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Query: UMLS:C0024141 (
systemic lupus erythematosus
)
44,322
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The allotypic forms of the C3b/C4b receptor (CR1,
CD35
) differ in length, in the number of expressed C3b binding sites and thus in their ability to mediate the processing of circulating C3- and C4-bearing immune complexes. We have used a combination of three informative restriction fragment length polymorphisms (RFLPs) to assess the frequencies of the F (most frequent allele comprised of four long homologous repeats (LHR)), S (five LHR) and F' (three LHR) alleles of the C3b/C4b receptor (CR1,
CD35
) in a French population of patients with
systemic lupus erythematosus
(
SLE
) (n = 63) and healthy controls (n = 158). A significantly higher frequency of the S phenotype was observed among patients (51%) as compared with controls (26%). The F' allele was found in 2/61 patients and 1/85 healthy controls, indicating the rare occurrence of the short CR1 allele in
SLE
. This allele is also extremely rare in the normal population. The overrepresentation of the S long allele among patients is indicative of a genetic linkage between CR1 and susceptibility to
SLE
.
...
PMID:Increased frequency of the long (S) allotype of CR1 (the C3b/C4b receptor, CD35) in patients with systemic lupus erythematosus. 135 46
The present study investigated the rate of catabolism of CR1 (the C3b receptor,
CD35
) on erythrocytes (E) in vivo, in relationship with the expressed number of CR1/E, the CR1.1 HindIII quantitative CR1 polymorphism, and cell age. The relationship between the number of CR1/E and cell age was analysed by measuring G6PDH activity in E that had been sorted according to high or low expression of CR1 (
CD35
), by assessing the expression of CR1 (
CD35
) on E separated according to cell density, and by comparing the number of CR1 (
CD35
) antigenic sites on reticulocytes and on E. A physiological catabolism of CR1 (
CD35
) manifested by a reduction in the number of CR1 (
CD35
) antigenic sites/E with cell ageing was consistently observed in healthy individuals. The number of CR1/E decreased with ageing of E according to a complex pattern that associated an exponential decay and an offset. Calculated half-lives of CR1 (
CD35
) ranged between 11 and 32 days in healthy individuals. A more rapid loss of CR1 (
CD35
) with cell ageing occurred on cells from individuals expressing high numbers of CR1/E. In patients with
systemic lupus erythematosus
(
SLE
), half-lives of CR1 (
CD35
) on E were in the same range as those of healthy individuals with a similar quantitative CR1 genotype; the number of CR1 (
CD35
) on reticulocytes was reduced and linearly related to the number of CR1/E, independently of the patients' quantitative CR1 genotype. Transfusion experiments with E bearing high or low amounts of CR1/E indicated the lack of preferential removal of E bearing high numbers of CR1 (
CD35
) in patients with
SLE
. These results indicate that the rate of loss of CR1 (
CD35
) from E with cell ageing is directly related to the quantitative CR1 phenotype and suggest that enhanced peripheral catabolism is not the sole mechanism of the acquired loss of CR1 (
CD35
) on E in patients with
SLE
.
...
PMID:Peripheral catabolism of CR1 (the C3b receptor, CD35) on erythrocytes from healthy individuals and patients with systemic lupus erythematosus (SLE). 153 48
C3b-coated immune complexes adhere to the complement receptor 1 (CR1,
CD35
) on human erythrocytes. This multi-valent binding might be favoured by the known clustering of CR1 and by the multiple C3b-binding sites on each CR1. The size of the CR1 clusters correlates directly with the number of CR1/erythrocytes, and the different structural CR1 alleles bear between two and five C3b-binding sites. Using radiolabelled hepatitis B surface antigen-antibody complexes, we investigated whether CR1 numbers and structural alleles modulate the ability of erythrocytes to bind immune complexes, and assessed if any reorganization of immune complexes takes place at the erythrocyte surface after the initial binding reaction. The binding efficiency (immune complexes/CR1) correlated with CR1 number as determined by the maximal binding at 4 degrees C, the kinetics of binding at 37 degrees C, and the binding in the presence of excess immune complexes and of immune complexes of small size. Binding efficiencies were similar for erythrocytes with low CR1 from normal subjects and patients with AIDS or
SLE
. A monoclonal antibody blocking the C3b-binding sites (3D9) of CR1 interfered with binding efficiency at a lower concentration on cells bearing low CR1 numbers, suggesting that CR1 clustering is essential. The larger alleles of CR1 (DD and BB) were more efficient than AA alleles. The distribution of immune complexes, visualized by immunofluorescence, was heterogeneous on erythrocytes: about two out of three cells bore between one and 12 immune complexes. No visible immune complex reorganization took place after initial binding, as prefixed erythrocytes displayed the same immune complex distribution and number/erythrocytes as unfixed erythrocytes. The contribution of CR1 alleles in immune complex binding efficiency was confirmed by morphological analysis. These results demonstrate that immune adherence efficiency is the resultant of the CR1 clustering, as well as the particular alleles carried by erythrocytes. Moreover, there is little or no immune complexes surface reorganization after the initial binding reaction.
