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)

We recently reported the association of the allele coding for Arg at the position 196 (196R: nucleotide [nt] 587G) of tumor necrosis factor receptor 2 (TNFR2, TNF-R75) with systemic lupus erythematosus (SLE) in Japanese. In the present study, we completed the variation screening of the entire coding region of TNFR2. Three new single nucleotide polymorphisms within the coding sequence (cSNPs), as well as several variations within the promoter, introns and 3'-untranslated region (3' UTR), were identified. Among the new SNPs, nt168G, a synonymous substitution (K56K), was in tight linkage disequilibrium with nt587G. Two other cSNPs, nt543 (C-->T) (P181P) and nt694 (G-->A) (E232K), were not significantly associated with SLE. Thus, among the non-synonymous cSNPs, only nt587 (T-->G) (M196R) was found to be significantly associated with SLE in Japanese.
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PMID:New single nucleotide polymorphisms in the coding region of human TNFR2: association with systemic lupus erythematosus. 1119 92

Fibrinogen Matsumoto V (M-V) is a dysfibrinogen identified in a 52-year-old woman with systemic lupus erythematous. The triplet AGG encoding the amino acid residue Aalpha19 was replaced by GGG, resulting in the substitution of Arg-->Gly. Residue Aalpha19 has been shown to be one of the most important amino acids in the so-called 'A' site or alpha-chain knob. The thrombin-catalyzed release of fibrinopeptide A from M-V fibrinogen was only slightly delayed yet release of fibrinopeptide B was significantly delayed. Both thrombin-catalyzed fibrin polymerization and fibrin monomer polymerization were markedly impaired compared to normal fibrinogen. In addition, reptilase-catalyzed fibrin polymerization of M-V was much more impaired than thrombin-catalyzed fibrin polymerization. These results indicate 'B' and/or 'b' site of M-V fibrinogen play a more important role in thrombin-catalyzed fibrin polymerization than that of normal control fibrinogen.
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PMID:Fibrinogen Matsumoto V: a variant with Aalpha19 Arg-->Gly (AGG-->GGG). Comparison between fibrin polymerization stimulated by thrombin or reptilase and fibrin monomer polymerization. 1120 60

We have investigated the molecular basis of selective and complete C1s deficiency in 2-year-old girl with complex autoimmune diseases including lupus-like syndrome, Hashimoto's thyroiditis, and autoimmune hepatitis. This patient's complement profile was characterized by the absence of CH50 activity, C1 functional activity <10%, and undetectable levels of C1s Ag associated with normal levels of C1r and C1q Ags. Exon-specific amplification of genomic DNA by PCR followed by direct sequence analysis revealed a homozygous nonsense mutation in the C1s gene exon XII at codon 534, caused by a nucleotide substitution from C (CGA for arginine) to T (TGA for stop codon). Both parents were heterozygous for this mutation. We used the new restriction site for endonuclease Fok-1 created by the mutation to detect this mutation in the genomic DNA of seven healthy family members. Four additional heterozygotes for the mutation were identified in two generations. Our data characterize for the first time the genetic defect of a selective and complete C1s deficiency in a Caucasian patient.
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PMID:Molecular basis of a selective C1s deficiency associated with early onset multiple autoimmune diseases. 1139 May 18

Located at the 30 kb genomic region between complement factor B and component C4 are four ubiquitously expressed genes RD, SKI2W, DOM3Z and RP1. Besides RP1, the protein products of the other three genes each has highly conserved homologues or related proteins in lower eukaryotes, contains leucine zipper motifs for protein interaction, and plays important roles related to RNA metabolism. RD is a subunit of the negative transcription elongation factor, critical for the regulation of gene expression. It has an RNA recognition motif and 24 copies of Arg-Asp (RD) repeats. Ski2w is a nucleolar and cytoplasmic protein that has a putative RNA helicase domain. Fusion proteins of human Ski2w expressed in insect cells and bacteria have ATPase activity. The cytoplasmic protein of human Ski2w is associated with the polysomes and probably the 40S subunit of ribosomes. Ski2w is probably involved in the regulation of translation and RNA turnover. Dom3z is a nuclear protein whose yeast homologue forms a complex with an exoribonuclease. RP1 (or STK19) is a Ser/Thr nuclear protein kinase. No homologues of RP1 in lower eukaryotes have been discovered. Six polymorphic residues are present in human Ski2w and two in Dom3z. The potential roles of Ski2w and Dom3z on the clearance of degraded nuclear and cytoplasmic RNA raised their possibilities as susceptibility genes of systemic lupus erythematosus that is a disease with flawed processes in the removal of apoptotic materials.
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PMID:Features of the two gene pairs RD-SKI2W and DOM3Z-RP1 located between complement component genes factor B and C4 at the MHC class III region. 1148 1

