Erythrocyte complement receptor type 1 (CR1) expression and circulating immune complex (CIC) levels in hydralazine-induced SLE.

Family studies were carried out to look at CR1 expression in 24 hydralazine-induced SLE patients (Hz Reactors), who had been off the drug for at least 1 year and were clinically well at the time of the study. Mean expression of CR1 was reduced by 27% in the group of hypertensives who had developed Hz-induced SLE compared with a group of 35 normal individuals. CR1 expression was also slightly reduced in the relatives of the Hz Reactors compared to the normal group. Using a solid-phase Clq binding assay, CIC levels were found to be elevated in the plasma of the Hz reactors and an inverse relationship was found between CR1 levels and CIC levels in this patient group. Both CR1 levels and CIC levels in Hz Reactors and normal individuals were constant over the 36 weeks studied. This study suggests that there is an association between an inability to deal efficiently with CIC and susceptibility to developing Hz-induced SLE.     

Family studies of erythrocyte complement receptor type 1 levels: reduced levels in patients with SLE are acquired, not inherited.

It has been claimed that patients with systemic lupus erythematosus (SLE) have an inherited deficiency of erythrocyte complement receptor type 1 (CR1, with ligand binding specificity for C3b, iC3b and C4b). CR1 functions as the only cofactor for factor I-mediated cleavage of iC3b to C3c and C3dg. The activity of this receptor on red cells may be an important mechanism for handling immune complexes which have bound C3b or iC3b. Radioligand binding studies were performed using a monoclonal antibody to CR1, E11, to enumerate these receptors accurately. The results confirmed that patients with SLE have a reduced number of CR1 molecules per red cell, but showed no reduction in CR1 levels amongst their consanguineous relatives. Study of 13 normal families suggested the presence of heritable factors controlling the numbers of erythrocyte CR1 molecules; in particular there was a correlation between mean parental CR1 numbers and CR1 numbers in their children. However, amongst 17 families of 19 patients with SLE, four families were identified in which genotypically 'high CR1' SLE patients had persistently low phenotypes. This is not compatible with the hypothesis that the reduction in erythrocyte CR1 numbers in these patients is inherited.     

Erythrocyte CR1 expression level does not correlate with a HindIII restriction fragment length polymorphism in Africans; implications for studies on malaria susceptibility

Complement receptor 1 (CR1) expression level on erythrocytes is genetically determined, and in Caucasian populations is linked to high (H) and low (L) expression alleles identified by a HindIII restriction fragment length polymorphism (RFLP). Erythrocyte CR1 may be an important factor in determining malaria susceptibility, as low expression of CR1 reduces the rosetting of uninfected erythrocytes with Plasmodium falciparum-infected cells, a process that contributes to malaria pathogenesis. Prior to studying CR1 expression and malaria susceptibility, we have investigated whether the quantity of erythrocyte CR1 correlates with the H and L alleles in an African population. Mean erythrocyte CR1 in 149 Malian adults was 415 molecules per cell, which is comparable to Caucasian populations; however, there was no relationship between erythrocyte CR1 level and genotype for the HindIII RFLP (mean CR1 per erythrocyte HH = 414, HL = 419 and LL = 403, P > 0.1, Student's t-test). The conclusions of a previous study of erythrocyte CR1 expression level and malaria susceptibility in West Africa that was based on HindIII RFLP genotyping may therefore need to be re-evaluated.     

A CR1 polymorphism associated with constitutive erythrocyte CR1 levels affects binding to C4b but not C3b

