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pubmed:abstractText |
The adhesive phenotype of neutrophils (PMN) depends largely on activating and deactivating intracellular signals regulating beta2 integrin avidity for ligand. Our hypothesis is that PKA is a negative regulator of beta2 integrin avidity. In this work, we examined the role of PKA in PMN alphaMbeta2 integrin activation. Elevation of cAMP inhibited alphaMbeta2 integrin-dependent adhesion of PMN to immune complexes (IC), but not PMA-induced adhesion. The PKA inhibitor KT5720 reversed the ability of cAMP to suppress adhesion to IC. Moreover, inhibition of PKA activity was sufficient to activate alphaMbeta2 integrin-dependent adhesion and increase beta2 integrin expression and binding of the monoclonal antibody CBRM1/5, which recognizes activated alphaMbeta2 specifically. However, PKA activity was necessary for sustained adhesion. Disruption of A kinase-anchoring, protein-PKA binding with a cell-permeant peptide derived from the AKAP Ht31 also activated adhesion. Unlike pharmacologic inhibition of PKA, AKAP peptide-induced adhesion was PKC dependent and did not affect beta2 integrin expression or CBRM1/5 binding. These data demonstrate that PKA appears to have a dual role in the mechanism regulating alphaMbeta2 integrin avidity and adhesion.
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pubmed:affiliation |
Department of Clinical Sciences, College of Veterinary Medicine, North Carolina State University, Raleigh, NC 27606, USA. sam_jones@ncsu.edu
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