Key role of the number of complement receptor 1 on erythrocytes for binding of Escherichia coli to erythrocytes and for leukocyte phagocytosis and oxidative burst in human whole blood.

AIM: To study the role of complement receptor 1 (CR1) for binding of Escherichia coli (E. coli) to erythrocytes, for leukocyte phagocytosis, oxidative burst and complement activation in human whole blood from a CR1 deficient (CR1D) patient and healthy controls with low, medium and high CR1 numbers. METHODS: Alexa-labelled bacteria were used to quantify erythrocyte-bound bacteria, free bacteria in plasma and phagocytosis using flow cytometry. Complement activation in plasma was measured by enzyme-linked immunosorbent assay. The CR1 numbers as well as C3bc and C4bc deposition on erythrocytes were measured by flow cytometry. Cytokines were measured using multiplex technology, and bacterial growth was measured by colony forming units. CR1 was blocked using the anti-CR1 blocking mAb 3D9. RESULTS: Approximately 85% of E. coli bound to erythrocytes after 15 min incubation in donor blood with high and medium CR1 numbers, 50% in the person with low CR1 numbers and virtually no detectable binding in the CR1D (r2 = 0.87, P < 0.0007). The number of free bacteria in plasma was inversely related to erythrocyte CR1 numbers (r2 = 0.98, P < 0.0001). E. coli-induced phagocytosis and oxidative burst were significantly enhanced by the anti-CR1 mAb 3D9 and in the CR1D and the donor with low CR1 numbers. E. coli-induced complement activation in plasma, C3bc and C4bc deposition on erythrocytes, and bacterial growth were similar in all four cases. CONCLUSIONS: CR1D and low CR1 numbers prevented E. coli binding to erythrocytes, increased free bacteria in plasma, phagocytosis and oxidative burst, but did not affect plasma or surface complement activation and bacterial growth.

Alzheimer's disease is associated with low density of the long CR1 isoform.

The long complement receptor type 1 (CR1) isoform, CR1*2 (S), has been identified as being associated with Alzheimer's disease (AD) risk. We aimed to analyze the phenotypic structural and expression aspects (length and density) of CR1 in erythrocytes of 135 Caucasian subjects (100 AD and 35 controls). CR1 length polymorphism was assessed at protein and gene levels using Western blot and high-resolution melting, respectively. CR1 sites on erythrocytes were enumerated by flow cytometry. CR1 gene analysis, spotting the rs6656401 and rs3818361 polymorphisms, was performed by pyrosequencing. The CR1 density was significantly lower in AD patients expressing the CR1*2 isoform compared with the controls (p = 0.001), demonstrating lower expression of CR1 in CR1*2 carriers. Our data suggested the existence of silent CR1 alleles. Finally, rs6656401 and rs3818361 were strongly associated with CR1 length polymorphism (p < 0.0001). These observations indicate that AD susceptibility is associated with the long CR1 isoform (CR1*2), albeit at a lower density, suggesting that AD results from insufficient clearance of plaque deposits rather than increased inflammation.

Analysis of complement receptor type 1 expression on red blood cells in negative phenotypes of the Knops blood group system, according to CR1 gene allotype polymorphisms.

BACKGROUND: The KN blood group system, which consists of nine antigen specificities, is located on complement receptor Type 1 (CR1/CD35). CR1, a complement regulatory protein, acts as a vehicle for immune complex clearance. CR1 exhibits a red blood cell (RBC) density polymorphism. CR1 sites on RBCs in normal individuals range from 150 to 1200 molecules per cell. CR1 density polymorphism is regulated by HindIII restriction fragment length polymorphism and Q981H and P1786R polymorphisms in Caucasians. Yet, the role of the different polymorphisms in determining the CR1 density on RBCs remains unknown. The "null" serologic KN phenotype, known as Helgeson phenotype, was reported to be related with a very low CR1 density, less than 150 molecules per cell. STUDY DESIGN AND METHODS: The aim of this work was to investigate whether the KN-negative phenotype displayed by 60 individuals was related to the CR1 density by performing the phenotypic and genetic analysis of CR1 and to investigate the molecular background associated with the KN system. RESULTS: We showed that the Helgeson-like phenotype had a prevalence of 12% in this population. The overall genotype/phenotype concordance was 90%. Among individuals with a KN-negative phenotype, the prevalences of Kn(a-), McC(a-), Sl1-negative, Sl3-negative, and KCAM-negative deduced phenotype were 37, 12, 29, 7, and 24%, respectively. CONCLUSION: From our data, we suggest that the definition of the Helgeson phenotype must be revised, since the latter may be due not only to a very low CR1 density on RBCs, but also to the absence of expression of a high-prevalence KN antigen.

A new HLA extended haplotype containing the A*2910 allele in birdshot retinochoroidopathy: susceptibility narrowed to the HLA molecule itself.