The erythrocyte type one complement receptor (E-CR1) mediates erythrocyte binding of complement-opsonized immune complexes (IC), and helps protect against random deposition of circulating IC. Two linked CR1 polymorphisms occur in binding domains, at I643T and Q981H. In Caucasians, the variant alleles (643T, 981H) are associated with low constitutive E-CR1 expression levels. This study was conducted to determine if these polymorphisms affect ligand binding, and if so, represent risk factors for the autoimmune IC disease, systemic lupus erythematosus (SLE). In an ELISA comparing relative ligand binding differences, E-CR1 from individuals homozygous for the variant residues (643TT/981HH) exhibited greater binding to C4b, but not C3b, than homozygous wild-type E-CR1. Analysis of single-binding domain CR1 constructs demonstrated that the 981H residue imparted this enhanced C4b binding. No differences were observed in the 981H allele frequency between Caucasian controls (0.170, n = 100) and SLE patients (0.130, n = 150, P = 0.133), or between African American controls (0.169, n = 71) and SLE patients (0.157, n = 67). In a subset of individuals assessed for CR1 size, excluding from this analysis those expressing at least one B allele revealed a trend for over-representation of the 981H allele in Caucasian controls (0.231 frequency, n = 26) versus SLE patients (0.139, n = 83, P = 0.089), but again no difference between African American controls (0.188, n = 24) and SLE patients (0.191, n = 34). These data suggest that the 981H residue compensates for low constitutive expression of E-CR1 in Caucasians by enhancing C4b binding. This may contribute protection against SLE.     

C3b receptor (CR1) genomic polymorphism in rheumatoid arthritis

The number of complement receptor 1 (CR1, CD35) molecules on erythrocytes is genetically determined by two codominant alleles. The numerical expression of CR1 on erythrocytes correlates with aHindIII-RFLP of CR1 gene using CR1-1, a complementary DNA probe. We have found low CR1 on erythrocytes in patients with rheumatoid arthritis (RA) in an Indian population. Low levels in RA patients may be acquired or genetically determined. Fifty-two patients with RA, 48 nonrelated healthy subjects and 19 consanguineous relatives of patients were genotyped. CR1 numbers on erythrocytes were quantitated by the enzyme-linked immunosorbent assay using monoclonal anti-CR1 antibody. Normal subjects and patients were followed up for a period of 6 months to evaluate the stability of their CR1 expression. The gene frequency for allele H and L (7.4- and 6.9-kbHindIII restriction fragment, respectively), which correlated with high and low expression of CR1 on erythrocytes was 0.77 and 0.23 in the normal controls. Gene frequency in RA patients was 0.78 and 0.22 for H and L allele, which did not differ significantly from either controls or relatives (0.80 and 0.20 for H and L allele, respectively). However, RA patients expressed fewer CR1 on erythrocytes within each genotype than their relatives and controls. CR1 on erythrocytes were found to be stable in consecutive samples in controls. In RA patients, the number varied between low and high during the course of the disease. The variation in number was significantly correlated (p <0.05, r=?0.85 to ?0.98) with disease activity as monitored by erythrocyte sedimentation rate. Our results suggest that low levels of CR1 on erythrocytes in patients with RA are not inherited, rather they are acquired during the course of the disease.     

Normal C3b receptor (CR1) genomic polymorphism in patients with insulin-dependent diabetes mellitus (IDDM): is the low erythrocyte CR1 expression an acquired phenomenon?

Expression of the erythrocyte complement receptor (C3bR = CR1 = CD35) and its genomic polymorphism (HindIII RFLP) was studied in a group of 80 patients with IDDM, 31 healthy siblings and 101 healthy blood donors. Defective CR1 expression was found in 26% of the patients with IDDM compared with 9% of the controls (P less than 0.05) and 0% of the siblings. The CR1 gene polymorphism of the IDDM patients did not significantly differ from that of the controls. The presence of a 6.9 kb (L) CR1 gene fragment was associated with a low CR1 expression in the patients (P less than 0.05) and especially in the controls (P less than 0.001). No significant association was found between the presence or absence of the HLA risk antigens for IDDM and CR1 expression. The results confirm that erythrocyte CR1 expression is genetically determined, but the CR1 deficiency associated with IDDM seems to be an acquired rather than a genetic phenomenon.     

Stimulating erythropoiesis increases complement receptor expression on primate erythrocytes.

