A New Technique Using an Aggregating Antibody Against Glycophorin-A for Purging Ficoll-Paque-Separated Leucocytes of Contaminating Erythroid Lineage Cells (original) (raw)
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Removal of antibodies from red cells: Comparison of three elution methods
Asian Journal of Transfusion Science, 2013
Background: Direct antiglobulin test (DAT) is the most common test done in immunohematology lab, which detects immunoglobulin and fragments of complement attached to the red blood cells. These coated red blood cells are difficult to accurately phenotype, which may be required for selection of appropriate unit of red blood cells for transfusion. Aims: We have studied the efficacy of various elution methods in removing the antibodies coating the red cells and their impact on different blood group antigen activity. Materials and Methods: Patient samples sent for serological evaluation of autoimmune hemolysis were included in the study. DAT and Indirect antiglobulin test (IAT) were performed using gel cards (ID system, DiaMed Switzerland). Antibody coated red cells, either by in-vivo or in-vitro sensitization, were used to assess the outcome of three elution methods. Results: Out of 93 DAT positive samples already sensitized in vivo, 28 (30 %) samples became DAT negative post elution using either of three methods, while 36 (38.8%) showed reduction in strength of reaction, whereas in 29 (31.2%) there was no change in strength of reaction. Similarly, out of the 17 samples prepared by in vitro sensitization, 12 samples became completely negative after glycine-HCl/EDTA elution, 9 and 5 samples became negative after heat elution and chloroquine diphosphate elution methods, respectively. Conclusion: On comparative analysis glycine-HCl/EDTA elution method was better than the other two methods and can be used for eluting immunoglobulins from intact red cells.
Exp Cell Res, 1969
Aldehyde-treated erythrocytes were taken up by mouse L2 cells grown on glass in MEM-IO % fetal calf serum. Uptake was inhibited by anti-red cell rabbit serum or by IgG obtained from immune serum. Antiserum was inhibitory when either added to ingestion medium or used to pretreat the erythrocytes. Qualitative observations showed that the attachment of red cells to L2 cells was also decreased. Non-immune serum and non-immune IgG were not inhibitory. Inhibitory activity was sharply reduced by absorption with homologous erythrocytes but not with heterologous red cells or with L2 cells, indicating that the effect of antiserum was immunologically specific. Digestion of the immune IgG with pepsin decreased the inhibitory activity two fold, whereas digestion with papain led to a twenty fold decrease in activity. Thus, L2 cells, unlike macrophages, do not have surface receptors for antigen-bound immunoglobulin. Uptake of aldehyde-red cells coated with ovalbumin, plasma albumin or hemoglobin was likewise reduced when compared to that of non-coated erythrocytes. It is suggested that antibody, or the purified proteins, either mask the red cell surface sites that interact with the L2 surface or otherwise modify the particle surface so as to inhibit the attachment step of phagocytosis.
Antigenicity of rat erythrocyte glycophorins
Immunology Letters, 1988
The relationship between rat red blood cell (RBC) glycophorins and the antigens recognised by anti-rat RBC antibodies was examined. Initially, murine monoclonal antibodies specific for surface epitopes on whole rat RBCs were tested for their reactivity with RBC membranes on Western blots and two were found which reacted with blotted antigens. These antibodies recognised two bands corresponding to the major PAS-stainable bands of rat RBC membranes (i.e., the glycophorins) and a number of minor bands, thus demonstrating that the bands are antigenically related. This band-pattern was remarkably similar to that obtained with mouse anti-rat RBC serum. Digestion with neuraminidase altered the electrophoretic mobility of most of the bands, providing additional evidence that they are sialoglycoproteins, although sialic acid was shown not to contribute to their antigenicity. The glycophorin nature of the major antigens was verified by reelectrophoresis and blotting of bands excised from SDS gels, which showed that they were interconvertible monomeric and dimeric forms of the same polypeptide chain. It is suggested that rat RBC glycophorins are a related family of sialoglycoproteins with the high molecular weight members being formed by dimerization of five lower molecular weight polypeptide chains in various combinations.
Experimental Gerontology, 1991
A recent review summarized the evidence for and against our hypothesis for the role of glycophorin in the senescence and clearance of mammalian red blood cells (RBC) from circulation. This hypothesis postulates the loss of sialic acid from RBC surface in two forms: (a) as vesicles containing the sialoglycoprotein glycophorin, and (b) as free sialic acid residues from glycophorin molecules remaining on cell surface. In this report we demonstrate the applicability of flow cytometric procedures to explore, at the cellular level, time-dependent changes on RBC surface with change in cell size, and with in vivo age. The RBC are probed with fluorescein isothiocyanate (FITC) labelled lectins and goat anti-human-IgG and -IgM. The relative intensity of fluorescence is correlated to the change in RBC size as measured by forward lightscatter. Reactivity of RBC with FITC-labelled wheat germ agglutinin can be inhibited with either 0.2M N-acetylglucosamine or by removal of sialic acid residues with neuraminidase. The properties of the smallest RBC correspond to those of the oldest RBC in their: (a) decreased reactivity with FITC-labelled lectins that recognize sialic acid residues, wheat germ and Limax flavus agglutinins, and (b) increased reactivity with FITC-labelled goat anti-human-IgG and -IgM. These results are compatible with our glycophorin hypothesis. Moreover, they suggest that the initial loss of sialic acid as glycophorin containing vesicles is gradual, while the subsequent step involving the loss of sialic acid residues is rapid and exposes multiple disaccharide galactose 13(1-3)N-acetylgalacosaminyl residues. These unmasked disaccharide sites are recognized by autoimmune IgG, IgM, and lectin-like receptors on macrophages resulting in the clearance of senescent RBC from circulation.
