Functional mapping of CD11b/CD18 epitopes important in neutrophil-epithelial interactions: a central role of the I domain

In the intestine, lung, and urinary tract, neutrophil (polymorphonuclear leukocyte, PMN) transepithelial migration is dependent on the leukocyte beta2 integrin CD11b/CD18. While the regions of CD11b involved in recognition of several soluble ligands are known, those that mediate PMN-epithelial interactions have not been investigated. In this study, mAbs reactive with four extracellular regions on CD11b, the NH2-terminal region, I (inserted) domain, cation-binding region, and region proximal to the transmembrane domain (C domain), were analyzed for the ability to block CD11b/CD18-mediated interactions with T84 intestinal epithelial cells. In such a manner, epitope mapping was applied to the complex interactions between CD11b/CD18 and a cell-based ligand system. I domain Abs strongly inhibited both adhesion of PMN to epithelial cells and PMN migration across T84 epithelial monolayers. However, the profile of inhibition was distinct from that of other known ligands of CD11b/CD18. CBRM1/32, an Ab to a discontinuous epitope residing within the NH2- and cation-binding domains, strongly inhibited both adhesion and transmigration responses. C domain Abs had minimal effects on adhesion and transmigration. These findings appear applicable to other epithelia, since similar results were obtained in transmigration experiments with CF15 human airway epithelial cells. Finally, Ab inhibition profiles were confirmed with adhesion assays of isolated epithelial cells to purified CD11b/CD18. These findings demonstrate the central role of the I domain and the participation of a discontinuous region shared by the NH2- and cation-binding domains in mediating PMN-adhesive interactions with epithelial cells.