Erythrocyte complement receptors (CR) are unique to primates and play a role in the clearance of immune complexes from the circulation. Immune complex-mediated diseases (e.g., systemic lupus erythematosus, SLE) cause decreased erythrocyte CR levels, resulting in decreased capacity of the erythrocytes to bind immune complexes that form in the circulation. Thus, raising erythrocyte CR levels might benefit patients with immune complex-mediated diseases. Because young erythrocytes express more CR than old erythrocytes, increasing erythropoiesis should increase the average number of CR expressed per erythrocyte. The present study was undertaken to test that hypothesis. Erythropoiesis was stimulated in nine cynomolgus monkeys (CYN) by weekly phlebotomy (30% of blood volume was removed, erythrocytes were discarded, and leukocytes were returned to the animal) for 8 weeks. Sham phlebotomy (30% of blood removed, then all components returned to the animal) was carried out weekly in four additional CYN for a period of 4 to 8 weeks. Sham phlebotomy did not change any of the parameters measured. However, phlebotomy resulted in a progressive increase in the mean number of CR expressed per erythrocyte (CR/erythrocyte): 2780 +/- 700 to 4230 +/- 820, P less than 0.0005. The increase in erythrocyte CR was first detected at about 2 weeks after the start of phlebotomy and was sustained through the course of phlebotomy. The increase in CR/erythrocyte included an increase in the percentage of erythrocyte expressing CR in clusters (37.9 +/- 6.4 vs 50.8 +/- 8.7%, P less than 0.01) as demonstrated by a flow cytometry study of the binding of fluorescent beads coated with anti-CR1 antibody. No significant change in leukocyte or platelet counts were observed. We conclude that stimulating erythropoiesis causes an increase in CR/erythrocyte. The magnitude of the increase suggests that it could be biologically significant.     

CR1/CR2 deficiency alters IgG3 autoantibody production and IgA glomerular deposition in the MRL/lpr model of SLE

CR1 and CR2 expression is decreased by approximately 50% on B cells of patients with systemic lupus erythematosus (SLE). Expression is also decreased in the MRL/lpr murine model of SLE prior to the development of clinical disease, suggesting that this alteration may play a role in pathogenesis. To determine whether the decrease in receptor levels affects the development of SLE, we analyzed MRL/lpr mice in which CR1/CR2 expression was altered by gene targeting. Mice from each cohort (Cr2+/+, Cr2+/-, and Cr2-/-) were analyzed biweekly for the development of proteinuria and autoantibodies. Kidneys were examined at 12 and 16 weeks for evidence of immune complex deposition and renal disease. Deficiency of CR1/CR2 did not affect survival or development of renal disease as measured by proteinuria. Mice deficient in CR1/CR2 had significantly lower levels of IgG3 rheumatoid factor (RF) and total serum IgG3, suggesting a specific defect in production of IgG3 in response to endogenous autoantigens. Since IgG3 RF has been associated with the development of vasculitis in this model, we examined the mice for alterations in development of this clinical manifestation. Although there was no difference in the development of ear necrosis among the three groups, renal arteritis was not identified in any of the Cr2+/- mice, whereas it was present in 20% of the Cr2+/- and 40% of the Cr2+/+ mice. Finally, significantly higher levels of IgA were seen in the glomeruli of Cr2+/- mice compared to Cr2+/- or Cr2+/+ mice, suggesting that CR1/CR2 are involved in either the regulation of IgA production or the clearance of IgA immune complexes. Together these data support the concept that alterations in CR1/CR2 expression or function affect the regulation of autoantibody production and/or clearance and may have clinical consequences.     

A complement receptor-1 polymorphism with high frequency in malaria endemic regions of Asia but not Africa

Complement receptor-1 (CR1) is a ligand for rosette formation, a phenomenon associated with cerebral malaria (CM). Binding is dependent on erythrocyte CR1 copy number. In Caucasians, low CR1 expressors have two linked mutations. We determined the Q981H and HindIII RFLP distribution in differing population groups to ascertain a possible role in adaptive evolution. We examined 194 Caucasians, 180 Choctaw Indians, 93 Chinese-Taiwanese, 304 Cambodians, 89 Papua New Guineans (PNG) and 366 Africans. PCR/RFLP used HindIII for CR1 expression and BstNI for the Q981H mutation. DNA sequencing and pyrosequencing were performed to resolve inconclusive results. Gene frequencies for the L allele were 0.15 in Africans, 0.16 in Choctaws, 0.18 in Caucasians, 0.29 in Chinese-Taiwanese, 0.47 in Cambodians and 0.58 in PNG. Allelic frequency for 981H were 0.07 in Africans, 0.15 in Caucasians, 0.18 in Choctaws, 0.29 in Chinese-Taiwanese, 0.47 in Cambodians and 0.54 in PNG. The Q981H polymorphism correlates with the HindIII RFLP in most groups except West Africans and appears to be part of a low CR1 expression haplotype. The gene frequency for the haplotype is highest in the malaria-endemic areas of Asia, suggesting that this haplotype may have evolved because it protects from rosetting and CM.     

