Rapid lipopolysaccharide-induced differentiation of CD14(+) monocytes into CD83(+) dendritic cells is modulated under serum-free conditions by exogenously added IFN-gamma and endogenously produced IL-10

We showed previously that about half of purified CD14(+) peripheral blood monocytes cultured under serum-free conditions and treated with GM-CSF and bacterial LIPS rapidly (2-4 day) differentiate into CD83(+) dendritic cells (DC). The remaining cells retain the CD14(+)/CD83(-) monocyte/macrophage phenotype. In order to identify factors that influence whether monocytes differentiate into DC or remain on the monocyte/macrophage developmental pathway, we evaluated the effects of exogenously added IFN-gamma and endogenously produced IL-10 on the proportion and function of CD14(+) monocytes that adopt DC characteristics in response to LIPS. IFN-gamma priming dramatically increased the proportion of monocytes that adopted stable DC characteristics in response to LIPS, improved their T cell allosensitizing capacity, and enhanced levels of secreted IL-12 heterodimer. IFN-gamma priming also suppressed the production of IL-10, a cytokine known to have inhibitory effects on DC differentiation. When monocytes were treated with LIPS plus IL-10-neutralizing antibodies, dramatically enhanced DC differentiation, IL-12 secretion, and T cell allosensitizing capacity were observed, mimicking in many respects the effects of IFN-gamma priming. IFN-gamma primed cells still displayed appreciable sensitivity to exogenously added IL-10, suggesting that attenuated IL-10 secretion is partially responsible for the enhancing effects of IFN-gamma. These studies therefore identify IFN-gamma as a DC differentiation co-factor for CD14(+) monocytes, and IL-10 as an autocrine/paracrine inhibitor of DC differentiation, linking these agents for the first time as mutually opposed regulators that govern whether CD14(+) cells differentiate into DC upon contact with LIPS or remain on the monocyte/macrophage developmental pathway.

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