PURPOSE: Birdshot retinochoroidopathy (BSRC) is a rare posterior uveitis characterized by distinctive, multiple, hypopigmented choroidal and retinal lesions. Most, if not all, patients are white and share the major histocompatibility antigen HLA-A29. Furthermore, the A*2902 subtype is closely associated with BSRC, and only a very few patients share the A*2901 subtype. Surprisingly, although A*2901 and A*2902 differ only by a single mutation (D102H), studies of microsatellites located near HLA-A have shown that two strong A*2901 and A*2902 extended haplotypes are observed in patients and control subjects. The present study analyzes the HLA-A extended haplotype of two patients who were HLA-A*2910 carriers. METHODS: Among 180 patients who fulfilled internationally defined criteria for the diagnosis of BSRC and who were HLA-A29 subtyped, two patients were found to be HLA-A*2910 carriers. These patients were tested for the microsatellite alleles MOGa, -b, -c, and -e (of the myelin oligodendrocyte glycoprotein [MOG] gene) and D6S265, D6S510, RF, C5_4_5, and D6S105. RESULTS: Although A*2902 and A*2910 differed by only a single mutation, (E177K) a new A*2910 extended haplotype was found to be distinct from the A*2901 and A*2902 extended haplotypes previously described in patients and control subjects. Among all studied microsatellite markers, no allele was shared by these extended haplotypes. CONCLUSIONS: These results suggest that susceptibility to BSRC is linked to the histocompatibility HLA-A29 molecule itself, although the development of the disease also involves inherited or probably acquired factors not linked to the major histocompatibility complex.

Nanocrystal-encoded fluorescent microbeads for proteomics: antibody profiling and diagnostics of autoimmune diseases.

The first application of nanocrystal (NC)-encoded microbeads to clinical proteomics is demonstrated by multiplexed detection of circulating autoantibodies, markers of systemic sclerosis. Two-color complexes, consisting of NC-encoded, antigen-covered beads, anti-antigen antibody or clinical serum samples, and dye-tagged detecting antibodies, were observed using flow cytometry assays and on the surface of single beads. The results of flow cytometry assays correlated with the ELISA technique and provided clear discrimination between the sera samples of healthy donors and patients with autoimmune disease. Microbead fluorescence signals exhibited narrow distribution regardless of their surface antigen staining, without the need of any fluorescence compensation-a parameter determining the limit of sensitivity of flow cytometry assays. In single bead measurements, less than 30 dye-labeled antibodies interacting with the topoI-specific antibodies at the surface of a bead have been detected by the emission of dye excited through the FRET from NCs. In this format, the antibody-bead interaction reaction turns specifically the fluorescence signal from dye label off and on, additionally increasing autoantibody detection sensitivity.

Different HLA class IA region complotypes for HLA-A29.2 and -A29.1 antigens, identical in birdshot retinochoroidopathy patients or healthy individuals.

PURPOSE: Birdshot retinochoroidopathy (BSCR) is a rare posterior uveitis characterized by distinctive, multiple, hypopigmented choroidal and retinal lesions. At least 96% of patients, if not all, share the major histocompatibility antigen HLA-A29. Although it was hypothesized earlier that more frequently the A*2902 subtype was closely associated with BSCR, new patients were found to share the A*2901 subtype and were further investigated. The present study was designated to check patients' HLA-A*2901 subtyping and the polymorphisms available in the HLA region in patients and control subjects sharing the A*2901 and A*2902 subtypes. METHODS: HLA-A29 was assessed and subtyped by molecular biology. cDNA from one patient (HLA-A*2901) was sequenced. A29.1 antigenic expression on peripheral blood lymphocytes was checked by microlymphocytotoxicity (MLCT). Four homozygous A29.2 and 4 heterozygous A29.2 patients, 3 homozygous A29.2 healthy subjects, 3 heterozygous A29.1 patients, and 11 heterozygous A29.1 healthy subjects were tested for the microsatellite alleles MOGa, -b, -c, and e (of the myelin oligodendrocyte glycoprotein [MOG]gene), D6S265, D6S510, RF, C5_4_5, D6S105, and D6S276 and the mutation H63D of the familial hemochromatosis gene (HFE). RESULTS: The patients' cDNA sequences and MLCT reactivities of HLA-A29.1 subtypes were found to be identical with published data from healthy individuals. Surprisingly, though A*2901 and A*2902 differed only by a single mutation (G376C/ D102H) two strong A*2901 and A*2902 complotypes were observed in patients and control subjects, the polymorphisms being identical at all loci near HLA-A, whereas more distant loci exhibited some diversity. CONCLUSIONS: Susceptibility to BSCR thus appeared to be located between the left and right remote markers C5_4_5 and D6S276, if not relying on the HLA-A29 molecule itself.

Age-related changes in red blood cell complement regulatory proteins and susceptibility to severe malaria.

Severe malaria-associated anemia and cerebral malaria are life-threatening complications of Plasmodium falciparum infection. Red blood cell (RBC) complement regulatory proteins (CRPs) have been implicated in the pathogenesis of both. We sought to determine whether there are age-related changes in the expression of CRPs that could explain the susceptibility to severe malaria-associated anemia in young children and the susceptibility to cerebral malaria in older children and adults. In cross-sectional surveys in malaria-endemic and -nonendemic areas of Kenya and in Reims, France, the level of RBC CRPs was lowest in young children and increased into adulthood. In case-control studies, patients with cerebral malaria and matched control subjects had higher levels of RBC CRPs than did patients with severe anemia and matched control subjects, especially during convalescence. We conclude that RBC CRP levels vary with age and that the lower levels of these proteins in young children in areas of high transmission, such as western Kenya, may place these children at greater risk of severe malaria-associated anemia than cerebral malaria.