Abstract
Integrins in resting leukocytes are poorly adhesive, and cell activation is required to induce integrin-mediated adhesion. We recently demonstrated a close correlation between phosphorylation of Ser(5) in L-plastin (LPL), a leukocyte-specific 67-kDa actin bundling protein, and activation of alpha(M)beta(2)-mediated adhesion in polymorphonuclear neutrophils (PMN) (Jones, S. L., Wang, J., Turck, C. W., and Brown, E. J. (1998) Proc. Natl. Acad. Sci. U. S. A. 95, 9331-9336). However, the kinase that phosphorylates LPL Ser(5) has not been identified. We found that cAMP-dependent protein kinase (PKA), but not a variety of other serine kinases, can specifically phosphorylate LPL and LPL-derived peptides on Ser(5) in vitro. The cell-permeable cAMP analog 8-bromo-cAMP and the adenylate cyclase activator forskolin both induce LPL phosphorylation in cells. Two PKA inhibitors, H89 and KT5720, inhibited immune complex (IC)-stimulated LPL phosphorylation as well as IC-induced activation of alpha(M)beta(2)-mediated adhesion in PMN. The dose response of H89 inhibition of PMN adhesion correlated with its inhibition of LPL phosphorylation in response to IC. IC stimulation also transiently increased intracellular cAMP concentration in PMN. Thus, PKA functions in an integrin activation pathway initiated by IC binding to Fcgamma receptors in addition to its better known role as a negative regulator of cell activation by G protein-coupled receptors. In contrast, LPL Ser(5) phosphorylation and PMN adhesion induced by formylmethionyl-leucylphenylalanine or phorbol myristate acetate were not affected by PKA inhibitors, suggesting that a different kinase(s) is responsible for LPL phosphorylation in response to these agonists. Phosphoinositidyl 3-kinase also is required for FcgammaR but not formylmethionyl-leucylphenylalanine- or phorbol myristate acetate-induced LPL phosphorylation and activation of alpha(M)beta(2). Two phosphoinositidyl 3-kinase inhibitors blocked FcgammaR-induced cAMP accumulation, demonstrating that this kinase acts upstream of PKA. These data demonstrate a necessary role for PKA in IC-induced integrin activation and LPL phosphorylation.
Highlights
Leukocyte integrins are able to modulate avidity for their ligands
This regulation of integrin adhesion is essential for appropriate leukocyte function, since integrin activation is required for leukocyte migration to sites of inflammation and for lymphocyte recirculation through lymph nodes, but inappropriate activation leads to significant injury of normal tissues [1, 2]
CAMP-dependent Protein Kinase Phosphorylates L-plastin on Ser5 in Vitro—We have determined that Ser5 is the predominant LPL phosphorylation site [15]. Since this serine is within a consensus sequence for phosphorylation by the cAMP dependent protein kinase PKA [27], we tested whether PKA could phosphorylate LPL
Summary
Tibody-dependent host defense against infectious diseases as well as in idiopathic inflammatory diseases due to autoantibodies. We have used this model for integrin activation to examine the hypothesis that LPL phosphorylation is an essential step in integrin activation. We show that the cAMP-dependent Ser/Thr kinase PKA phosphorylates LPL in vitro on Ser, the site of in vivo phosphorylation, and that IC-induced LPL phosphorylation requires PKA. Inhibition of PKA blocks sustained PMN adhesion to IC because ␣M2 activation is prevented. These data support the hypothesis that LPL phosphorylation is a step in leukocyte integrin activation and show a surprising and unexpected role in leukocyte activation for cAMP and PKA, generally considered to be potent endogenous inhibitors of activation. PKA is not required for LPL phosphorylation or integrin activation in response to formylmethionyl-leucylphenylalanine (fMLP) or phorbol 12-myristate 13-acetate (PMA). There are at least two distinct signaling pathways and kinases that lead to integrin activation through LPL Ser phosphorylation
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