MHC II+ CD45+ cells from synovium-rich tissues of normal rats: Phenotype, comparison with macrophage and dendritic cell lineages and differentiation into mature dendritic cells in vitro

Abstract

Synovial tissues are frequent sites of inflammatory disorders in which dendritic cells (DCs) may play an important role. This study examines potential antigen-presenting cells obtained from synovium-rich tissues (SRTs) by vascular perfusion of rat hind limbs with collagenase and further enzymatic digestion of the disarticulated hind paws in vitro. The three sub-populations of interest were: CD45+ MHC IIhi, mainly CD11c+ and CD163- CD45+MHC IIlo, mainly CD11c- and CD163+ and CD45+MHC II-, mainly CD11c- and CD163+. Expression of CD11c and CD163 correlated with ruffled cell-surface (CD11c+CD163-) and highly vacuolated cytoplasm (CD11c-CD163+), respectively. Culture of the CD45+CD163- sub-population in granulocyte macrophage colony-stimulating factor (GM-CSF) yielded CD45+MHC IIhi CD11c+CD163- cells with veiled morphology, while the large vacuolated cells that expressed CD163 resembled type A synoviocytes in both surface antigen phenotype and morphology. These results demonstrate that SRTs contain indeterminate cells that can differentiate into mature DCs in vitro in response to GM-CSF, plus mature synovial lining macrophages. © The Japanese Society for Immunology. 2005. All rights reserved.