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Biochemistry. 2000 Nov 7;39(44):13551-7.

Mutations of serine 236-237 and tyrosine 302 residues in the human lipoxin A4 receptor intracellular domains result in sustained signaling.

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  • 1Section of Rheumatology, Department of Medicine, University of Illinois at Chicago, College of Medicine, Chicago, Illinois 60607, USA.

Abstract

Lipoxin A(4) (LXA(4)) is a potent negative modulator of the inflammatory response. The antiinflammatory activities of LXA(4), such as inhibition of agonist-induced polymorphonuclear cell (PMN) chemotaxis and upregulation of beta-2 integrins, require the expression of a G-protein-coupled, high-affinity LXA(4) receptor (LXA(4)R). We now report that stimulation of PMN with proinflammatory agonist N-formyl peptides (FMLP), calcium ionophore A(23187), or phorbol mirystate acetate (PMA) is followed by marked downregulation of LXA(4) binding (B(max) decrease of approximately 45%) and decreased activation of phospholipases A(2) (PLA(2)) and D (PLD). Elucidation of the mechanisms underlying these effects was addressed by structure-function analyses of the intracellular domains of LXA(4)R. Mutant molecule, S236/S237 --> A/G (LXA(4)R(pk)) and Y302 --> F (LXA(4)R(tk)) were obtained by site-directed mutagenesis to yield receptors lacking the putative targets for serine/threonine kinase- or tyrosine kinase-dependent phosphorylation. Expression of wild-type and mutated LXA(4)R sequences in CHO and HL-60 cells was used to examine LXA(4) ligand-receptor interactions and signal transduction events. Results indicated that cells expressing LXA(4)R(pk) or LXA(4)R(tk) displayed sustained activation of PLA(2) and PLD in contrast to the transient ones obtained with LXA(4)R(wt) (peak activation at 2-3 min). Moreover, inhibition of LXA(4)-dependent PLA(2) activity by PMA in LXA(4)R(wt) transfected CHO cells was not observed in cells expressing LXA(4)R(pk). Phosphopeptide immunoblotting revealed that the functional differences between wild-type and mutant LXA(4) receptors are accompanied by distinct changes in the receptor protein phosphorylation pattern. Further characterization of these and related LXA(4)R intracellular domains will help to better understand specific events that regulate the antiinflammatory activities of LXA(4).

PMID:
11063592
[PubMed - indexed for MEDLINE]
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