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Query: UMLS:C0024141 (
systemic lupus erythematosus
)
44,322
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Complement component C4 is an important protein of the classical, or antibody-mediated pathway of complement activation. Human C4 is located within the central region of the major histocompatibility complex on chromosome 6. Partial C4 deficiency has been associated with an increased susceptibility to immune complex disease. The strongest association with partial C4 deficiency is with
systemic lupus erythematosus
(
SLE
) and has been shown in most racial groups studied. Interestingly, Caucasian population studies have demonstrated an increased prevalence of C4A null alleles in
SLE
patients, in particular in association with the haplotype HLA-A1, B8, BfS, C4AQ0, C4B1, DR3. To investigate whether the C4 gene on this haplotype had any structural irregularities which may explain disease association, we sequenced the entire
C4B
gene from this haplotype. The results revealed that the gene encoded on the disease-associated haplotype carried major structural differences (when compared to C4A3) at the exonic level only in the C4d region. A high degree of conservation in both the 5' and 3' untranslated regions imply that disease associations will not be due to differential C4 expression as a result of regulatory differences between C4 genes. It appears likely that protein clearance mechanisms may account for the altered levels of C4 seen between different isotypes.
...
PMID:Comparative analysis of the disease-associated complement C4 gene from the HLA-A1, B8, DR3 haplotype. 885 88
Genetic deficiencies of components of the classical pathway of complement activation are associated with an increased risk for the development of autoimmune and immune complex-mediated diseases. In the present study we report on the molecular and clinical features associated with combined heterozygous C4 and C2 deficiency in 15 individuals investigated within six families. Approximately 30% of the individuals manifested
SLE
or another autoimmune condition. Heterozygous C2 deficiency was related to a 28-bp deletion in the C2 gene (C2 deficiency type I), in most cases within the HLA-A25 B18 C2Q0 BfS C4A4B2 DR2 haplotype. Among 13 partial C4-deficient haplotypes transmitted, 8 carried C4A*Q0 alleles and 5 C4B*Q0 alleles. In seven cases the C4A*Q0 alleles were associated with a deletion of the C4A/CYP21P genes within the HLA-B8 C2C BfS C4AQ0B1 DR3 haplotype. In three cases, the C4B*Q0 allele was associated with a deletion of the
C4B
/CYP21P genes within the HLA-B18 C2C BfF1 C4A3BQ0 DR3 haplotype. In the other cases, C4A*Q0 or C4B*Q0 was dependent on as yet uncharacterized defects in the C4 gene or in C4 gene expression. In view of the relatively high frequency of heterozygous C4 deficiency in the normal Caucasian population, the expected frequency of the combined deficiency should approximate 0.001.
...
PMID:Combined heterozygous deficiency of the classical complement pathway proteins C2 and C4. 908 94
Genetic susceptibility to
systemic lupus erythematosus
(
SLE
) may vary amongst different populations. In UK patients, genes encoded in the HLA class II (DQA*0501/DRB1*0301) and class III [C4A*Q0 and tumour necrosis factor (TNF) polymorphisms] subregions appear to contribute to disease susceptibility. We have examined HLA-DRB1, C4 and TNF microsatellites in 50 Spanish
SLE
patients and 48 matched controls. HLA-DRB1*0301 was increased in patients but did not achieve statistical significance (41% vs. 25.5%). C4A*Q0 was not increased in patients, but C4B*Q0 allele frequency was significantly increased compared with the controls (29% vs. 6%; OR: 6.0). TNF c2 microsatellite allele frequency was also increased in
SLE
patients. The
C4B
null allele (C4B*Q0) appears to play an important role in
SLE
susceptibility in the Spanish population.
...
