Abstract:

MAb directed at the alpha-subunits of Mac-1 (alpha M), LFA-1 (alpha L), p150,95 (alpha X), or their common beta-subunit were used to characterize the contributions of the Mac-1 glycoprotein family to granulocyte adherence reactions. Inhibitory effects of these MAb in incubation experiments with normal granulocytes indicated distinct adhesive contributions of each subunit. Significantly greater adherence, and inhibition of adherence by anti alpha M, alpha X, and beta MAb, was observed under chemotactic conditions designed to "up-regulate" the surface expression of the alpha M beta and alpha X beta complexes. Adherence to protein-coated glass and binding of albumin-coated latex beads were significantly inhibited by anti-beta greater than anti-alpha M (OKM-10, M1/70, LM2/1.6 and OKM-1) greater than anti-alpha X greater than anti-alpha L MAb, but no effects of anti-HLA, AB, or anti-CR-1 MAb were evident. A similar rank order of inhibition was observed in granulocyte aggregation assays in response to C5a, PMA, or f-Met-Leu-Phe. Significant inhibition of directed migration by anti-beta or anti-alpha M (OKM-1 or OKM-10) MAb was observed in subagarose but not Boyden chemotaxis assays; inhibition was dependent on a continuous cell exposure to anti-Mac-1 alpha or beta during the assay, suggesting that a continuum of new Mac-1 expression is required for directed translocation. Phagocytosis of Oil-Red-O paraffin or zymosan selectively opsonized with C3-derived ligands was significantly inhibited by anti-alpha M MAb (OKM-10 greater than LM2/1.6 greater than M1/70 greater than OKM-1) or by combinations of anti-alpha M + anti-CR-1 MAb, but only minimal inhibitory effects of anti-beta MAb and no effects of anti-alpha L or anti-alpha X MAb were seen. Similarly, complement-dependent phagocytosis-associated lactoferrin release, ingestion, and intracellular killing of Staphylococcus aureus 502A, and binding of iC3b-opsonized SRBC, were significantly inhibited by anti-alpha M (OKM-10, M1/70) or combinations of anti-alpha M + anti-CR-1 MAb, but not by anti-beta, alpha L, or alpha X MAb. Notably, none of the anti-Mac-1 MAb demonstrated inhibitory effects in assays of adherence-independent functions including shape change, specific f-Met-Leu-3H-Phe binding, O-2 generation, chemiluminescence evolution, or lactoferrin release in response to PMA.(ABSTRACT TRUNCATED AT 400 WORDS)

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