Marginal zone macrophages are strategically positioned in the marginal zone of the spleen and are thought to play an important role in the initiation of the immune response to T-independent type 2 responses. The cells are characterized by high phagocytic activity and by the selective uptake of neutral polysaccharides. In the mouse marginal zone macrophages react specifically with the monoclonal antibody ER-TR9. Injection of the antibody resulted in a complete abrogation of the uptake of neutral polysaccharides by the cells in vivo, although the cells were still capable of taking up latex and carbon particles. The complete blockade of the polysaccharide uptake did not result in an altered humoral immune response against this antigen. When the antibody ER-TR9 was coupled to the toxin gelonin a complete elimination of the marginal zone macrophages could be established in vivo. However, complete elimination did not result in changes of the immune responses against 2,4,6-trinitrophenylated Ficoll, suggesting that the marginal zone macrophages are either not involved in this type of response, or that their function can be taken over by other cells. The possible role of these cells and the importance of the spleen in the immune response against bacterial antigens is discussed.
Studies concerning the localization of immune complexes in lymphoid follicles and the involvement of these trapped immune complexes in the regulation of the immune response have thus far been performed with poorly defined complexes in terms of size and composition. For that reason, the minimum requirements for trapping in terms of number of antigen- and antibody molecules present in immune complexes could not be determined. We here describe the production and in vivo use of a monomeric HSA-HRP antigen-enzyme conjugate, readily demonstrable in cryostat sections and ELISA. This conjugate was obtained by combining the glutaraldehyde coupling-method with chromatography to fractionate monomeric and multimeric constituents. SDS-PAGE analysis showed that the conjugate consisted of a single molecular species of 109 kDa, whereas the often used periodate oxidation coupling method yielded a heterogeneous population of multimeric, oligomeric and monomeric molecules. We investigated the minimal size requirements for the composition of immune complexes to be trapped in murine spleen follicles using three different conjugates (monomeric HSA-HRP, multimeric HSA-HRP and multimeric HSA-HRP-Penicillin) and a panel of anti-HSA and anti-Penicillin monoclonal antibodies. We demonstrate that the smallest immune complexes, consisting of one antibody and two conjugate molecules, do not localize in splenic follicles. Immune complexes prepared with a single monoclonal antibody localize in follicles only if the epitope recognized occurs repeatedly on the antigen. The relevance of these results for physiological follicular trapping of protein antigens is discussed.(ABSTRACT TRUNCATED AT 250 WORDS)
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