PMID:Complement C4B null allele status confers risk for systemic lupus erythematosus in a Spanish population. 977 34
The complement protein C4, encoded by two genes (C4A and
C4B
) on chromosome 6p, is the most polymorphic among the MHC III gene products. We investigated the molecular basis of C4 deficiency in a Finnish woman with
systemic lupus erythematosus
. C4-specific mRNA was present at low concentrations in C4-deficient (C4D) patient fibroblasts, but no pro-C4 protein was detected. This defect in C4 expression was specific in that synthesis of two other complement proteins was normal. Analysis of genomic DNA showed that the proposita had both deleted and nonexpressed C4 genes. Each of her nonexpressed genes, a C4A null gene inherited from the mother, a C4A null gene, and a
C4B
null gene inherited from the father, all contained an identical 2-bp insertion (TC) after nucleotide 5880 in exon 29, providing the first confirmatory proof of the
C4B
pseudogene. This mutation has been previously found only in C4A null genes. Although the exon 29/30 junction is spliced accurately, this frameshift mutation generates a premature stop at codon 3 in exon 30. These truncated C4A and
C4B
gene products were confirmed through RT-PCR and sequence analysis. Among the possible genetic mechanisms that produce identical mutations is both genes, the most likely is a mutation in C4A followed by a gene conversion to generate the mutated
C4B
allele.
...
PMID:Deficiency of human complement protein C4 due to identical frameshift mutations in the C4A and C4B genes. 1009 31
The genes coding for the two components of complement 4 (C4), C4A and
C4B
, are located within the major histocompatibility complex (MHC) on the short arm of chromosome 6. Several studies have shown that deficiency of C4A is associated with
systemic lupus erythematosus
(
SLE
), rheumatoid arthritis and scleroderma. A large deletion covering most of the C4A gene and the 21-hydroxylase-A (21-OHA) pseudogene found on the extended haplotype B8-C4AQ0-C4B1-DR3 is estimated to account for approximately two-thirds of C4A deficiency in Caucasian
SLE
patients. Detection of this C4A null allele has been technically difficult due to the high degree of homology between C4A and
C4B
, with protein analysis and restriction fragment length polymorphism (RFLP) analysis using Southern blotting being the only approaches available. In this study, a long PCR strategy was used to rapidly genotype for the C4A deletion through specific primer design. The methodology makes use of the unique sequence of the G11 gene upstream of C4A and the sequence of a 6.4 kb retrotransposon, the human endogenous retrovirus HERV-K(C4), which is present in intron 9 of C4A but absent in the case of the deletion.
...
PMID:Long PCR detection of the C4A null allele in B8-C4AQ0-C4B1-DR3. 1103 17
The aim of the present study was to investigate the prevalence of C4 and C2 deficiencies and to characterize genomic alterations in C4 genes in a large cohort of 125 unselected patients with
SLE
. We determined the protein concentration and functional activity of C2 and C4, as well as the C4 phenotype. C4 genotyping included Taq 1 restricted fragment lengh polymorphism (RFLP) analysis and polymerase chain reaction using sequence-specific primers (SSP-PCR). Type I C2 deficiency was diagnosed by PCR. Overall, 79.2% of the patients exhibited abnormalities of the C4 genes including deletion, non-expression, gene conversion and duplication. Among C4-deficient patients (n = 66, 52.8% prevalence), 41.0% of the patients exhibited a C4A deficiency and 59.0% a
C4B
deficiency. Half of the C4 deficiencies were due to a gene deletion. There was a strong association between C4A and
C4B
gene deletion and the presence of the DRB1*03 allele. Among the silent C4A genes, only two cases were related to a 2-bp insertion in exon 29 of the C4A gene. A gene conversion was demonstrated in eight patients (6.4%). One patient had a homozygous C4A deficiency. Three (2.4%) patients presented with a heterozygous type I C2 deficiency and none with homozygous deficiency. Our results argue against a specific role for C4A gene deficiency in determining disease susceptibility among patients with
SLE
that are C4-deficient.
...