Arginase and nitric oxide synthase (NOS) compete for the same substrate, L-arginine. The reciprocal regulation of arginase and NOS in L-arginine-metabolizing pathways has recently been demonstrated. Since NOS is involved in the inflammation of human arthritides, we hypothesized that this reciprocal regulation might also occur within the inflamed synovium. The present study shows that both serum arginase activity and protein levels were significantly higher in patients with rheumatoid arthritis (RA) than in patients with systemic lupus erythematosus (SLE) or osteoarthritis (OA) or in healthy controls. Arginase protein concentrations in supernatants of monocyte cultures from RA patients were also significantly higher than in those from SLE or OA patients or healthy controls. In RA patients, there was a significant correlation between the serum concentrations of arginase protein and rheumatoid factor (r = 0.82, p < 0.0001). These data indicate that increased arginase production is seen in RA patients, but not in other immune-related diseases, suggesting that increased arginase production is unique to, and may play an important role in, the pathogenesis of RA disease.
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PMID:Arginase levels are increased in patients with rheumatoid arthritis. 1159 62

Antibodies to DNA are characteristic of the autoimmune disease systemic lupus erythematosus (SLE) and they also serve as models for the study of protein-DNA recognition. Anti-DNA antibodies often play an important role in disease pathogenesis by mediating kidney damage via antibody-DNA immune complex formation. The structural underpinnings of anti-DNA antibody pathogenicity and antibody-DNA recognition, however, are not well understood, due in part to the lack of direct, experimental three-dimensional structural information on antibody-DNA complexes. To address these issues for anti-single-stranded DNA antibodies, we have determined the 2.1 A crystal structure of a recombinant Fab (DNA-1) in complex with dT5. DNA-1 was previously isolated from a bacteriophage Fab display library from the immunoglobulin repertoire of an SLE-prone mouse. The structure shows that DNA-1 binds oligo(dT) primarily by sandwiching thymine bases between Tyr side-chains, which allows the bases to make sequence-specific hydrogen bonds. The critical stacking Tyr residues are L32, L49, H100, and H100A, while His L91 and Asn L50 contribute hydrogen bonds. Comparison of the DNA-1 structure to other anti-nucleic acid Fab structures reveals a common ssDNA recognition module consisting of Tyr L32, a hydrogen bonding residue at position L91, and an aromatic side-chain from the tip of complementarity determining region H3. The structure also provides a framework for interpreting previously determined thermodynamics data, and this analysis suggests that hydrophobic desolvation might underlie the observed negative enthalpy of binding. Finally, Arg side-chains from complementarity determining region H3 appear to play a novel role in DNA-1. Rather than forming ion pairs with dT5, Arg contributes to oligo(dT) recognition by helping to maintain the structural integrity of the combining site. This result is significant because antibody pathogenicity is thought to be correlated to the Arg content of anti-DNA antibody hypervariable loops.
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PMID:Crystal structure of an antigen-binding fragment bound to single-stranded DNA. 1173 99

E-selectin mediates the rolling of circulating leukocytes on vascular endothelial cells. A polymorphism, in which serine is substituted for arginine at position 128 (S128R) in the EGF domain, has been associated with both early-onset atherosclerosis and SLE. We investigated whether the substitution alters the ligand-binding properties of E-selectin under shear flow by studying the capacity of Chinese hamster ovary cell transfectants expressing wild type (WT) or S128R E-selectin to support interactions of neutrophils, K562 cells or HL60 cells. We initially chose to study non-fucosylated K562 cells. No interactions were observed on WT E-selectin, whereas S128R supported a transient tethering interaction of K562 cells, which was resistant to digestion with either neuraminidase or O-sialoglycoprotein endopeptidase, and, in turn, could result in firm adhesion in the presence of a beta2-integrin. HL60 cells exhibited increased rolling on S128R E-selectin. Although neuraminidase treatment inhibited all HL60 interactions with WT E-selectin, it unmasked transient tethers on S128R. We further observed that S128R recruited significantly more neutrophils than WT E-selectin, without affecting neutrophil rolling velocity. This polymorphism may therefore amplify leukocyte-endothelial cell interactions and may be a factor linking the S128R polymorphism to vascular disease.
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PMID:The S128R polymorphism of E-selectin mediates neuraminidase-resistant tethering of myeloid cells under shear flow. 1178 16

