Expression and modulation of the human immunoglobulin A Fc receptor (CD89) and the FcR γ chain on myeloid cells in blood and tissue

CD89, the human immunoglobulin A (IgA) Fc receptor (FcR), is a potential target for antibody-based therapeutics, but little is known about its expression and modulation in vivo . In this study, we examined the expression pattern of CD89 and its signalling subunit, the FcR gamma chain, on circulating myeloid cells and in various tissues. Our results showed a wide tissue distribution of CD89(+) cells. Thus, CD89(+) cells were evident as clusters in tonsils and appendix and scattered in varying numbers in lymph nodes, kidney, liver, intestinal mucosa, bronchoalveolar lavage and peritoneal fluid. Most CD89(+) cells were identified as neutrophils with high levels of CD89. A few recently emigrated macrophages (CD14(low)), weakly positive for CD89, were occasionally found in the tissues and more often in the peritoneal fluid. The level of CD89 on neutrophils in tissues and peripheral blood was similar, whereas on monocytes it was much lower in the tissues than in blood, and it was absent on CD14(-)/CD68(+) intestinal lamina propria macrophages. Conversely, we detected much higher levels of the FcR gamma chain in monocytes than in neutrophils, but the FcR gamma chain was also downregulated in tissue macrophages as well as in in vitro -differentiated monocyte-derived macrophages and dendritic cells. The implications of our current findings on the biological functioning of CD89 are discussed.