RESUMO
Chemokine dimerization has been the subject of much interest in recent years as evidence has accumulated that different quaternary states of chemokines play different biological roles; the monomer is believed to be the receptor-binding unit, whereas the dimer has been implicated in binding cell surface glycosaminoglycans. However, although several studies have provided evidence for this paradigm by making monomeric chemokine variants or dimer-impaired chemokines, few have provided direct evidence of the receptor function of a chemokine dimer. We have produced a covalent dimer of the CC chemokine macrophage inflammatory protein-1beta (MIP-1beta) by placing a disulfide bond at the center of its dimer interface through a single amino acid substitution (MIP-1beta-A10C). This variant was shown to be a nondissociating dimer by SDS-PAGE and analytical ultracentrifugation. NMR reveals a structure largely the same as the wild type protein. In studies of glycosaminoglycan binding, MIP-1beta-A10C binds to a heparin-Sepharose column as tightly as the wild type protein and more tightly than monomeric variants. However, MIP-1beta-A10C neither binds nor activates the MIP-1beta receptor CCR5. It was found that the ability to activate CCR5 was recovered upon reduction of the intermolecular disulfide cross-link by incubation with 1 mm dithiothreitol. This work provides the first definitive evidence that the CC chemokine MIP-1beta dimer is not able to bind or activate its receptor and implicates the CC chemokine monomer as the sole receptor-interacting unit.
