Your search keyword '"Disaccharides/immunology"' showing total 3 results

1. Initial investigation of the potential of modified porcine erythrocytes for transfusion in primates

Author

Alex Zhu, Leo Buhler, Frank J. M. F. Dor, Michel Awwad, Jan M. Eckermann, and David K. C. Cooper

Subjects

Blood transfusion, Erythrocytes, Cell Survival, Swine, viruses, medicine.medical_treatment, Immunology, Complement Hemolytic Activity Assay, Disaccharides, Andrology, Antigen, In vivo, biology.animal, medicine, Macrophage, Animals, Humans, Infusions, Intravenous, Erythrocytes/physiology, Transplantation, ddc:617, biology, Flow Cytometry, Swine/blood, In vitro, Disaccharides/immunology, Antibody Formation, biology.protein, Immunization, Antibody, Erythrocyte Transfusion, Baboon, Papio

Abstract

There is a shortage of human blood for transfusion. The possibility of using alpha-galactosidase-treated pig red blood cells (pRBCs) for transfusion into humans has been investigated. pRBCs were treated in vitro with alpha-galactosidase. In vitro binding of antibodies (Abs) in baboon or human sera to untreated/treated pRBCs was assessed by flow cytometry and serum cytotoxicity. In vivo clearance rates of (1) autologous baboon red blood cells (RBCs), (2) unmodified pRBCs, and (3) alpha-galactosidase-treated pRBCs were measured after transfusion into baboons receiving either no treatment or depletion of complement +/- depletion of anti-Gal alpha 1-3Gal (Gal) Ab or of macrophage phagocytes. In vitro binding of baboon or human Abs to treated pRBCs was absent or minimal compared with untreated pRBCs, and serum cytotoxicity was completely inhibited. In vivo autologous baboon RBCs survived for >16 days and unmodified pRBCs for

Published

2004

2. Effects of specific anti-B and/or anti-plasma cell immunotherapy on antibody production in baboons: depletion of CD20- and CD22-positive B cells does not result in significantly decreased production of anti-alphaGal antibody

Author

Alwayn, I P, Xu, Y, Basker, M, Wu, C, Buehler, Leo Hans, Lambrigts, D, Treter, S, Harper, D, Kitamura, H, Vitetta, E S, Abraham, S, Awwad, M, White-Scharf, M E, Sachs, D H, Thall, A, and Cooper, D K

Subjects

Graft Rejection, Transplantation, Heterologous/immunology, Sialic Acid Binding Ig-like Lectin 2, Plasma Cells, Transplantation, Heterologous, Antigens, CD/immunology, Epitopes/immunology, Enzyme-Linked Immunosorbent Assay, Ricin, Ricin/immunology, Disaccharides, Antigens, Differentiation, B-Lymphocyte/immunology, Graft Rejection/immunology/prevention & control, Lymphocyte Depletion, Epitopes, Mice, immune system diseases, Antigens, CD, hemic and lymphatic diseases, Lectins, Animals, Humans, B-Lymphocytes, ddc:617, Antibodies, Monoclonal, B-Lymphocytes/immunology, Antigens, CD20, Antibodies, Monoclonal/pharmacology, Antigens, Differentiation, B-Lymphocyte, Disaccharides/immunology, Plasma Cells/immunology, Antibody Formation, Immunotherapy, Cell Adhesion Molecules, Antigens, CD20/immunology, Papio