Complement receptor 1 gene polymorphisms in sarcoidosis

Sarcoidosis is likely to result from exposure of genetically susceptible hosts to environmental agents. Erythrocyte (E) complement receptor 1 (CR1) is a membrane protein mediating the transport of immune complexes (ICs) to phagocytes, and at least three polymorphisms on the CR1 gene are related to erythrocyte surface density of CR1 molecules, in turn related to the rate of IC clearance from circulation. We hypothesized that sarcoidosis could be associated with increased frequency of the CR1 gene alleles coding for reduced CR1/E ratio. We studied 91 sarcoid patients and two control groups: 94 healthy volunteers and 71 patients with chronic obstructive pulmonary disease (COPD). Three polymorphic sites of CR1 gene, His1208Arg, intron 27 HindIII/RFLP, and Pro1827Arg, were analyzed. The three polymorphisms were in linkage disequilibrium. The GG genotype for the Pro1827Arg (C(5507)G) polymorphism was significantly associated with sarcoidosis in comparison to both control groups (odds ratio [OR] = 3.13; 95% confidence interval [CI] 1.49-6.69 versus healthy control subjects, and OR= 2.82, 95% CI 1.27-6.39 versus COPD control subjects). The same genotype was particularly associated to disease in females (OR = 7.05; 95% CI 3.10-16.61 versus healthy control subjects). These findings agree with speculations on the role of CR1 gene as a possible susceptibility factor.     

Different familial association patterns of autoimmune diseases between juvenile-onset systemic lupus erythematosus and juvenile rheumatoid arthritis.

The aim of this study was to determine if the prevalence of autoimmune disorders in the relatives of patients with systemic lupus erythematosus (SLE) is greater than that of relatives of patients with juvenile rheumatoid arthritis (JRA). Interviews were used to obtain histories of the following autoimmune disorders among living or deceased first-, second-, and third-degree relatives of 91 SLE and 110 JRA families: ankylosing spondylitis, SLE, rheumatoid arthritis (RA), JRA, multiple sclerosis, juvenile dermatomyositis, Sj?gren's syndrome, myasthenia gravis, psoriasis, and thyroid diseases. There were statistically significant differences between the SLE and JRA probands in mean age and gender ratio (19.1 +/- 4.8 vs 14.0 +/- 5.5 years; M (male)/F (female): 17/74 vs 62/48, p<0.005). The prevalence rate of autoimmune diseases in relatives of SLE families (20.9%) was greater than in JRA families (11.8%), but not statistically significantly so. The mean age (18.0 +/- 5.3 vs 14.0 +/- 4.3 years), mean age at diagnosis (13.4 +/- 4.3 vs 7.9 +/- 3.9 years) and gender ratio (F/M, 16/3 vs 5/8) of the patients with affected relatives between these 2 groups all had statistically significant differences. A higher prevalence of SLE in relatives was found in SLE families than in JRA cases. Furthermore, this study revealed a higher incidence of autoimmune disorders among second- and third-degree relatives of SLE or JRA probands versus first-degree ones, especially sisters (including 1 pair of twins) and the maternal aunt in SLE families. These data demonstrate that the prevalence of autoimmune disorders in the relatives of patients with SLE is greater than those of relatives of patients with JRA. This suggests that clinically different autoimmune phenotypes may share common susceptibility genes, which may act as risk factors for autoimmunity.     