PMID:Lack of evidence of a specific role for C4A gene deficiency in determining disease susceptibility among C4-deficient patients with systemic lupus erythematosus (SLE). 1116 10
The disease course of a complete C4-deficient patient in the U.S. was followed for 18 years. The patient experienced multiple episodes of infection, and he was diagnosed with
systemic lupus erythematosus
at age 9 years. The disease progressed to WHO class III mild lupus nephritis and to fatal CNS vasculitis at age 23 years. Immunochemical experiments showed that the patient and his sibling had complete absence of C4A and
C4B
proteins and were negative for the Rodgers and Chido blood group Ags. Segregation and definitive RFLP analyses demonstrated that the patient and his sibling inherited two identical haplotypes, HLA A2 B12 DR6, each of which carries a defective long C4A gene and a defective short
C4B
gene. PCR and DNA sequencing revealed that the mutant C4A contained a 2-bp insertion in exon 29 at the sequence for codon 1213. The identical mutation was absent in the mutant
C4B
. The
C4B
mutant gene was selectively amplified by long range PCR, and its 41 exons were completely sequenced. The
C4B
mutant had a novel single C nucleotide deletion at the sequence for codon 522 in exon 13, leading to frame-shift mutation and premature termination. Thus, a multiplex PCR is designed by which known mutations in C4A and
C4B
can be elucidated conveniently. Among the 28 individuals reported with complete C4 deficiency, 75-96% of the subjects (dependent on the inclusion criteria) were afflicted with autoimmune or immune complex disorders. Hence, complete C4 deficiency is one of the most penetrant genetic risk factors for human
systemic lupus erythematosus
.
...
PMID:The molecular basis of complete complement C4A and C4B deficiencies in a systemic lupus erythematosus patient with homozygous C4A and C4B mutant genes. 1213 86
It was observed about 50 years ago that low serum complement activity or low protein concentrations of complement C4 concurred with disease activities of
systemic lupus erythematosus
(
SLE
). Complete deficiencies of complement components C4A and
C4B
, albeit rare in human populations, are among the strongest genetic risk factors for
SLE
or
lupus
-like disease, across HLA haplotypes and racial backgrounds. However, whether heterozygous or partial deficiency of C4A (C4AQ0) or
C4B
(C4BQ0) is a predisposing factor for
SLE
has been a highly controversial topic. In this review we critically analyzed past epidemiologic studies on deficiency of C4A or
C4B
in human
SLE
. Cumulative results from more than 35 different studies revealed that heterozygous and homozygous deficiencies of C4A were present in 40-60% of
SLE
patients from almost all ethnic groups or races investigated, which included northern and central Europeans, Anglo-Saxons, Caucasians in the US, African Americans, Asian Chinese, Koreans and Japanese. In addition, French
SLE
and control populations had relatively low frequencies of C4AQ0, but the difference between the patient and control groups was statistically significant. The relative risk of C4AQ0 in
SLE
varied between 2.3 and 5.3 among different ethnic groups. In Caucasian and African
SLE
patients, the two major causes for C4AQ0 are (1) the presence of a mono-S RCCX (RP-C4-CYP21-TNX) module with a single, short
C4B
gene in the major histocompatibility complex; and (2) a 2-bp insertion into the sequence for codon 1213 at exon 29 of the mutant C4A gene. Both mono-S structures and 2-bp insertion in exon 29 are absent or extremely rare in the C4AQ0 of Oriental
SLE
patients. The highly significant association of C4AQ0 with
SLE
across multiple HLA haplotypes and ethnic groups, and the presence of different mechanisms leading to a C4A protein deficiency among
SLE
patients suggested that deficiency or low expression level of C4A protein is a primary risk factor for
SLE
disease susceptibility per se. On the other hand, Spanish, Mexican, Australian Aborigine
SLE
patients had increased frequencies of
C4B
deficiency instead of C4A deficiency. Such observations underscore the importance of both C4A and
C4B
proteins in the fine control of autoimmunity. Different racial and genetic backgrounds could change the thresholds for the requirement of C4A or
C4B
protein levels in immune tolerance and immune regulation. Most past epidemiological studies of C4 in human
SLE
did not consider the polygenic and gene size variations of C4A and
C4B
. In addition, many studies were overly dependent on phenotypic observations or methods that did not distinguish differential C4A and
C4B
protein expression caused by unequal gene number or different gene size from the absence of a functional C4A or
C4B
gene. For further longitudinal studies on clinical manifestations of
SLE
, it would be informative to stratify the patients with accurately defined C4A and
C4B
genotypes. Likewise, elucidation of epistatic genetic factors interacting with C4AQ0 would provide important insights into the intricate roles of C4 in
SLE
disease susceptibility and pathogenesis.
