Heterologous receptor population for a chemotactic factor f-met-leu-phe on the human neutrophil

Abstract

Association kinetics of a chemotactic factor [³H]FMLP to its specific receptors on human neutrophils and the modulation of kinetic constants by pH and temperature were studied. The half-time for [³H]FMLP association to its specific receptors as calculated by a least-square fit equation was 27 min at 4°C, 13 min at 24°C, and 5 min at 37°C. The Scatchard plot of [^H]FMLP binding to its specific receptors was found to be nonlinear, suggesting a heterogeneity of [³H]FMLP receptors and/or functional negative cooperativity. The computer analysis of the data showed two populations of FMLP receptors on human neutrophils withK _d(dissociation constant) values of 0.17±SD 0.1 nM and 0.94±SD 0.1 nM at 4°C, and 0.17±SD 0.02 nM and 1.1±SD 0.2 nM at 37°C. The optimum [³H]FMLP binding at 37°C was observed at pH 7.5. There was essentially no difference inK _dvalues at pH 6.0, 7.5, or 8.5. Our results suggest the presence of two populations of [³H]FMLP receptors on human neutrophils in support of previous observations of other investigators. Our data also demonstrate that association constants between [³H]FMLP and its specific receptors on human neutrophils are not affected by changes in pH or temperature; maximal binding, however, is dependent on pH.