Blood, 1984
Two new cell surface antigens specific for the erythroid lineage were defined with cytotoxic IgM monoclonal antibodies (McAb) (EP-1; EP-2) that were produced using BFU-E-derived colonies as immunogens. These two antigens are expressed on in vivo and in vitro derived adult and fetal erythroblasts, but not on erythrocytes. They are not detectable on resting lymphocytes, concanavalin-A (Con-A) activated lymphoblasts, granulocytes, and monocytes or granulocytic cells or macrophages present in peripheral blood or harvested from CFU-GM cultures. Cell line and tissue distributions distinguish McAb EP-1 and EP-2 from all previously described monoclonal antibodies. McAb EP-1 (for erythropoietic antigen-1) inhibits the formation of BFU-E and CFU-E, but not CFU-GM, colonies in complement-dependent cytotoxicity assays. By cell sorting analysis, about 90% of erythroid progenitors (CFU-E, BFU-E) were recovered in the antigen-positive fraction. Seven percent of the cells in this fraction were prog...
Flow cytometric analysis of human erythrocytes: I. Probed with lectins and immunoglobulins
Experimental gerontology, 1991
A recent review (Aminoff, 1988) summarized the evidence for and against our hypothesis for the role of glycophorin in the senescence and clearance of mammalian red blood cells (RBC) from circulation. This hypothesis postulates the loss of sialic acid from RBC surface in two forms: (a) as vesicles containing the sialoglycoprotein glycophorin, and (b) as free sialic acid residues from glycophorin molecules remaining on cell surface. In this report we demonstrate the applicability of flow cytometric procedures to explore, at the cellular level, time-dependent changes on RBC surface with change in cell size, and with in vivo age. The RBC are probed with fluorescein isothiocyanate (FITC) labelled lectins and goat anti-human-IgG and-IgM. The relative intensity of fluorescence is correlated to the change in RBC size as measured by forward lightscatter. Reactivity of RBC with FITC-labelled wheat germ agglutinin can be inhibited with either 0.2M N-acetylglucosamine or by removal of sialic acid residues with neuraminidase. The properties of the smallest RBC correspond to those of the oldest RBC in their: (a) decreased reactivity with FITC-labelled lectins that recognize sialic acid residues, wheat germ and Limax flavus agglutinins, and (b) increased reactivity with FITC-labelled goat anti-human-IgG and-IgM. These results are compatible with our glycophorin hypothesis. Moreover, they suggest that the initial loss of sialic acid as glycophorin containing vesicles is gradual, while the subsequent step involving the loss of sialic acid residues is rapid and exposes multiple disaccharide galactose 13(1-3)N-acetylgalacosaminyl residues. These unmasked disaccharide sites are recognized by autoimmune IgG, IgM, and lectin-like receptors on macrophages resulting in the clearance of senescent RBC from circulation.
Studies on the sequestration of chemically and enzymatically modified erythrocytes
American Journal of Hematology, 1983
We have developed an experimental animal model to establish the patterns of sequestration of untreated, as well as chemically and enzymatically modified red blood cells (RBC). The intraperitoneal route of transfusion provides a useful way of transferring large numbers of untreated RBC into small animals and assuring their introduction into the circulation within 24 hr. Moreover, this route "filters" some types of modified erythrocytes, eg, glutaraldehyde treated RBC. From the pattern of sequestration, the RBC in the peritoneal cavity then pass through the liver where other types of modified RBC are sequestered, eg, after trypsin, pronase, protease, or sialidase treatment. Some modified RBC show a preference for the spleen as the site of sequestration, eg, galactose oxidase or N-ethylmaleimide treated RBC. These appear in the spleen despite intraperitoneal transfusion. Relevant to this study is the observation that in the rat old RBC are sequestered both by liver and spleen, while asialoerythrocytes are sequestered by liver only. A possible reason for this difference is discussed in the text.
Journal of Immunological Methods, 1992
LenCAM (CD11/CD18) cell-surface antigens are easily upregulated on cell manipulation ex vivo. A procedure for preparing leucocytes~ in which human blood is immediately treated ex vivo with buffered formaldehyde and then the erythrocytes and platelets are removed by lysis and differential centrifugation, has been successfully applied to the analysis of LeuCAM antigen expression by flow cytometry. We show that the increased expression of monocyte CDll/CD18, which occurs when mononuclear leucocytes are separated by a standard Lympboprep density gradient separation, can be avoided if cells are fixed immediately. Following this fixation polymorphs are unable to upregulate CD11/CD18 in response to fMLP stimulation in vitro. The technique produces lymphocyte, polymorph and monocyte populations that can be clearly defined on the basis of forward scatter and side scatter, and preserves the expression of various surface antigens; the percentages of gated iymphocytes expressing CD3, CD4, and CD8 were similar to those obtained using a commercial f'vdng and lysis solution. The processing does not render cells permeable to antibodies, as evidenced by our failure to stain cells with antibodies to intracellular antigens. We believed the method to be useful for measuring CDll/CD18 expression on blood leucocytes from normal or pathological specimens and to have application to the measurement of other cells surface antigens wnich may a~o be upregulated by the separation procedures.