produced by a prototype anti-SS-A serum. Further analysis of these SS-A antibody-positive sera by Western blotting of cell extracts revealed that 21 sera reacted with two proteins of 60 and 52 kD, 13 sera reacted with 52-kD protein, two detected only 60 kD, while six were nonreactive. Affinity-purified anti-60-kD and anti-52-kD antibodies reacted exclusively with their corresponding antigens. Partial proteolysis of these proteins did not reveal common degradation fragments. Thus the 52- and 60-kD proteins were found to be antigenically and apparently structurally distinct from each other. They were also distinct from 48-kD SS-B/La protein. In immunoprecipitation using labeled cell extracts, affinity-purified anti-52-kD antibodies brought down the 52-kD protein as well as the 60-kD band. In [32P]orthophosphate-labeled HeLa cell extract both antibodies precipitated the same spectrum of small RNAs (hYl-5). In indirect immunofluorescence, anti-52-kD and anti-60-kD antibodies immunolocalized in similar subcellular structures and showed similar punctate nuclear staining patterns. Western blot analysis revealed that both proteins were present in lymphocytic as well as epithelial human cell lines tested. The data above define a new antigen of 52 kD which is another component of the SS-A particle and is associated in complex formation with the previously reported 60-kD protein.
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PMID:A 52-kD protein is a novel component of the SS-A/Ro antigenic particle. 336 95