Cord-Blood-Stem-Cell-Derived Conventional Dendritic Cells Specifically Originate from CD115-Expressing Precursors

Publication date

2019-02-01

Authors

Plantinga, M.
de Haar, Colin
Dunnebach, Ester
van den Beemt, Denise A.M.H.
Bloemenkamp, Kitty W MISNI 000000038909456X
Mokry, MichalORCID 0000-0002-5298-4852ISNI 0000000387648231
Boelens, Jaap J.ISNI 0000000396746028
Nierkens, StefanORCID 0000-0003-3406-817XISNI 0000000395421272

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Abstract

Dendritic cells (DCs) are professional antigen-presenting cells which instruct both the innate and adaptive immune systems. Once mature, they have the capacity to activate and prime naïve T cells for recognition and eradication of pathogens and tumor cells. These characteristics make them excellent candidates for vaccination strategies. Most DC vaccines have been generated from ex vivo culture of monocytes (mo). The use of mo-DCs as vaccines to induce adaptive immunity against cancer has resulted in clinical responses but, overall, treatment success is limited. The application of primary DCs or DCs generated from CD34 + stem cells have been suggested to improve clinical efficacy. Cord blood (CB) is a particularly rich source of CD34 + stem cells for the generation of DCs, but the dynamics and plasticity of the specific DC lineage development are poorly understood. Using flow sorting of DC progenitors from CB cultures and subsequent RNA sequencing, we found that CB-derived DCs (CB-DCs) exclusively originate from CD115 + -expressing progenitors. Gene set enrichment analysis displayed an enriched conventional DC profile within the CD115-derived DCs compared with CB mo-DCs. Functional assays demonstrated that these DCs matured and migrated upon good manufacturing practice (GMP)-grade stimulation and possessed a high capacity to activate tumor-antigen-specific T cells. In this study, we developed a culture protocol to generate conventional DCs from CB-derived stem cells in sufficient numbers for vaccination strategies. The discovery of a committed DC precursor in CB-derived stem cell cultures further enables utilization of conventional DC-based vaccines to provide powerful antitumor activity and long-term memory immunity.

Keywords

Cancer, Cord blood, DC precursor, DC subsets, Dendritic cell, Vaccine, Oncology, Cancer Research

Citation

Plantinga, M, de Haar, C G, Dünnebach, E, van den Beemt, D A M H, Bloemenkamp, K W M, Mokry, M, Boelens, J J & Nierkens, S 2019, 'Cord-Blood-Stem-Cell-Derived Conventional Dendritic Cells Specifically Originate from CD115-Expressing Precursors', Cancers, vol. 11, no. 2, 181. https://doi.org/10.3390/cancers11020181