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)

Increased prevalence of C4 null alleles is a common feature of autoimmune diseases. We have shown previously that complement-dependent prevention of immune precipitation (PIP) is defective in patients with systemic lupus erythematosus (SLE), and correlated this defect with C4A*Q0 and low levels of the C4A isotype. To further clarify the role of C4A in the aetiology of SLE, we now extend our studies to other diseases which have been associated with C4A*Q0. The frequency of C4A*Q0 was increased in Icelandic patients with coeliac disease (0.50; P < 0.001), Grave's disease (0.30; P = 0.002) and insulin-dependent diabetes mellitus (0.23; P = 0.04) and in British patients with dermatitis herpetiformis (0.42; P = 0.002) and this was reflected in low levels of C4A. In spite of this, PIP was normal in these patients, and in marked contrast to our previous observations on connective tissue diseases, PIP measurements in these patient groups correlated more strongly with levels of C4B (r = 0.51, P = 0.0000004) than C4A. Patients with increased levels of anti-C1q antibodies had significantly lower PIP than patients without such antibodies (P < 0.01) and a negative association of PIP with anti-C1q antibodies was also reflected in an increased prevalence (P = 0.006) and levels (P = 0.006) of anti-C1q antibodies in patients with subnormal PIP, as well as a negative correlation between PIP and anti-C1q antibodies (r = - 0.25, P = 0.02). These results show that the PIP defect cannot be explained by low levels of C4A alone and suggest that measurements of anti-C1q antibodies may be useful in future studies on the molecular cause of the PIP defect in autoimmune connective tissue disease.
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PMID:Defective prevention of immune precipitation in autoimmune diseases is independent of C4A*Q0. 1593 21

The complement component C4 is encoded by two genes: C4A and C4B on human chromosome 6p in the major histocompatibility complex (MHC). Most studies have linked the deficiencies in C4 with systemic lupus erythematosus (SLE) in Angio-Irish, North American, Black American, Mexican American, Australian and Japanese populations. Null alleles at either locus (C4AQ0 or C4BQ0) are relatively common in Americans occurring at the C4A and C4B loci in approximately 10% and 16% of normal individuals, respectively. In the present study, we extensively examined the possible association between homozygous C4Q0 and SLE in a large cohort of Thai populations diagnosed as SLE and further attempted to identify the genetic basis of C4Q0. One hundred and eighteen cases of SLE patients and 145 matched controls were genotyped by touchdown PCR. The results confirmed the previous studies that 5.93% (7/118) of C4 null genes: 2.54% (3/118) of C4AQ0 and 3.39% (4/118) of C4BQ0 were found in SLE patients. In contrast to other studies, we found no cases of C4 null genes in normal control (0 from 145 samples). To further investigate the genetic basis of C4 deficiency, all genomic DNAs were also analyzed for 2-bp (TC) insertion at codon 1213 in exon 29 which is a common mutation in many C4A null genes and a novel 1-bp deletion (C) at codon 522 in exon 13 that is common in most C4B null genes. Both mutation results in a flame-shift mutation and premature stop codon using sequence specific primers PCR (SSP-PCR) and direct sequencing. The results showed that there was 2-bp insertion in exon 29 of mutant C4B gene in one SLE patient carrying C4AQ0. There was no 2-bp insertion in exon 29 of both C4A and C4B genes in normal individual and the rest of SLE patients. All patients with C4AQ0 exhibited more than 5 ACR criteria including malar rash, oral ulcers, renal disorder, immunological disorder, anti-nuclear antibody, without hematological disorder. In contrast, all of C4BQ0 SLE patients showed 5 or 6 ACR criteria including hematological disorder, malar rash, oral ulcers, renal disorder, immunological disorder and anti-nuclear antibody. A patient who possesses C4AQ0 and 2-bp insertion in exon 29 of mutant C4B showed 9 ACR criteria but no discoid rash and hematological disorder. In conclusion, both C4AQ0 and C4BQ0 are the strong predisposing factors for SLE in Thais. It was supported by the absence of either C4A or C4B deletion in healthy control. We suggested that the different racial and genetic backgrounds could alter the thresholds for requirement of C4A or C4B protein levels in immune tolerance and regulation.
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PMID:Complete deficiencies of complement C4A and C4B including 2-bp insertion in codon 1213 are genetic risk factors of systemic lupus erythematosus in Thai populations. 1599 80

The fourth component of human complement is an essential part of the classical and lectin pathways performing multifunctional roles in both host defense and immune regulation. C4 is the most polymorphic member of the complement proteins, and complete deficiency is strongly associated with autoimmune disease, especially, systemic lupus erythematosus (SLE). Of the two C4 genes C4A, but not C4B, null alleles have been implicated as important independent disease susceptibility genes occurring in more than half of SLE patients. Whether and how this deficiency contributes to the development or pathology remains unclear. We do know that activation of C4 by C1s cleaves the thioester bond, thus inducing a conformational change that exposes numerous ligand-binding sites involved in functional activity. Structural comparison, among many other tools, plays an important role in predicting function. In this report, the tertiary structures of C4A and C4B were compared using near and far-UV circular dichroism, ANS fluorescence, site-specific monoclonal antibodies and isoelectric focusing. Negligible differences in the native proteins were found. However, the activated proteins were dissimilar in secondary and tertiary structure that was accompanied by significant differences in charge distribution and surface hydrophobicity. These conformational differences, together with known acceptor preferences, have functional implications for the association between C4A null alleles and SLE.
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PMID:Structural comparison of human C4A3 and C4B1 after proteolytic activation by C1s. 1609 95

