TY - JOUR
T1 - Inhibition of IgE binding to mast cells and basophils by monoclonal antibodies to murine IgE
AU - Baniyash, Michal
AU - Eshhar, Zelig
PY - 1984
Y1 - 1984
N2 - In an attempt to identify the site on IgE which binds with high affinity to the Fcϵ receptor (FcϵR) on mast cells, we established monoclonal anti‐IgE antibodies (mAb) by fusion of myeloma cells with rat splenocytes immunized with purified murine IgE mAb. Six individual mAb were found to react with various IgE mAb of different specificities and not with immunoglobulins of other classes. Three different clusters of epitopes on the Fcϵ portion could be detected by antibody competition studies. These antigenic determinants were expressed on the Fcϵ portion and required the two heavy chains in their native conformation. Two groups of mAb and their Fab′ fragments completely inhibited the binding of 125I‐labeled IgE to rat basophilic leukemia cells (RBL), and one mAb inhibited the specific IgE binding only partially (55–65%). Likewise, the Fab′ fragments of the purified mAb inhibited the antigen‐mediated, IgE‐dependent, serotonin release of RBL cells. These in vitro findings were confirmed by in vivo experiments, which demonstrated that the anti‐IgE mAb could specifically block passive cutaneous anaphylaxis reaction when injected i.d., before challenging with the antigen. The differences in blocking reactivity of the various anti‐IgE mAb are discussed in view of heterogeneity in the IgE‐FcϵR interaction.
AB - In an attempt to identify the site on IgE which binds with high affinity to the Fcϵ receptor (FcϵR) on mast cells, we established monoclonal anti‐IgE antibodies (mAb) by fusion of myeloma cells with rat splenocytes immunized with purified murine IgE mAb. Six individual mAb were found to react with various IgE mAb of different specificities and not with immunoglobulins of other classes. Three different clusters of epitopes on the Fcϵ portion could be detected by antibody competition studies. These antigenic determinants were expressed on the Fcϵ portion and required the two heavy chains in their native conformation. Two groups of mAb and their Fab′ fragments completely inhibited the binding of 125I‐labeled IgE to rat basophilic leukemia cells (RBL), and one mAb inhibited the specific IgE binding only partially (55–65%). Likewise, the Fab′ fragments of the purified mAb inhibited the antigen‐mediated, IgE‐dependent, serotonin release of RBL cells. These in vitro findings were confirmed by in vivo experiments, which demonstrated that the anti‐IgE mAb could specifically block passive cutaneous anaphylaxis reaction when injected i.d., before challenging with the antigen. The differences in blocking reactivity of the various anti‐IgE mAb are discussed in view of heterogeneity in the IgE‐FcϵR interaction.
UR - http://www.scopus.com/inward/record.url?scp=0021175924&partnerID=8YFLogxK
U2 - 10.1002/eji.1830140907
DO - 10.1002/eji.1830140907
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C2 - 6207029
AN - SCOPUS:0021175924
SN - 0014-2980
VL - 14
SP - 799
EP - 807
JO - European Journal of Immunology
JF - European Journal of Immunology
IS - 9
ER -