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References (34)
-
J. Magnani, M. Brockhaus, D. Smith, V. Ginsburg, M. Błaszczyk, K. Mitchell, Z. Steplewski, H. Koprowski (1981)
A monosialoganglioside is a monoclonal antibody-defined antigen of colon carcinoma.Science, 212 4490
-
P. Grabar (1975)
Hypothesis. Auto-antibodies and immunological theories: an analytical review.Clinical immunology and immunopathology, 4 4
-
J. Mckibbin, W. Spencer, E. Smith, J. Månsson, K. Karlsson, B. Samuelsson, Y. Li, S. Li (1982)
Lewis blood group fucolipids and their isomers from human and canine intestine.The Journal of biological chemistry, 257 2
-
(1985)
Immunochemistry of I/i-active oligo-and polyglycosylceramide from rabbit erythrocyte membranes -
(1986)
The natural antia - galactosyl IgG on human normal senescent red blood cells -
H. Lutz, R. Flepp, G. Stringaro-Wipf (1984)
Naturally occurring autoantibodies to exoplasmic and cryptic regions of band 3 protein, the major integral membrane protein of human red blood cells.Journal of immunology, 133 5
-
B. Macher, J. Klock, M. Fukuda, M. Fukuda (1981)
Isolation and structural characterization of human lymphocyte and neutrophil gangliosides.The Journal of biological chemistry, 256 4
-
N. Hiyama (1969)
[Blood group substances].Tanpakushitsu kakusan koso. Protein, nucleic acid, enzyme, 14 8
-
U. Galili, M. Clark, S. Shohet (1986)
Excessive binding of natural anti-alpha-galactosyl immunoglobin G to sickle erythrocytes may contribute to extravascular cell destruction.The Journal of clinical investigation, 77 1
-
U. Galili, M. Clark, S. Shohet, J. Buehler, B. Macher (1987)
Evolutionary relationship between the natural anti-Gal antibody and the Gal alpha 1----3Gal epitope in primates.Proceedings of the National Academy of Sciences of the United States of America, 84 5
-
(1960)
Preventive Medicine: Principles of Prevention in Occurrence and Progression of Disease -
R. Owen (1954)
Heterogeneity of antibodies to the human blood groups in normal and immune sera.Journal of immunology, 73 1
-
J. Chien, S. Li, Y. Li (1979)
Isolation and characterization of a heptaglycosylceramide from bovine erythrocyte membranes.Journal of lipid research, 20 5
-
T. Eto, Y. Ichikawa, K. Nishimura, S. Ando, T. Yamakawa (1968)
Chemistry of lipid of the posthemyolytic residue or stroma of erythrocytes. XVI. Occurrence of ceramide pentasaccharide in the membrane of erythrocytes and reticulocytes of rabbit.Journal of biochemistry, 64 2
-
B. Guilbert, G. Dighiero, S. Avrameas (1982)
Naturally occurring antibodies against nine common antigens in human sera. I. Detection, isolation and characterization.Journal of immunology, 128 6
-
(1986)
Evolutionary relationship between the anti - Gal antibody and its a - galactosyl binding site in primates -
S. Singer (1969)
Structural concepts in immunology and immunochemistry: by Elvin A. Kabat, Molecular and Cellular Biology Series, Holt, Rinehart and Winston, Inc., New York, 1968. 310 pages, $10.50 cloth, $6.50 paperbackImmunochemistry, 6
-
Uri Galili, Aviva Korkesh, Itzhak Kahane, E. Rachmilewitz (1983)
Demonstration of a natural antigalactosyl IgG antibody on thalassemic red blood cells.Blood, 61 6
-
E. Kabat (1956)
Heterogeneity in extent of the combining regions of human antidextran.Journal of immunology, 77 6
-
W. Socha, J. Ruffié (1983)
Blood groups of primates : theory, practice, evolutionary meaning -
(1957)
A simple method for the isolation and purification of total lipids from animal tissues -
U. Galili, Rachmilewitz Ea, A. Peleg, I. Flechner (1984)
A unique natural human IgG antibody with anti-alpha-galactosyl specificityThe Journal of Experimental Medicine, 160
-
B. Macher, J. Klock (1980)
