The topographic arrangement of antigenic determinants on the H-2Kb molecule was investigated by antibody competition studies with a series ofmonoclonal anti-Kb antibodies. For identification of amino acid residues participating in formation of allodeterminants H-2Kb mutant mice with defined amino acid substitutions were analyzed. The determinants were found to be located in at least two spatially separate clusters on the H2Kb molecule. Determinants of one cluster are affected by mutations at amino acid positions 155 and 156, whereas determinants of a second cluster are modified by amino acid substitutions at positions 77 and 89. For a third cluster ofdeterminants no relevant amino acid positions could be identified, but competition data indicate that this cluster is adjacent to the second one. The data suggest that the first two domains of H-2 antigens carry most allodeterminants.
This study supports a new concept where the opposing functions of the tetraspanins CD37 and CD82 may coordinate changes in migration and Ag presentation during dendritic cell (DC) activation. We have previously published that CD37 is downregulated upon monocyte-derived DC activation, promotes migration of both skin and bone marrow–derived dendritic cells (BMDCs), and restrains Ag presentation in splenic and BMDCs. In this article, we show that CD82, the closest phylogenetic relative to CD37, appears to have opposing functions. CD82 is upregulated upon activation of BMDCs and monocyte-derived DCs, restrains migration of skin and BMDCs, supports MHC class II maturation, and promotes stable interactions between T cells and splenic DCs or BMDCs. The underlying mechanism involves the rearrangement of the cytoskeleton via a differential activation of small GTPases. Both CD37−/− and CD82−/− BMDCs lack cellular projections, but where CD37−/− BMDCs spread poorly on fibronectin, CD82−/− BMDCs are large and spread to a greater extent than wild-type BMDCs. At the molecular level, CD82 is a negative regulator of RhoA, whereas CD37 promotes activation of Rac-1; both tetraspanins negatively regulate Cdc42. Thus, this study identifies a key aspect of DC biology: an unactivated BMDC is CD37hiCD82lo, resulting in a highly motile cell with a limited ability to activate naive T cells. By contrast, a late activated BMDC is CD37loCD82hi, and thus has modified its migratory, cytoskeletal, and Ag presentation machinery to become a cell superbly adapted to activating naive T cells.
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