MCP-1启动子-2518位点基因多态性与云南汉族SLE的研究

目的研究单核细胞趋化蛋白-1（MCP-1）启动子-2518位点基因多态性与云南汉族系统性红斑狼疮（SLE）及狼疮性肾炎（LN）的联系。方法采用聚合酶链反应（PCR）与限制性片段长度多态性（RFLP）方法对61例SLE患者（SLE合并LN患者28例,SLE未合并LN患者33例）和65例正常对照的MCP-1启动子-2518位点基因多态性分布进行分型,以SPSS12．0分析软件分析该基因位点多态性情况。结果各组MCP-1启动子-2518位点基因型A／G较A／A、G／G出现的频率升高;各组MCP-1启动子A／A、G／G及A／G出现的频率无显著性差异（P〉0．05）。结论MCP-1启动子-2518位点基因多态性与SLE、LN的发病和病情之间均无联系。     

A simple method for accurate quantification of complement receptor 1 on erythrocytes preserved by fixing or freezing

The mean number of complement receptor 1 (CR1) molecules on erythrocytes differs between normal individuals within the range of 100-1000 molecules per cell. In some disease states such as systemic lupus erythematosus (SLE), acquired immune deficiency syndrome (AIDS), insulin-dependent diabetes mellitus and malaria, erythrocyte CR1 levels are reduced and CR1 function may be impaired. Current methods for determining erythrocyte CR1 levels by flow cytometry require the use of freshly drawn blood samples because CR1 is lost from erythrocytes during storage. In order to facilitate field studies of associations between erythrocyte CR1 levels and disease, we have developed and validated an assay to quantify CR1 on both healthy and diseased erythrocytes that have been fixed in 5% formaldehyde or frozen in glycerol. These methods enable blood samples to be collected in areas lacking the facilities for flow cytometry and stored for later accurate quantification of CR1. Such procedures will be of particular benefit for future investigations of erythrocyte CR1 expression level and malaria susceptibility.     

DNA polymorphism of major histocompatibility complex class II and class III genes in systemic lupus erythematosus

We investigated the Taq I digested DNA restriction fragment length polymorphism (RFLP) of the Major Histocompatibility Complex (MHC) class II genes: HLA-DRB, -DQA, and the class III genes: C4 and 21-hydroxylase(CYP21) in 56 caucasoid patients with systemic lupus erythematosus (SLE) and 62 control subjects in order to define the molecular variation of these genes and their association with SLE. The results showed that the gene frequencies of both HLA-DR2 and -DR3 were significantly increased in the SLE population compared to normal subjects (DR2: 21.4% vs 10.7% chi 2 = 4.5. DR3: 29.6% vs 13.3%; chi 2 = 8.3). A high frequency of C4A and CYP21A gene deletions was also found in SLE patients (SLE 52%, normals 24%). All of 22 SLE patients, and 12 of 15 normal subjects who had C4A and CYP21A gene deletions had a 10.0kb Taq 1 DRB RFLP attributable to the presence of HLA-DR3. Family studies showed linkage of C4A/CYP21A deletions with HLA-B8 and -DR3, and confirmed the previously demonstrated association of the HLA-B8, DR3, C4A*Q0, C4*B1, Bf*S, C2*C haplotype with SLE. Deletions affecting the C4A and CYP21A genes were the commonest cause of C4A null alleles in SLE. No strong association between C4 null phenotype or C4 gene deletion, as determined by RFLP, was observed in patients who possessed DR2.     

中国人内源性高甘油三酯血症患者ATP结合盒转运子A1基因R219K多态性研究

目的研究ATP结合盒转运子A1(ATP binding cassette A1,ABCA1)基因R219K多态性是否与中国人内源性高甘油三酯血症(hypertriglyceridemia,HTG)有关联,为探讨本病的分子遗传基础提供依据。方法应用聚合酶链反应-限制性片段长度多态性分析法,对成都地区309名汉族人(200名正常人和109例内源性高甘油三酯血症患者)ABCA1基因R219K多态性位点进行分析。结果中国人ABCA1基因R219K多态位点K等位基因频率在对照组和HTG组分别为0.472与0.436;HTG组和对照组R219K位点之间基因型和等位基因的频率差异无统计学意义。对照组和HTG组KK基因型携带者血清高密度脂蛋白胆固醇(high density lipoprotein-cholesterol,HDL-C)水平均较相应组RR基因型携带者显著升高[(1.48±0.45)mmol/Lvs(1.27±0.29)mmol/L,P<0.05;(1.07±0.30)mmol/Lvs(0.87±0.19)mmol/L,P<0.05];对照组RK型携带者血清甘油三酯水平较RR型携带者显著降低[(1.22±0.37)mmol/Lvs(1.41±0.84)mmol/L,P<0.05],HTG组血清甘油三酯在RR、RK、KK型之间有逐渐降低的趋势[(3.82±2.02)mmol/Lvs(3.42±1.67)mmol/Lvs(3.33±1.43)mmol/L,P>0.05];HTG组K等位基因携带者(RK或KK型者)总胆固醇(totalcholesterol,TC)/HDL-C比值均较RR型携带者显著降低(KKvsRKvsRR4.82±1.28vs5.42±1.62vs6.33±1.70,P<0.05)。结论ABCA1基因R219K多态性不仅与中国成都地区正常汉族人血清HDL-C、甘油三酯含量有关,而且还与内源性高甘油三酯血症患者血清HDL-C水平、TC/HDL-C比值相关联。     