Different genetic mutations have been described in complement components resulting in total or subtotal deficiency states. In this work we report the genetic basis of C7 deficiency in a previously reported Spanish patient exhibiting a combined total deficiency of C7 and C4B associated with systemic lupus erythematosus. Exon-specific polymerase chain reaction and sequencing revealed a not previously described single base mutation in exon 10 (T1458A) leading to a stop codon that causes the premature truncation of the C7 protein (C464X). Additionally, a C to A transversion at position 1561 (exon 11) was found in the patient resulting in an amino acid change (R499S). This latter mutation has been previously reported in individuals with subtotal C7 deficiency or with combined subtotal C6/C7 deficiency from widely spaced geographical areas. Another novel mutation was found in a second patient with meningococcal meningitis of Bolivian and Czech origin; a 11-base pair deletion of nucleotides 631-641 in exon 6 leading to the generation of a downstream stop codon causing the premature truncation of the C7 protein product (T189 x 193). This patient was found to be a heterozygous compound for another mutation in C7; a two-base pair deletion of nucleotides 1922 and 1923, 1923 and 1924 or 1924 and 1925 in exon 14 (1922delAG/1923delGA/1924delAG), leading again to the generation of a downstream stop codon that provokes the truncation of the C7 protein (S620x630). This latter mutation has been recently reported by our group in another Spanish family. Our results provide more evidences for the heterogeneous molecular basis of C7 deficiency.
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PMID:Molecular defects of the C7 gene in two patients with complement C7 deficiency. 1677 61

The serial changes of serum complement proteins C4 and C3 in SLE were characterized in 33 pediatric SLE patients with defined C4 genotypes. Three distinct groups of C4 protein profiles were observed. The first group was characterized by persistently low C4 levels (<10 mg/dL) throughout the course of the study. Patients with this profile had mild disease manifestations and low to medium copy numbers of C4 genes. The second group featured periodic fluctuations of serum C4 protein concentrations above and below 10 mg/dL, paralleled with ups and downs of SLE disease activities. Most patients with the second profile had unequal copy numbers of C4A and C4B genes and relatively severe disease. The third group had normal serum C4 levels (>15 mg/dL) most of the time and occasionally low C4 and C3 levels that were mostly coincident with disease flares prior to effective medical treatment. Most patients in this group
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PMID:Three distinct profiles of serum complement C4 proteins in pediatric systemic lupus erythematosus (SLE) patients: tight associations of complement C4 and C3 protein levels in SLE but not in healthy subjects. 1689 76

Interindividual gene copy-number variation (CNV) of complement component C4 and its associated polymorphisms in gene size (long and short) and protein isotypes (C4A and C4B) probably lead to different susceptibilities to autoimmune disease. We investigated the C4 gene CNV in 1,241 European Americans, including patients with systemic lupus erythematosus (SLE), their first-degree relatives, and unrelated healthy subjects, by definitive genotyping and phenotyping techniques. The gene copy number (GCN) varied from 2 to 6 for total C4, from 0 to 5 for C4A, and from 0 to 4 for C4B. Four copies of total C4, two copies of C4A, and two copies of C4B were the most common GCN counts, but each constituted only between one-half and three-quarters of the study populations. Long C4 genes were strongly correlated with C4A (R=0.695; P<.0001). Short C4 genes were correlated with C4B (R=0.437; P<.0001). In comparison with healthy subjects, patients with SLE clearly had the GCN of total C4 and C4A shifting to the lower side. The risk of SLE disease susceptibility significantly increased among subjects with only two copies of total C4 (patients 9.3%; unrelated controls 1.5%; odds ratio [OR] = 6.514; P=.00002) but decreased in those with > or =5 copies of C4 (patients 5.79%; controls 12%; OR=0.466; P=.016). Both zero copies (OR=5.267; P=.001) and one copy (OR=1.613; P=.022) of C4A were risk factors for SLE, whereas > or =3 copies of C4A appeared to be protective (OR=0.574; P=.012). Family-based association tests suggested that a specific haplotype with a single short C4B in tight linkage disequilibrium with the -308A allele of TNFA was more likely to be transmitted to patients with SLE. This work demonstrates how gene CNV and its related polymorphisms are associated with the susceptibility to a human complex disease.
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PMID:Gene copy-number variation and associated polymorphisms of complement component C4 in human systemic lupus erythematosus (SLE): low copy number is a risk factor for and high copy number is a protective factor against SLE susceptibility in European Americans. 1750 23

