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The Journal of Immunology, Vol 135, Issue 1 172-179, Copyright © 1985 by American Association of Immunologists

ARTICLES

Differential abilities of human peripheral blood monocytes quantitatively or qualitatively differing in HLA-DR and HLA-DS expression to support B cell activation in liquid and semisolid cultures

RL Whisler, YG Newhouse and LB Lachman

The present investigation was performed to determine whether the activation of human B cells by Staphylococcal protein A (SpA) in liquid and semi-solid cultures might be dependent on distinct subsets of peripheral blood mononuclear-phagocytes (M phi) defined by the expression of HLA-DR and HLA-DS determinants. Highly pure HLA-DR- M phi functioned as effectively as HLA-DR+ MO in supporting B cell liquid proliferative responses when SpA was continuously present in cultures. However, HLA-DR+ M phi were two to three times more effective than HLA- DR- M phi in promoting B cell proliferative responses when either M phi or B cells were pulsed with SpA and were then cultured without supplemental SpA. Similarly, B cell activation in semisolid cultures was crucially dependent on HLA-DR+ M phi because colony responses were reduced fivefold in the presence of M phi expressing low/intermediate HLA-DR levels compared to M phi-containing cells with high HLA-DR levels. HLA-DS- M phi isolated by two different techniques were more effective than HLA-DS+ M phi in supporting both liquid proliferative and colony responses of B cells. Flow microcytofluorometry analysis of the dual expression of HLA-DR and HLA-DS on highly pure HLA-DR- M phi and HLA-DR+ M phi revealed that both HLA-DR- and HLA-DR+ M phi expressed low levels of HLA-DS. Importantly, the expression of HLA-DS on HLA-DR- M phi was bimodal, with an HLA-DR-, DS+ subset and an HLA-DR- , DS-subset being present. Other experiments supported the conclusions that the differential abilities of the HLA-DR-, -DS-defined subsets of M phi to support B cell activation did not represent M phi suppressive effects or differences in IL 1 production. Collectively, these results indicate that B cell activation can be directly supported by M phi whose predominant phenotype is HLA-DR+, -DS-. Thus, the accessory cell pathway of B cell activation described here is distinct from the pathway known to be required for T cell responsiveness, and could serve to provide early alternative or ancillary signals for triggering B cells.




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