...
PMID:Immune complex binding efficiency of erythrocyte complement receptor 1 (CR1). 182 50
The levels of IgG immunoconglutinins in plasma from patients with rheumatoid arthritis,
systemic lupus erythematosus
and primary biliary cirrhosis were monitored by ELISA. High levels of IgG immunoconglutinins were found mainly in plasma from patients with
systemic lupus erythematosus
. These immunoconglutinins bound to microtitre plate-fixed C3, C3b and C3c but poorly to C3d. This binding was inhibited by particle-bound C3b and iC3b but not by the corresponding soluble fragments. Furthermore, Western blot analysis revealed no immunoconglutinin-binding to reduced C3 peptides and no binding was shown to soluble C3 alpha and beta chain by ELISA. IgG immunoconglutinins were purified from three plasma specimens by affinity chromatography on activated thiol sepharose ATS/C3 fragments. Two immunoconglutinin preparations that preferentially recognize ATS-C3b, inhibited C5-convertase function by 50-100% while one immunoconglutinin that recognized ATS-C3d,g had no effect. The two former immunoconglutinins also inhibited all three factor I cleavages in C3 alpha chain but the latter inhibited only the third cleavage. None of the immunoconglutinins affected the binding of complement-coated anti-BSA/BSA complexes to CR1 (
CD35
) on human erythrocytes, but the two immunoconglutinins that inhibited all factor I cleavages also inhibited the factor I-induced release of anti-BSA/BSA complexes from CR1. The results show that immunoconglutinins recognize specific epitopes on bound C3 fragments and that they are able to modulate C3-mediated functions.
...
PMID:Purification and characterization of IgG immunoconglutinins from patients with systemic lupus erythematosus: implications for a regulatory function. 214 95
CR1 (
CD35
) and CR2 (CD21) are structurally related integral transmembrane glycoproteins that function as cellular receptors for human C3b and C3dg, respectively. The primary sequence of the most common structural allotype of CR1 and that of CR2 have been established, and ligand binding on the molecules has been mapped. CR1 and CR2 genes are located in close vicinity in the RCA locus of chromosome 1. CR1 has a wide cellular/tissular distribution and mediates a variety of biologic functions, including the transport of C3-bearing immune complexes on erythrocytes, enhancement of phagocytosis, induction of IL-1 secretion and enhancement of B-cell differentiation. Expression of CR2 is restricted to B lymphocytes and follicular dendritic cells. The receptor modulates B-cell growth. CR2 also serves as the receptor for EBV and determines the cellular tropism of the virus. This review discusses the molecular biology and functional characteristics of CR1 and CR2. It focuses on alterations of expression of the receptors in disease, with particular emphasis on the genetic and acquired factors that contribute to the defective expression of CR1 in patients with
systemic lupus erythematosus
.
...
