Abstract
Antigen-specific IgG antibodies, passively administered together with erythrocytes, prevent antibody responses against the erythrocytes. The mechanism behind the suppressive ability of IgG has been the subject of intensive studies, yet there is no consensus as to how it works. An important question is whether the Fc-region of IgG is required. Several laboratories have shown that IgG suppresses equally well in wildtype mice and mice lacking the inhibitory FcγIIB, activating FcγRs (FcγRI, III, and IV), or complement factor C3. These observations consistently suggest that IgG-mediated suppression does not rely on Fc-mediated antibody functions. However, it was recently shown that anti-KEL sera failed to suppress antibody responses to KEL-expressing transgenic mouse erythrocytes in double knock-out mice lacking both activating FcγRs and C3. Yet, in the same study, antibody-mediated suppression worked well in each single knock-out strain. This unexpected observation suggested Fc-dependence of IgG-mediated suppression and prompted us to investigate the issue in the classical experimental model using sheep red blood cells (SRBC) as antigen. SRBC alone or IgG anti-SRBC together with SRBC was administered to wildtype and double knock-out mice lacking C3 and activating FcγRs. IgG efficiently suppressed the IgM and IgG anti-SRBC responses in both mouse strains, thus supporting previous observations that suppression in this model is Fc-independent.
Highlights
Administered IgG can almost completely suppress an antibody response to its specific antigen
WT and (FcRγ × C3) double KO mice (DKO) mice were immunized with IgG anti-sheep red blood cells (SRBC) and SRBC, SRBC alone, or IgG anti-SRBC alone and the number of IgM anti-SRBC-producing spleen cells were assayed 5 days after immunization (Figure 1)
The number of plaque forming cells (PFC) were lower in DKO mice (6 748/spleen) than in WT mice (33 191/spleen) immunized with SRBC
Summary
Administered IgG can almost completely suppress an antibody response to its specific antigen. The mechanism behind this phenomenon remains elusive, antibody-mediated immune suppression was first described already in 1909 [1]. The ability of passively administered IgG to suppress antibody responses to erythrocytes has been used successfully in the clinic. Central to understanding the mechanism behind IgGmediated suppression is to determine whether it requires the Fc-portion of IgG or not. Erythrocyte clearance, complementmediated lysis or inhibition of B cell activation through cocrosslinking of the negatively regulating FcγRIIB and BCR would all require the IgG Fc-portion. The obvious way to determine Fcdependence is to test whether F(ab′) fragments can suppress or not. Such investigations have given discrepant results, some showing that F(ab′) fragments do suppress [8,9,10] and others that they do not [11,12,13,14,15]
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