Isolation and chemical characterization of neutral glycosphingolipids of human neutrophils.The Journal of biological chemistry, 255 5
-
U. Galili, I. Flechner, A. Knyszynski, D. Danon, E. Rachmilewitz (1986)
The natural anti‐α‐galactosyl IgG on human normal senescent red blood cellsBritish Journal of Haematology, 62
-
(1985)
Human natural anti-agalactosyl IgG. II. The specific recognition of a(1--) .3)-linked galactose residues -
K. Uemura, M. Yuzawa, T. Taketomi (1978)
Characterization of major glycolipids in bovine erythrocyte membrane.Journal of biochemistry, 83 2
-
(1964)
Human A-like and B-like antigens on red cells of marmosets -
J. Buehler, B. Macher (1986)
Glycosphingolipid immunostaining: detection of antibody binding with an avidin-biotin enzyme system.Analytical biochemistry, 158 2
-
W. Lee, M. Westrick, B. Macher (1982)
Neutral glycosphingolipids of human acute leukemias.The Journal of biological chemistry, 257 17
-
K. Watanabe, Y. Arao (1981)
A new solvent system for the separation of neutral glycosphingolipids.Journal of lipid research, 22 6
-
K. Landsteiner, C. Miller (1925)
SEROLOGICAL STUDIES ON THE BLOOD OF THE PRIMATESThe Journal of Experimental Medicine, 42
-
(1977)
Blood groups ofmantled howler monkey -
N. Gengozian (1964)
Human A- and B-Like Antigens on Red Cells of Marmosets.∗Proceedings of the Society for Experimental Biology and Medicine, 117
-
S. Avrameas, G. Dighiero, P. Lymberi, B. Guilbert (1983)
Studies on natural antibodies and autoantibodies.Annales d'immunologie, 134D 1
- Publisher
- Rockefeller University Press
- Copyright
- © 1987 Rockefeller University Press
- ISSN
- 0022-1007
- eISSN
- 1540-9538
- DOI
- 10.1084/jem.165.3.693
- Publisher site
- See Article on Publisher Site
Abstract
A well-defined antigen/antibody system was used to evaluate the effect of immune tolerance on the spectrum of specificities of natural antibodies. The antibody used in this study, anti-Gal, is a naturally occurring, polyclonal IgG that constitutes 1% of the circulating IgG in humans. We have previously shown that anti-Gal, purified from AB sera, specifically interacts with glycosphingolipids bearing a Gal alpha 1----3Gal epitope, but not with the closely related B antigen in which the penultimate galactose of the Gal alpha 1----3Gal epitope is fucosylated Gal alpha 1----3(Fuc alpha 1----2)Gal. This narrow specificity was assumed to be the result of an effective immune tolerance mechanism that prevents the expression of antibody clones that can recognize both the Gal alpha 1----3Gal and the self B epitopes. If the assumption that immune tolerance determines the range of anti-Gal specificity is correct, then anti-Gal from individuals lacking the B antigen (A and O blood types) would be expected to interact with both Gal alpha 1----3Gal and Gal alpha 1----3(Fuc alpha 1----2)Gal epitopes. In this study, anti-Gal from the serum of individuals of various blood types was purified by affinity chromatography on Gal alpha 1----3Gal adsorbent and tested for its reaction with the B antigen. Whereas anti-Gal from AB and B individuals only reacted with Gal alpha 1----3Gal epitopes, anti-Gal from A and O individuals reacted with both Gal alpha 1----3Gal and B epitopes. Furthermore, it was determined that the majority of anti-B reactivity in A and O individuals is in fact anti-Gal antibodies capable of recognizing both Gal alpha 1----3Gal and B epitopes. It can be concluded from these results that immune tolerance accurately controls the spectrum of natural antibody specificities by preventing the production of antibody clones that can interact with self antigens.
Journal
The Journal of Experimental Medicine – Rockefeller University Press
Published: Mar 1, 1987