...
PMID:The intricate role of complement component C4 in human systemic lupus erythematosus. 1471 77
The complement system is an important humoral defense mechanism that plays a relevant role against microbial agents, inflammatory response control, and immunocomplex clearance. Classical complement pathway activation is antibody-dependent. The C4 component participates in the initial step of activation, and C4 expression is determined by 2 pairs of allotypes: C4A and
C4B
. Deficiencies in C4 allotypes have been associated with several diseases. The aim of the present review is evaluate the reported data in the literature regarding specific C4A and
C4B
deficiencies and characterize their clinical relevance. We searched the MEDLINE and LILACS databases. Papers referring to total C4 deficiency without allotype evaluation and case reports of primary C4 deficiency were not included. Deficiencies in C4 allotypes have been associated with Mycobacterium leprae infection, erythema nodosum, systemic sclerosis with anti-topoisomerase I antibodies, intermediate congenital adrenal hyperplasia with DR5 genotype, diabetes mellitus type 1 with DR3,4 genotype, and diabetes mellitus with antibodies against islet cells. C4 allotype deficiency is also related to
C4B
deficiency and autoimmune-associated diseases, such as
systemic lupus erythematosus
, or diseases with an autoimmune component, such as autism. Some reports associate C4A with thyroiditis after delivery as well as limited and systemic sclerosis without anti-topoisomerase I antibodies. However, the studies with C4A and
C4B
have been concentrated in isolated populations, and some of the studies could not be reproduced by other authors.
...
PMID:Involvement of C4 allotypes in the pathogenesis of human diseases. 1528 35
Although a heterozygous deficiency of either complement component C4A or
C4B
is common, and each has a frequency of approximately 20% in a Caucasian population, complete deficiencies of both C4A and
C4B
proteins are extremely rare. In this paper the clinical courses for seven complete C4 deficiency patients are described in detail, and the molecular defects for complete C4 deficiencies are elucidated. Three patients with homozygous HLA A24 Cw7 B38 DR13 had
systemic lupus erythematosus
, mesangial glomerulonephritis, and severe skin lesions or membranous nephropathy. Immunofixation, genomic restriction fragment length polymorphisms, and pulsed field gel electrophoresis experiments revealed the presence of monomodular RP-C4-CYP21-TNX (RCCX) modules, each containing a solitary, long C4A mutant gene. Sequencing of the mutant C4A genes revealed a 2-bp, GT deletion in exon 13 that leads to protein truncation. The other four patients with homozygous HLA A30 B18 DR7 had
SLE
, severe kidney disorders including mesangial or membranoproliferative glomerulonephritis, and/or Henoch Schoenlein purpura. Molecular genetic analyses revealed an unusual RCCX structure with two short
C4B
mutant genes, each followed by an intact gene for steroid 21-hydroxylase. Nine identical, intronic mutations were found in each mutant
C4B
. In particular, the 8127 g-->a mutation present at the donor site of intron 28 may cause an RNA splice defect. Analyses of 12 complete C4 deficiency patients revealed two hot spots of deleterious mutations: one is located at exon 13, the others within a 2.6-kb genomic region spanning exons 20-29. Screening of these mutations may facilitate epidemiologic studies of C4 in infectious, autoimmune, and kidney diseases.
...
PMID:Complete complement components C4A and C4B deficiencies in human kidney diseases and systemic lupus erythematosus. 1529 99
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