AP113 Sigma-AldrichGoat Anti-Human IgG Antibody, Fc

Binding of selectins to P-selectin glycoprotein ligand-1 (PSGL-1) mediates tethering and rolling of leukocytes on the endothelium during inflammation. Previous measurements obtained with a flow-chamber assay have shown that mutations of three tyrosines at the PSGL-1 N-terminus (Y46, Y48, and Y51) increase the reverse rates and their sensitivity to the force of bonds with P- and L-selectin. However, the effects of these mutations on the binding affinities and forward rates have not been studied. We quantified these effects by using an adhesion frequency assay to measure two-dimensional affinity and kinetic rates at zero force. Wild-type PSGL-1 has 2.2- to 8.5-fold higher binding affinities for P- and L-selectin than PSGL-1 mutants with two of three tyrosines substituted by phenylalanines, and 9.6- to 49-fold higher affinities than the PSGL-1 mutant with all three tyrosines replaced. In descending order, the affinity decreased from wild-type to Y48/51F, Y46/51F, Y46/48F, and Y46/48/51F. The affinity differences were attributed to major changes in the forward rate and minor changes in the reverse rate, suggesting that these tyrosines regulate the accessibility of PSGL-1 to P- and L-selectin via electrostatic interactions, which is supported by molecular-dynamics simulations. Our results provide insights into the structure-function relationship of receptor-ligand binding at a single-residue level.

Signaling mechanisms leading to regulation of gene transcription by growth hormone (GH) and other molecules that signal via the cytokine receptor family have been elusive. Based upon recent findings that GH and interferons activate JAK family tyrosine kinases, we have identified a novel signaling pathway leading from the GH receptor to the nucleus. We report that in 3T3-F442A fibroblasts, GH stimulates tyrosyl phosphorylation of a protein recognized by antibody to p91, a component of DNA-binding complexes that are activated by tyrosyl phosphorylation in response to interferons alpha and gamma. In addition, a GH-inducible DNA binding factor (GHIF) is identified that binds to the c-sis-inducible element of the c-fos promoter. GHIF contains a protein antigenically related to p91 and is tyrosyl-phosphorylated. These findings indicate that in signaling between their receptors and the nucleus, GH and interferons utilize related or identical components, including JAK family tyrosine kinases and proteins in the p91 family. When combined with recent findings that many members of the cytokine receptor family activate JAK kinases, including some cytokines that activate p91-related proteins, these findings suggest that signaling pathways involving JAK kinases and p91 family members may be broadly distributed.