A 10-year-old girl was noted to have microscopic hematuria and proteinuria in 1986. As her urinary abnormalities were persistent, she underwent a renal biopsy on 4 occasions until 2003. Although the appearances of the renal biopsies were strongly suspicious of systemic lupus erythematosus, she never exhibited specific autoantibodies or distinctive symptoms. She received corticosteroid therapy and the urinary findings responded. The 4th component of complement remained low during the period of the observation. Both genotyping and allotyping analysis revealed complete C4B deficiency. Some case reports have mentioned renal disease associated with C4B deficiency and we consider the nephropathy in this case to be related to the C4B deficiency.
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PMID:C4B deficiency associated with membranoproliferative glomerulonephritis. 1754 Dec 32

Complete deficiency of complement C4 is among the strongest genetic risk factors for human systemic lupus erythematosus (SLE). C4 is a constituent of the RP-C4-CYP21-TNX (RCCX) module in the human leukocyte antigen (HLA) that exhibits inter-individual copy-number and gene-size variations. Here, we studied two North-African families with complete C4 deficiency and SLE. The first included a Moroccan male SLE patient (1P) and a sibling, who were both homozygous for HLA-A*02 B*17 DRB1*07. The second had an Algerian female SLE patient (2P) homozygous for HLA-A*01 B*17 DRB1*13. Early SLE disease onset, the presence of photosensitive rashes, anti-Ro/SSA, renal disease and high titers of antinuclear antibodies were the common features of complete C4 deficiency. Southern blot analyses showed that 1P had monomodular RCCX with a long C4A, whereas 2P had bimodular RCCX with one long C4A and one short C4B. Genomic DNA fragments for these mutant genes were amplified and sequenced. A C>T transition that created the R540X nonsense mutation in C4A was found in 1P. An identical 4-bp insertion that generated the Y1537X nonsense mutation was discovered in both C4A and C4B of 2P. The high concordance of SLE and C4 deficiency among patients with non-DR3 and non-DR2 haplotypes underscores the importance of C4 proteins in the protection against SLE.
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PMID:Molecular basis of complete complement C4 deficiency in two North-African families with systemic lupus erythematosus. 1927 49

A new paradigm in human genetics is high frequencies of inter-individual variations in copy numbers of specific genomic DNA segments. Such common copy number variation (CNV) loci often contain genes engaged in host-environment interaction including those involved in immune effector functions. DNA sequences within a CNV locus often share a high degree of identity but beneficial or deleterious polymorphic variants are present among different individuals. Thus, common gene CNVs can contribute, both qualitatively and quantitatively, to a spectrum of phenotypic variants. In this review we describe the phenotypic and genotypic diversities of complement C4 created by copy number variations of RCCX modules (RP-C4-CYP21-TNX) and size dichotomy of C4 genes. A direct outcome of C4 CNV is the generation of two classes of polymorphic proteins, C4A and C4B, with differential chemical reactivities towards peptide or carbohydrate antigens, and a range of C4 plasma protein concentrations (from 15 to 70 mg/dl) among healthy subjects. Deliberate molecular genetic studies enabled development of definitive techniques to determine exact patterns of RCCX modular variations, copy numbers of long and short C4A and C4B genes by Southern blot analyses or by real-time quantitative PCR. It is found that in healthy European Americans, the total C4 gene copy number per diploid genome ranges from 2 to 6: 60.8% of people with four copies of C4 genes, 27.2% with less than four copies, and 12% with more than four copies. Such a distribution is skewed towards the low copy number side in patients with systemic lupus erythematosus (SLE), a prototypic autoimmune disease with complex etiology. In SLE, the frequency of individuals with less than four copies of C4 is significantly increased (42.2%), while the frequency of those with more than four copies is decreased (6%). This decrease in total C4 gene copy number in SLE is due to increases in homozygous and heterozygous deficiencies of C4A but not C4B. Therefore, it is concluded that lower copy number of C4 is a risk factor for and higher gene copy number of C4 is a protective factor against SLE disease susceptibility.
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PMID:Phenotypes, genotypes and disease susceptibility associated with gene copy number variations: complement C4 CNVs in European American healthy subjects and those with systemic lupus erythematosus. 1928 47

The involvement of the complement system in the pathogenesis of autoimmune diseases is a matter of debate. However, the link between complement abnormalities and systemic lupus erythematosus (SLE) is well established and widely described. Homozygous and/or heterozygous complement-component deficiencies of the classical pathway (C1q, C1r, C1s, C4A, C4B and C2) are causally associated with susceptibility to the development of SLE. Although the severity of the disease and the strength of the association are heterogeneous for deficiencies of these proteins, they commonly cause peculiar SLE syndromes with an early age of onset, a susceptibility to bacterial infections and negative anti-dsDNA antibodies. In this review, we highlight the available data on complement deficiency and SLE with a focus on deficiencies in classical complement pathway components. We also discuss the paradox of the link between complement deficiency and lupus. The complement system acts as a 'friend' through the clearance of immune complexes and apoptotic cells, which explains the close association between complement deficiency and lupus. It also acts as an 'enemy' by participating in the effector inflammatory phase of the autoimmune response. Understanding the importance of complement deficiencies should provide novel targets for therapeutic interventions in the modulation of the immune response.
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PMID:Complement deficiency and systemic lupus erythematosus: consensus and dilemma. 2047 65


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