Abstract

Anti-Galalpha1-3Gal antibodies (antialphaGal Ab) are a major barrier to clinical xenotransplantation as they are believed to initiate both hyperacute and acute humoral rejection. Extracorporeal immunoadsorption (EIA) with alphaGal oligosaccharide columns temporarily depletes antialphaGal Ab, but their return is ultimately associated with graft destruction. We therefore assessed the ability of two immunotoxins (IT) and two monoclonal antibodies (mAb) to deplete B and/or plasma cells both in vitro and in vivo in baboons, and to observe the rate of return of antialphaGal Ab following EIA. The effects of the mouse anti-human IT anti-CD22-ricin A (proportional to CD22-IT, directed against a B cell determinant) and anti-CD38-ricin A (proportional to CD38-IT, B and plasma cell determinant) and the mouse anti-human anti-CD38 mAb (proportional to CD38 mAb) and mouse/human chimeric anti-human anti-CD20 mAb (proportional to CD20 mAb, Rituximab, B cell determinant) on B and plasma cell depletion and antialphaGal Ab production were assessed both in vitro and in vivo in baboons (n = 9) that had previously undergone splenectomy. For comparison, two baboons received nonmyeloablative whole body irradiation (WBI) (300 cGy), and one received myeloablative WBI (900 cGy). Depletion of B cells was monitored by flow cytometry of blood, bone marrow (BM) and lymph nodes (LN), staining with anti-CD20 and/or anti-CD22 mAbs, and by histology of LN. EIA was carried out after the therapy and antialphaGal Ab levels were measured daily. In vitro proportional to CD22-IT inhibited protein synthesis in the human Daudi B cell line more effectively than proportional to CD38-IT. Upon differentiation of B cells into plasma cells, however, less inhibition of protein synthesis after proportional to CD22-IT treatment was observed. Depleting CD20-positive cells in vitro from a baboon spleen cell population already depleted of granulocytes, monocytes, and T cells led to a relative enrichment of CD20-negative cells, that is plasma cells, and consequently resulted in a significant increase in antialphaGal Ab production by the remaining cells, whereas depleting CD38-positive cells resulted in a significant decrease in antialphaGal Ab production. In vivo, WBI (300 or 900 cGy) resulted in 100% B cell depletion in blood and BM, > 80% depletion in LN, with substantial recovery of B cells after 21 days and only transient reduction in antialphaGal Ab after EIA. Proportional to CD22-IT depleted B cells by > 97% in blood and BM, and by 60% in LN, but a rebound of B cells was observed after 14 and 62 days in LN and blood, respectively. At 7 days, serum antialphaGal IgG and IgM Ab levels were reduced by a maximum of 40-45% followed by a rebound to levels up to 12-fold that of baseline antialphaGal Ab by day 83 in one baboon. The results obtained with proportional to CD38-IT were inconclusive. This may have been, in part, due to inadequate conjugation of the toxin. Cell coating was 100% with proportional to CD38 mAb, but no changes in antialphaGal Ab production were observed. Proportional to CD20 mAb resulted in 100% depletion of B cells in blood and BM, and 80% in LN, with recovery of B cells starting at day 42. Adding 150cGy WBI at this time led to 100% depletion of B cells in the BM and LN. Although B cell depletion in blood and BM persisted for > 3 months, the reduction of serum antialphaGal IgG or IgM Ab levels was not sustained beyond 2 days. Proportional to CD20 mAb + WBI totally and efficiently depleted CD20- and CD22-positive B cells in blood, BM, and LN for > 3 months in vivo, but there was no sustained clinically significant reduction in serum antialphaGal Ab. The majority of antibody secretors are CD38-positive cells, but targeting these cells in vitro or in vivo with proportional to CD38-IT was not very effective. These observations suggest that CD20-and CD22-positive B cells are not the major source of antialphaGal Ab production. Future efforts will be directed towards suppression of plasma cell function.

Published

2001

3. Different responses of human anti-HLA and anti-alphagal antibody to long-term intravenous immunoglobulin therapy

Author

Buehler, Leo Hans, Pidwell, D, Dowling, R D, Newman, D, Awwad, M, and Cooper, D K

Subjects

Adult, Male, ddc:617, Immunoglobulins, Intravenous, Middle Aged, Disaccharides, Disaccharides/immunology, HLA Antigens, Transplantation Immunology, Autoantibodies/blood/immunology, Heart Transplantation, Humans, Female, HLA Antigens/immunology, Immunoglobulins, Intravenous/administration & dosage, Autoantibodies

Abstract

Concentrated human immunoglobulin (IVIG) has been administered intravenously in the treatment of autoimmune disorders and to reduce anti-HLA antibodies in highly sensitized patients awaiting organ transplantation. It has also been shown, in experimental animals, to prevent the hyperacute rejection of discordant xenografts, possibly by anticomplement activity. The aim of the present study was to assess the effect of IVIG therapy on both acquired anti-HLA antibodies and natural antigalactose alpha1-3 galactose (alphaGal) antibodies in five patients awaiting heart transplantation. Five patients placed on mechanical circulatory support who had developed high HLA panel-reactive antibodies (PRA) or in whom the percentage of PRA was increasing rapidly were treated weekly with 500 mg/kg IVIG, which contained 1% of anti-alphaGal IgG. Levels of PRA, anti-alphaGal IgG and IgM, and serum cytotoxicity to pig cells were measured before, during, and after therapy. PRA percentages in the five patients were initially 85%, 53%, 23%, 19% and 19% (mean 39%). Mean PRA fell by 66% after 3 months of therapy (to a mean PRA of 14%), and by 96% after 6 months therapy (to a mean PRA of 2%). Anti-alphaGal antibody levels and serum cytotoxicity to pig aortic endothelial cells did not change significantly. These results confirm the effectiveness of IVIG therapy in reducing PRA in HLA highly sensitized patients. It is likely that IVIG does not contain the relevant anti-HLA antibody, resulting in an accelerated catabolism of native alloantibodies. However, as IVIG contains a normal level of anti-alphaGal IgG, catabolism of anti-alphaGal IgG is not modified, as it is being continuously replaced. To achieve a decrease in the anti-alphaGal IgG level it would be necessary to use IVIG depleted of this antibody.

Published

1999