PMID:Deficiencies of human C3 complement receptors type 1 (CR1, CD35) and type 2 (CR2, CD21). 216 22
Defective clearance of immune complexes (IC) may contribute to the pathogenesis of diseases such as
SLE
. We studied the effect of hypocomplementaemia and the influence of erythrocyte complement receptor type 1 (CR1,
CD35
) number on the clearance of radiolabelled tetanus toxoid (TT)-anti-TT IC from the circulation. These were injected intravenously into 9 normal subjects and 15 patients with diseases characterized by IC formation and/or hypocomplementemia, including 2 with hereditary complement deficiency. IC were found to bind to erythrocyte CR1 in a complement-dependent manner and their degree of uptake was directly correlated with CR1 numbers. Two phases of IC clearance were identified. The first was rapid, occurring within 1 min. Since this phase might represent inappropriate deposition of IC in target organs we called it trapping. It was seen predominantly in subjects with low CR1, low complement, and low binding of complexes to red cells. The second phase was monoexponential with a mean elimination rate of 14.1%/min; it was inversely correlated with CR1 numbers and binding of complexes to red cells. In a second study each individual was injected with IC bound to autologous erythrocytes in vitro using normal serum so that the effects of complement deficiency were eliminated. Up to 81.4% of these bound IC were released in vivo from erythrocytes in 1 min, and the proportion was inversely correlated with CR1 numbers. Only five patients showed trapping, and these had low CR1 numbers and high percentage release of IC. The second phase of elimination was inversely correlated with CR1 numbers and the proportion of IC remaining bound to red cells at 1 min. The two complement-deficient patients had normal CR1: when IC were injected, trapping and very fast clearance rates were observed; however complexes that had been opsonized and bound to erythrocytes were cleared at a slower rate without evidence for trapping. These studies show that complement and erythrocyte CR1 may determine the physiological clearance of certain types of IC and suggest that this system may function abnormally when CR1 number or complement function are reduced.
...
PMID:The role of hypocomplementaemia and low erythrocyte complement receptor type 1 numbers in determining abnormal immune complex clearance in humans. 252 42
The expression of complement receptor Type 1 (CR1,
CD35
) on erythrocytes (E) is unique to humans and other primates. E-CR1, a C3b/C4b receptor that also acts as cofactor for Factor I, appears to be important in clearing C3/C4-opsonized immune complexes from the circulation, in controlling complement activation in the circulation, and in regulating antibody formation. This study was undertaken to determine whether therapy with recombinant human erythropoietin (rEPO) might increase E-CR1 expression in humans. The rationale is that young erythrocytes express more E-CR1 than old erythrocytes. Thus, conditions that stimulate erythropoiesis should increase E-CR1 expression. The hypothesis that stimulating erythropoiesis by rEPO therapy can increase E-CR1 expression was tested in six anemic chronic hemodialysis (ESRD) patients and five
systemic lupus erythematosus
(
SLE
) patients without renal failure. Before the rEPO therapy, three of the
SLE
patients were anemic and two were not. The ESRD patients were studied before and during 9 or 10 mo of rEPO therapy. The
SLE
patients were studied before, during, and after 7 mo of rEPO given by sc injection two or three times weekly. It was found that rEPO therapy was associated with a progressive increase in the average number of CR1/E in each of the ESRD patients and in the anemic
SLE
patients: mean baseline CR1/E was 210 +/- 50 (SE) for the ESRD patients and 125 +/- 35 for the
SLE
patients.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Erythropoietin therapy in humans increases erythrocyte expression of complement receptor type 1 (CD35). 806 76
C receptor type 1 (CR1,
CD35
) is present in a soluble form in plasma (sCR1). Soluble CR1 was measured with a specific ELISA assay in normal individuals and in patients with different diseases. The mean serum concentration of sCR1 in 31 normal donors was 31.4 +/- 7.8 ng/ml, and was identical in plasma. An increase in sCR1 was observed in 36 patients with end-stage renal failure on dialysis (54.8 +/- 11.7 ng/ml, p < 0.0001), and in 22 patients with liver cirrhosis (158.3 +/- 49.9 ng/ml, p < 0.0001). The mean sCR1 levels dropped from 181 +/- 62.7 to 52.1 +/- 24.0 ng/ml (p < 0.001) in nine patients who underwent liver transplantation, and was 33.5 +/- 7.3 in 10 patients with functioning renal grafts, indicating that the increase in sCR1 was reversible. Soluble CR1 was elevated in some hematologic malignancies (> 47 ng/ml), which included B cell lymphoma (12/19 patients), Hodgkin's lymphoma (4/4), and chronic myeloproliferative syndromes (4/5). By contrast, no increase was observed in acute myeloid or lymphoblastic leukemia (10) or myeloma (5). In two patients with chronic myeloproliferative syndromes, sCR1 decreased rapidly after chemotherapy. The mean concentration of sCR1 was not significantly modified in 181 HIV-infected patients at various stages of the disease (34.8 +/- 14.4 ng/ml), and in 13 patients with active
SLE
(38.3 +/- 19.6 ng/ml), although in both groups the number of CR1 was diminished on E. There was a weak but significant correlation between sCR1 and CR1 per E in HIV infection and
SLE
(r = 0.39, p < 0.0001, and r = 0.60, p < 0.03 respectively). In vitro, monocytes, lymphocytes, and neutrophils were found to release sCR1 into culture supernatants. In vivo, sCR1 was detected in the serum of SCID mice populated with human peripheral blood leukocytes. The sCR1 levels correlated with those of human IgG (r = 0.97, p < 0.0001), suggesting synthesis of sCR1 by the transferred lymphocytes. The mechanisms underlining the increased levels of sCR1 and its biologic consequences remain to be defined.
