Interconverting Receptor States at 4 °C for the Neutrophil N-Formyl Peptide Receptor

Abstract

With the aid of high time resolution kinetic data extracted from a flow cytometer, we determined that there are two N-formyl peptide receptor states for human neutrophils at 4 °C: a low affinity and a high affinity state. Competitive binding of FMLP, FNLP, and t-BOC with FNLPNTL-FL revealed different kinetic rate constants for two distinct reactions that control the lifetime of the low affinity ligand−receptor complex. For these ligands, the rate constant for dissociation of ligand from the low affinity receptor state (the first reaction) ranges in order of magnitude from 10^-2 to 1 s^-1, and the conversion rate constant from the low affinity receptor state to the high affinity receptor state (the second reaction) ranges from 10^-4 to 10^-2 s^-1. The antagonist t-BOC differed most significantly from the three agonists by having an association rate constant for the low affinity receptor on the order of 10⁵ M^-1 s^-1; the value for all three agonists was on the order of 10⁷ M^-1 s^-1. Characterization of the receptor conversion at 4 °C revealed that it is irreversible (or very slow) and independent of G_i protein and that neither receptor state is a form of receptor precoupled to G_i protein. The affinity conversion and the dissociation characteristics of each receptor state determine the duration of the signaling complex and may contribute to differences in ligand efficacy.