AI Article Synopsis
- Myeloid dendritic cells (MDC) are key players in immunity and tolerance, and using donor-derived MDC could enhance donor-specific tolerance in transplantation medicine.
- This study explores transforming primary human blood MDC into tolerogenic MDC using dexamethasone (dex) and lipopolysaccharide (LPS), finding that simultaneous treatment generates MDC that produce less immune-stimulating signals and increase IL-10 production in T cells.
- Results show that these tolerogenic MDC do not revert to immunostimulatory types after further activation, highlighting a potential method for quickly producing MDC for clinical use in transplantation immunotherapy.
Article Abstract
Myeloid dendritic cells (MDC) play an important role in antigen-specific immunity and tolerance. In transplantation setting donor-derived MDC are a promising tool to realize donor-specific tolerance. Current protocols enable generation of tolerogenic donor MDC from human monocytes during 1-week cultures. However, for clinical application in transplantation medicine, a rapidly available source of tolerogenic MDC is desired. In this study we investigated whether primary human blood MDC could be transformed into tolerogenic MDC using dexamethasone (dex) and lipopolysaccharide (LPS). Human blood MDC were cultured with dex and subsequently matured with LPS in the presence or absence of dex. Activation of MDC with LPS after pretreatment with dex did not prevent maturation into immunostimulatory MDC. In contrast, simultaneous treatment with dex and LPS yielded tolerogenic MDC, that had a reduced expression of CD86 and CD83, that poorly stimulated allogeneic T-cell proliferation and production of T helper 1 (Th1) cytokines, and primed production of the immunoregulatory cytokine interleukin-10 (IL-10) in T cells. In vitro, however, these tolerogenic MDC did not induce permanent donor-specific hyporesponsiveness in T cells. Importantly, tolerogenic MDC obtained by LPS stimulation in the presence of dex did not convert into immunostimulatory MDC after subsequent activation with different maturation stimuli. In conclusion, these findings demonstrate that combined treatment with dex and LPS transforms primary human blood MDC into tolerogenic MDC that are impaired to stimulate Th1 cytokines, but strongly prime the production of the immunoregulatory cytokine IL-10 in T cells, and are resistant to maturation stimuli. This strategy enables rapid generation of tolerogenic donor-derived MDC for immunotherapy in clinical transplantation.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2526263 | PMC |
| http://dx.doi.org/10.1111/j.1365-2567.2008.02824.x | DOI Listing |
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