...
PMID:Circulating soluble CR1 (CD35). Serum levels in diseases and evidence for its release by human leukocytes. 833 53
Expression of the human erythrocyte C3b receptor (CR1-
CD35
) and its Hind III RFLP was studied in a group of 37 patients with
SLE
, 15 consanguineous relatives of the patients and 48 healthy normal subjects. The CR1 number on erythrocytes was quantitated by ELISA using a mAb to CR1. Serum levels of complement proteins (C3, C4, C3d) and circulating immune complexes (CIC) were estimated simultaneously in controls and relatives. The patients were followed up during the course of the treatment. The CR1/erythrocyte (CR1/E) in patients were found to be significantly low in comparison to controls. The gene frequencies for the alleles H and L (7.4 and 6.9 kb Hind III restriction fragments) in the patients were 0.75 and 0.25, respectively, which did not differ significantly from the controls (0.77 and 0.23 in normal subjects and 0.79 and 0.21 in consanguineous relatives of the patients). However, patients expressed fewer CR1/E within each genotype than their relatives and healthy subjects. CR/E was found to be stable in consecutive samples in controls. In patients, the numbers varied between low and high during the course of the treatment. The variation in the numbers was significantly correlated with C3d and CIC as well as with the severity of the disease. Our results suggest that low levels of CR1 on erythrocytes in
SLE
patients are required during the course of the disease and that the 6.9 kb restriction fragment does not play a role in causing susceptibility to the disease.
...
PMID:Hind III genomic polymorphism of the C3b receptor (CR1) in patients with SLE: low erythrocyte CR1 expression is an acquired phenomenon. 859 25
Human complement receptors type 1 (hCR1;
CD35
) and type 2 (hCR2;CD21) are expressed on B lymphocytes at specific stages during differentiation and activation. These receptors play critical roles in the immune response to T-dependent Ags in addition to germinal center formation. Expression of both hCR2 and hCR1 is decreased on B lymphocytes of patients with
systemic lupus erythematosus
(
SLE
). We have studied the expression of mouse CR2 and CR1 on normal populations of mouse B lymphocytes in BALB/c mice. Our results demonstrate that expression of these receptors in the normal state closely parallels that of hCR2. During bone marrow development, expression is first detected on low B220/high IgM cells, demonstrating that complement receptors appear after central tolerance mechanisms are completed. In the splenic microenvironment the highest levels of receptor expression are found on marginal zone B lymphocytes. Mouse CR2 and CR1 are also found on peritoneal B1a and B1b cells in addition to IgA+ Peyer's patch B cells. Activation of splenic B cells under Th2 conditions results in a marked decrease in receptor expression. To determine whether the patterns of receptor expression also parallel those found in human disease, we studied the MRL lpr/lpr (MRL/lpr) model of
SLE
. Interestingly, we found an early decrease in complement receptor expression that is progressive and first detectable before major clinical manifestations of nephritis. We hypothesize that the early decrease in complement receptor expression such as that demonstrated by MRL/lpr mice plays an important role in the pathogenesis of murine and perhaps human
SLE
.
...
PMID:Mouse complement receptors type 1 (CR1;CD35) and type 2 (CR2;CD21): expression on normal B cell subpopulations and decreased levels during the development of autoimmunity in MRL/lpr mice. 923 55
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