Comprehensive analysis of different tumor cell-line produced soluble mediators on
the differentiation and functional properties of monocyte-derived dendritic cells
Developing dendritic cells (DCs) from monocytes is a sensitively regulated process.
One possible way for cancers to avoid immune recognition and antitumor response is
the modulation of DC differentiation. Although several studies are available on the
examination of tumor-associated macrophages, a comprehensive analysis focusing on
the effects of tumor-formed DCs is not known to date. We provide a comparative analysis
of the tumor-edited-monocyte derived DCs differentiated in the presence of adenocarcinomas
(MDA, HT29, HeLa)- and primary (WM278, WM983A) or metastatic (WM1617, WM983B) melanomas.
The immunomodulatory effect of tumors is mediated at least partly by secreted mediators.
We investigated the impact of tumor cell-derived conditioned media on the differentiation
of DCs from CD14 + monocytes, sequentially determining the phenotype, cytokine production,
phagocytic, and the T cell polarizing capacity of moDCs. We completed our observations
by analyzing our data with bioinformatic tools to provide objective correlations between
phenotypical and functional properties of different tumor-educated moDCs. The correlation
analysis revealed significant differences in the characteristics of adenocarcinomas-
or melanomas-edited moDCs. We highlight the functional differences in the properties
of moDCs differentiated in the presence of various cancer cell lines. We offer new
information and options for the in vitro differentiation protocols of various tumor-conditioned
moDCs. Our results confirm that various immunomodulatory properties of different tumor
cell lines result in multiple manipulations of DC differentiation.