Dendritic cell subsets and implications for cancer immunotherapy.

Dendritic cells (DCs) play a central role in the orchestration of effective T cell responses against tumors. However, their functional behavior is context-dependent. DC type, transcriptional program, location, intratumoral factors, and inflammatory milieu all impact DCs with regard to promoting or inhibiting tumor immunity. The following review introduces important facets of DC function, and how subset and phenotype can affect the interplay of DCs with other factors in the tumor microenvironment. It will also discuss how current cancer treatment relies on DC function, and survey the myriad ways with which immune therapy can more directly harness DCs to enact antitumor cytotoxicity.

Self-antigen presentation by dendritic cells in autoimmunity.

The operation of both central and peripheral tolerance ensures the prevention of autoimmune diseases. The maintenance of peripheral tolerance requires self-antigen presentation by professional antigen presenting cells (APCs). Dendritic cells (DCs) are considered as major APCs involved in this process. The current review discusses the role of DCs in autoimmune diseases, the various factors involved in the induction and maintenance of tolerogenic DC phenotype, and pinpoints their therapeutic capacity as well as potential novel targets for future clinical studies.

The Differential Effects of Donor-Strain Immature Dendritic Cell Subtypes and the Blockade of CD40/CD154 Pathway on the Creation of Allograft Tolerance / 대한신장학회잡지

BACKGOUND: Dendritic cells (DC) are pivotal antigen presenting cells and serve a unique role in initiating immunity. To test the hypothesis that pre-immunization of recipient with certain DC subsets of donor origin can influence graft outcome. METHODS: We have studied the effects of immunization with allogeneic CD4+CD11c+(MDC) and CD8+CD11c+(LDC) DCs on the allograft response. RESULTS: Both immature MDC and LDC subsets from DBA/2 were able to prime naive allogeneic C57BL/6 (B6) T cells in MLR. In vitro allogeneic T cell responses were attenuated by the addition of anti-CD154 mAb into the culture. T cells from B6 mice that received DBA/2 MDC intravenously 4 weeks before testing mounted weaker MLR driven cell proliferation than T cells from LDC pretreated B6 mice. Consistent with the MLR results, combined pretreatment with MDC, but not LDC, plus anti-CD154 mAb produced donor-strain specific long-term graft survival and induced tolerance while treatment with LDC plus anti-CD154 mAb created minimal prolongation of allograft survival in a pancreas islet transplant model (DBA/2->B6). The beneficial effects exerted by MDC and anti-CD154 mAb pretreatment were correlated with TH1 to TH2 immune deviation and with the amplified donor-specific suppressive capacity by recipient CD4+CD25+T cells. CONCLUSION: These findings highlight the capacity of MDC to modulate alloimmune responses, and suggest therapeutic approaches for the induction of donor specific tolerance.