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Query: UMLS:C0024141 (
systemic lupus erythematosus
)
44,322
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Aim of the study was to compare the expression of monocytes
C1qRp
(CD93) in patients with
systemic lupus erythematosus
(
SLE
) with that of healthy controls and to determine the influence of glucocorticoids and LPS on
C1qRp
expression. Thirty-six
SLE
patients and 20 healthy controls were analyzed by flow cytometry. Additionally, monocytes from five patients and five controls were cultured and stimulated with dexamethasone, interferon-gamma and LPS, respectively, before the measurement of
C1qRp
expression. There was no difference in
C1qRp
expression between
SLE
and HC.
SLE
patients with no or only low dose steroids had a significantly higher
C1qRp
expression than those with higher doses. However, in vitro dexamethasone did not stimulate or down-regulate
C1qRp
expression. Upon LPS stimulation,
C1qRp
was significantly up regulated on monocytes both from patients and from controls. In conclusion,
C1qRp
expression and regulation was not altered in
SLE
patients. Possible relations with disease activity and medication need further investigations.
...
PMID:C1qRP (CD93) expression on peripheral blood monocytes in patients with systemic lupus erythematosus. 1667 32
In the present study, we characterize a polymorphism in the
CD93 molecule
, originally identified as the receptor for the C1q complement component (i.e.,
C1qRp
, or AA4.1) in non-obese diabetic (NOD) mice. This allele carries a coding polymorphism in the first epidermal growth factor-like domain of CD93, which results in an amino acid substitution from Asn-->His at position 264. This polymorphism does not appear to influence protein translation or ecto-domain cleavage, as CD93 is detectable in bone-marrow-derived macrophage and B-cell precursor lysates and in soluble form in the serum. The NOD CD93 isoform causes a phenotypic aberrancy in the early B-cell developmental stages (i.e., pro-, pre-, immature, and transitional), likely related to a conformational variation. Interestingly, the NZB/W F1 strain, which serves as a murine model of
Lupus
, also expresses an identical CD93 sequence polymorphism. Cd93 is located within the NOD Idd13 locus and is also tightly linked to the NZB/W F1 Wbw1 and Nkt2 disease susceptibility loci, which are thought to regulate natural killer T (NKT) cell homeostasis. Consistent with this genetic linkage, we found B6 CD93(-/-) and B6.NOD(Idd13) mice to be susceptible to a profound CD4(+) NKT cell deficient state. These data suggest that Cd93 may be an autoimmune susceptibility gene residing within the Idd13 locus, which plays a role in regulating absolute numbers of CD4(+) NKT cells.
...
PMID:A novel CD93 polymorphism in non-obese diabetic (NOD) and NZB/W F1 mice is linked to a CD4+ iNKT cell deficient state. 2038 63
Recent studies have tested genetic variation at the C1QA, C1QB and C1QC (complement component 1, q subcomponent, A chain, complement component 1, q subcomponent, B chain and
complement component 1
, q subcomponent, c chain) loci in relation to
systemic lupus erythematosus
(
SLE
) risk. Evidence for a significant effect of C1Q locus gene polymorphisms on
SLE
predisposition remains unclear. We aimed to identify associations between common C1Q polymorphisms and
SLE
risk and serum C1q, C3 and C4 levels. We performed family-based association tests in 295 nuclear families with one affected proband. Tag-single nucleotide polymorphisms (SNPs) ranging from 35.4 kb upstream of the C1QA gene to 28 kb downstream of the C1QB gene were selected to represent the entire C1Q gene locus. We performed transmission disequilibrium tests for affectation status and continuous traits, including C1q, C3 and C4 levels using family-based association tests (FBAT). There was no evidence for a significant role of C1Q locus gene polymorphisms in
SLE
risk predisposition. The strongest association was observed with a variant in the 3'UTR region of the C1QB gene (rs294223, P = 0.06). We found nominally significant associations with a second variant (rs7549888) in the 3'UTR region of the C1QB gene and C1q (P = 0.01), C3 (P = 0.004) and C4 levels (P = 0.01). In a large family-based association study of C1Q gene cluster polymorphisms no evidence for a genetic role of C1Q locus SNP in
SLE
risk predisposition was obtained in patients of European ancestry. This is in contrast to other cohorts, in which single variants associated with C1Q, C3 and C4 levels and nephritis have been studied and shown associations.
...
PMID:Assessing association of common variation in the C1Q gene cluster with systemic lupus erythematosus. 2052 85
Genetic deficiency in C1q is a strong susceptibility factor for
systemic lupus erythematosus
(
SLE
). There are two major hypotheses that potentially explain the role of C1q in
SLE
. The first postulates that C1q deficiency abrogates apoptotic cell clearance, leading to persistently high loads of potentially immunogenic self-antigens that trigger autoimmune responses. While C1q undoubtedly plays an important role in apoptotic clearance, an essential biological process such as removal of self- waste is so critical for host survival that multiple ligand-receptor combinations do fortunately exist to ensure that proper disposal of apoptotic debris is accomplished even in the absence of C1q. The second hypothesis is based on the observation that locally synthesized C1q plays a critical role in regulating the earliest stages of monocyte to dendritic cell (DC) differentiation and function. Indeed, circulating C1q has been shown to keep monocytes in a pre-dendritic state by silencing key molecular players and ensuring that unwarranted DC-driven immune responses do not occur. Monocytes are also able to display macromolecular C1 on their surface, representing a novel mechanism for the recognition of circulating "danger." Translation of this danger signal in turn, provides the requisite "license" to trigger a differentiation pathway that leads to adaptive immune response. Based on this evidence, the second hypothesis proposes that deficiency in C1q dysregulates monocyte-to-DC differentiation and causes inefficient or defective maintenance of self-tolerance. The fact that C1q receptors (cC1qR and gC1qR) are also expressed on the surface of both monocytes and DCs, suggests that C1q/
C1qR
may regulate DC differentiation and function through specific cell-signaling pathways. While their primary ligand is C1q, C1qRs can also independently recognize a vast array of plasma proteins as well as pathogen-associated molecular ligands, indicating that these molecules may collaborate in antigen recognition and processing, and thus regulate DC-differentiation. This review will therefore focus on the role of C1q and C1qRs in
SLE
and explore the gC1qR/C1q axis as a potential target for therapy.
...
PMID:SLE: Novel Postulates for Therapeutic Options. 3311 97
