Cell-cell adhesion is essential for many immunological functions. The LFA-1 molecule, a member of a superfamily of adhesion molecules, participates in adhesion which is critical to the function of each of the three major subsets of leukocytes: lymphocytes, monocytes and granulocytes. Putative LFA-1 ligands have been identified functionally in different laboratories using three different monoclonal antibodies that inhibit LFA-1-mediated leukocyte adhesion in particular model systems; however, there may be more than one LFA-1 ligand. We have directly compared the three relevant monoclonal antibodies, and show that each binds to the same molecule, intercellular-adhesion molecule-1 (ICAM-1). Most important, B, T and myeloid cells adhere specifically to purified ICAM-1-coated surfaces; such adhesion has distinctive requirements for Mg2+ and Ca2+. This constitutes biochemical evidence that ICAM-1 functions as a ligand for LFA-1-dependent adhesion by a variety of leukocytes.
Cell-cell adhesion is essential for many immunological functions, including interaction of cytotoxic T lymphocytes (CTLs) with their targets. We have explored CTL-target interactions using well-characterized cloned human CTLs. Conjugate formation between these CTLs and many antigen-negative targets is almost as efficient as with specific target cells, but does not lead to target-cell lysis. Thus, on specific target cells, adhesion by antigen-independent pathways may occur concurrently with or precede antigen recognition. The molecules LFA-1, CD2 (T11, LFA-2) and LFA-3 have been shown to be involved in human CTL conjugation with and lysis of specific target cells. Here we describe monoclonal antibody inhibition studies using individual monoclonal antibodies and mixes which demonstrate (1) that LFA-1, CD2 and LFA-3 are involved in antigen-independent conjugate formation; and (2) suggest that CD2 and LFA-3 are involved in one pathway and LFA-1 in another. We confirmed the existence of distinct pathways by the demonstration that LFA-1-dependent adhesion requires divalent cations and is temperature-sensitive whereas CD2- and LFA-3-dependent adhesion does not require divalent cations and is temperature-insensitive. Together with previous data, our studies suggest that CD2 on the effector interacts with LFA-3 as its ligand on targets.
Although intercellular adhesion molecule-1 (ICAM-1) has been implicated as a ligand in some LFA-1-dependent adhesion, its importance to T cell function has not been established. The present studies investigate the importance of ICAM-1 for human cytotoxic T lymphocytes (CTL), both in their formation of antigen-independent conjugates (AIC) and in their lysis of targets. Analysis of monoclonal antibody (mAb) inhibition of AIC formation indicate that ICAM-1 mAb 1 blocks (a) AIC formation with some but not all targets; (b) the LFA-1 pathway but not the CD2/LFA-3 pathway of adhesion; (c) by binding to the target cell, not the T cell. In studies of cell-mediated lysis (CML) ICAM-1 mAb inhibited lysis of some targets, such as U-937, that use ICAM-1 predominantly in AIC formation; CML on some other targets is not inhibited by ICAM-1 mAb. These data indicate that ICAM-1 is a ligand for AIC formation, antigen-specific CTL recognition and cytolysis of particular target cells. The data also indicate that ICAM-1 is not used in LFA-1-dependent CTL interactions with all kinds of target cells, suggesting the existence of alternative ligands for LFA-1.
Proliferative response of resting T cells generally requires not only cross-linking of the T cell receptor (TcR) but also co-stimulatory signals from accessory molecules. We here have used a "three-cell" model consisting of: (a) resting human CD4+ T cells as responders; (b) CD3 monoclonal antibody (mAb) OKT3 on latex beads as surrogate stimulators; (c) autologous monocytes as source of co-stimulation. As described by Kawakami et al. (J. Immunol. 1989, 142: 1818), T cell proliferation in this system is observed with paraformaldehyde-fixed monocytes if they have been activated and interleukin (IL) 1 beta/IL 6 is supplied. Since this three-cell system provides TcR cross-linking at a site spatially "remote" from co-stimulation, they help distinguish adhesion from signal transduction but the molecules that mediate co-stimulation in this system have not been identified. Our studies now demonstrate that co-stimulation by the monocytes is dependent on each of two receptor/ligand pathways CD2/LFA-3 and LFA-1/ICAM-1 since it is inhibited by each relevant mAb but not a variety of control mAb. The hypotheses that CD2 and LFA-1 could each mediate co-stimulation was tested in simplified model systems in which the monocyte was replaced with immobilized CD2 mAb or purified ICAM-1 presented on a separate surface from the CD3 mAb. The results in these simplified models demonstrate that on resting T cells either CD2 or LFA-1 molecules alone can mediate "remote" co-stimulation unlike most other T cell surface molecules. Co-stimulation requires IL 1 beta/IL6 both in the weaker LFA-1 ligand-mediated co-stimulation and at lower CD2 mAb concentrations in the stronger CD2 mAb-mediated co-stimulation. Thus: (a) the accessory cell function of stimulated fixed monocytes in T cell proliferation requires both the LFA-1/ICAM-1 and CD2/LFA-3 pathways; and (b) the T cell molecules CD2 and LFA-1 can give co-stimulatory signals that can act in a "remote" fashion.
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