Immune adherence and clearance of hepatitis B surface Ag/Ab complexes is abnormal in patients with systemic lupus erythematosus (SLE).

Complement levels and complement receptor 1 (CR1) on erythrocytes (E) are reduced in systemic lupus erythematosus (SLE). To see whether these abnormalities are responsible for defective transport and elimination of immune complexes (IC) from the circulation, patients with active SLE (14) and normal volunteers (14) were injected with preformed IC (hepatitis B surface Ag/Ab). Two minutes after injection only 25.9 +/- 19.1% (mean +/- 1 s.d.) of the circulating IC were bound to E in the SLE patients as compared to 63 +/- 3.7% in the normal subjects (P = 0.0001). For SLE patients, the reduced immune adherence was best explained by a combination of complement depletion and low CR1 binding capacity (tau = 0.80, P = 0.0001). The disappearance of IC as estimated from the area under the elimination curve was faster in SLE than in controls (P = 0.02), and correlated with CR1 (tau = 0.54, P = 0.0001) and immune adherence observed in vivo (tau = 0.33, P = 0.013). Finally, immune adherence was absent and IC disappeared very rapidly in a patient with C2 deficiency and an SLE-like disease. These observations suggest that in SLE the defective immune adherence reaction might be responsible for the accelerated disappearance of IC from the circulation.     

C3b receptor (CR1) expression on the polymorphonuclear leukocytes from patients with systemic lupus erythematosus.

Polymorphonuclear leukocytes (PMN) C3b receptor (CR1) numbers have been measured in 14 normal individuals and 15 patients with SLE. The results in the normals showed that PMN possess three distinct pools of CR1. CR1 expression was lowest at 0 degrees C (mean 86,000 +/- s.e.m. 7,000), but increased when the cells were incubated at 37 degrees C (125,000 +/- 16,000) or when the cells were exposed to the chemotactic peptide N-formyl-methionyl-leucyl-phenylalanine (FMLP, 10(-5) mol 1) at 37 degrees C (207,000 +/- 21,000). The increased expression at 37 degrees C was not dependent upon protein synthesis, an intact cytoskeleton or energy. Although the response to FMLP did not require de novo protein synthesis, increased CR1 expression was dependent upon an intact cytoskeleton and energy. All three PMN CR1 pools were reduced in patients with active SLE, but were normal in those in whom the disease was inactive. Serial studies performed on three SLE patients showed that PMN CR1 numbers were low during periods of disease activity and increased during remission. These data suggest that low PMN CR1 numbers in SLE are a consequence of the disease.     

A lysine-binding protein in SLE sera inhibits the binding of immune complexes to normal erythrocyte CR1 (complement receptor type 1).

The binding of 125I-labelled immune complexes (IC) to normal human erythrocyte CR1 (complement receptor type 1) by sera from patients with SLE was found to be significantly decreased compared to normal sera. In 13/29 patients, there was an inhibitor which decreased the binding of opsonized IC in normal sera to normal erythrocytes. It was found in each of the nine patients who had clinically active disease. The inhibitor was shown to be a globulin that was labile at 56 degrees C and bound to lysine; low concentrations of tranexamic acid and of lysine abolished the effects of the inhibitor which suggests that it possesses lysine-binding sites: these may block the CR1-binding site on IC opsonized with complement. This inhibitor may decrease the efficiency of IC carriage by erythrocyte CR1.