Nitric oxide (NO) is synthesized via the oxidation of arginine by a family of nitric oxide synthases (NOS), which are either constitutive (ie. endothelial (ec)NOS and neuronal (nc)NOS) or inducible (iNOS). The production of nitric oxide plays a vital role in the regulation of physiological processes, host defence, inflammation and immunity. Pro-inflammatory effects include vasodilation, oedema, cytotoxicity and the mediation of cytokine-dependent processes that can lead to tissue destruction. Nitric oxide-dependent tissue injury has been implicated in a variety of rheumatic diseases, including systemic lupus erythematosus (SLE), rheumatoid arthritis and osteoarthritis. Conversely, the production of NO by endothelial cell NOS may serve a protective, or anti-inflammatory, function by preventing the adhesion and release of oxidants by activated neutrophils in the microvasculature. In this chapter we describe the multifaceted role of nitric oxide in inflammation and address the potential therapeutic implications of NOS inhibition.
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PMID:The role of nitric oxide in tissue destruction. 1181 24

Autoantibodies directed against spliceosomal proteins are a common and specific feature of systemic lupus erythematosus. These autoantibodies target a collection of proteins, including Sm B, B', D1, D2, and D3. We define the common antigenic targets of Sm D2 and D3 and examine their role in spliceosomal autoimmunity. Our results define nine major common epitopes, five on Sm D2 and four on Sm D3. These epitopes have significantly higher (more basic) isoelectric points than do nonantigenic regions. In fact, this association is of sufficient power to make isoelectric point an excellent predictor of spliceosomal antigenicity. The crystallographic structure of Sm D2 and D3 is now partially described. The anti-Sm D2 and D3 antigenic targets are located on the surface of the respective three-dimensional complexed proteins, thereby suggesting that these epitopes are accessible in the native configuration. All but one of these nine epitopes conspicuously avoid the specific regions involved in intermolecular interactions within the spliceosomal complex. One of the D3 epitopes (RGRGRGMGR) has significant sequence homology with a major antigenic region of Sm D1 (containing a carboxyl-terminal glycine-arginine repeat), and anti-D3 Abs cross-react with this epitope of Sm D1. These results demonstrate that spliceosomal targets of autoimmunity are accessible on native structure surfaces and that cross-reactive epitopes, as well as structural associations of various spliceosomal Ags, may be involved in the induction of autoimmunity in systemic lupus.
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PMID:Anti-sm autoantibodies in systemic lupus target highly basic surface structures of complexed spliceosomal autoantigens. 1182 43

Antibodies endowed with hydrolytic properties have been described in humans for over a decade in a variety of pathological conditions such as systemic lupus erythematosus (SLE), autoimmune thyroiditis, asthma, and Bence Jones disease. Although the identified target substrate molecules have always been autoantigens (i.e., DNA, thyroglobulin, vasoactive intestinal peptide), a direct role of hydrolysis of the autoantigen in pathology of the disease has not been clearly documented. We have described in multitransfused patients with hemophilia A the presence of anti-factor VIII (FVIII) IgG antibodies that hydrolyze FVIII. The estimated kinetic parameters derived for FVIII cleavage by anti-FVIII antibodies are in line with the previously described catalytic antibodies. The identified cleavage sites are evenly spread throughout the FVIII molecule and are located after an arginine or a lysine in most cases. We have recently shown that the catalytic antibodies are highly prevalent among hemophilia A patients with FVIII inhibitors. Catalytic antibodies to FVIII are the first example where the hydrolysis of the target molecule by hydrolytic antibodies may be directly relevant to the etiology of the disease. The characterization of FVIII inhibitors as site-specific proteases may provide novel strategies in the design of therapy against FVIII inhibitors in patients with hemophilia A.
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PMID:Antibodies with hydrolytic activity towards factor VIII in patients with hemophilia A. 1237 65


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