Endothelial stroma programs hematopoietic stem cells to differentiate into regulatory dendritic cells through IL-10

Abstract: Regulatory dendritic cells (DCs) have been reported recently, but their origin is poorly understood. Our previous study demonstrated that splenic stroma can drive mature DCs to proliferate and differentiate into regulatory DCs, and their natural counterpart with similar regulatory function in normal spleens has been identified. Considering that the spleen microenvironment supports hematopoiesis and that hematopoietic stem cells (HSCs) are found in spleens of adult mice, we wondered whether splenic microenviron… Show more

“…Splenic DCreg inhibit T-cell proliferation via NO, whereas pulmonary DCreg inhibit T-cell proliferation via PGE2. We also have data showing the difference between lung and spleen microenvironment in regulating DC differentiation; that is, splenic stromal cells could program hematopoietic stem cells to differentiate into DCreg [8], whereas MPSC failed to do so (data not shown).…”

“…Before collection by FACSCalibur (Becton Dickinson, Mountain View, CA), 1 Â 10 5 3-mm PE-labeled beads were added to each well as an internal control. Finally, cells and beads were collected at high speed for 52 s. Total viable CD4 1 cells in each well were calculated according to the formula: number total 5 (number viable CD4 /number beads ) Â 10 5 .Assays for antigen-specific T-cell response Although DO11.10 T cells are the responder T cells specific for chicken OVA (cOVA)/I-Ad (BALB/c), it has been proven that DO11.10 T cells can also cross-react with cOVA/I-Ab (C57BL/6) [35,36], and our previous data [7,8] demonstrate that C57BL/6 DC can present OVA antigen to CD4 T cells from DO11.10 Â C57BL/6 F1 hybrid mice and cause CD4 T-cell activation and proliferation. Thus, to determine the antigenpresenting ability of different DC, splenic CD4 T cells from DO11.10 Â C57BL/6 F1 hybrid mice positively selected by MACS were co-cultured with viable DC in the presence of OVA [323][324][325][326][327][328][329][330][331][332][333][334][335][336][337][338][339] peptide at a ratio of 1:10 (DC:T) in round-bottom 96-well plates for 5 days.…”

“…Up to now, regulatory DCreg were generated by culturing imDC in the presence of immunosuppressive cytokines such as IL-10 and TGF-b or immunomodulatory drugs [4][5][6], which does not represent the in vivo physiologic conditions of DCreg in the organ microenvironment. More and more data show that the microenvironment in certain tissues has the ability to induce DC development [7][8][9][10] and also affects the function of DC; for example, DC in brain and kidney display regulatory functions but not T-cell-activating functions [11,12]. Our previous studies demonstrate that endothelial splenic stromal cells, which are used to mimic the in vivo splenic microenvironment, can promote the proliferation of mature DC (maDC) [7] and hematopoietic stem cells [8], driving them to à These authors contributed equally to this work.…”

“…More and more data show that the microenvironment in certain tissues has the ability to induce DC development [7][8][9][10] and also affects the function of DC; for example, DC in brain and kidney display regulatory functions but not T-cell-activating functions [11,12]. Our previous studies demonstrate that endothelial splenic stromal cells, which are used to mimic the in vivo splenic microenvironment, can promote the proliferation of mature DC (maDC) [7] and hematopoietic stem cells [8], driving them to à These authors contributed equally to this work. The lung is one of the organs connected with the outside environment of the organism and interfaces a vast quantity of environmental antigens, some of which are dangerous but some are innocent.…”

“…Splenic DCreg inhibit T-cell proliferation via NO, whereas pulmonary DCreg inhibit T-cell proliferation via PGE2. We also have data showing the difference between lung and spleen microenvironment in regulating DC differentiation; that is, splenic stromal cells could program hematopoietic stem cells to differentiate into DCreg [8], whereas MPSC failed to do so (data not shown).Regarding the mechanisms of pulmonary stroma-driven differentiation of imDC to DCreg, we have excluded the involvement of VEGF, IL-6, M-CSF and PGE2 and finally confirmed that pulmonary stroma-derived TGF-b is involved in the differentiation of DCreg from imDC. As reported before, TGF-b can down-regulate the antigen-presenting function of DC and also can be used to induce DCreg ex vivo.…”

Pulmonary stromal cells induce the generation of regulatory DC attenuating T‐cell‐mediated lung inflammation

“…Splenic DCreg inhibit T-cell proliferation via NO, whereas pulmonary DCreg inhibit T-cell proliferation via PGE2. We also have data showing the difference between lung and spleen microenvironment in regulating DC differentiation; that is, splenic stromal cells could program hematopoietic stem cells to differentiate into DCreg [8], whereas MPSC failed to do so (data not shown).…”

“…Before collection by FACSCalibur (Becton Dickinson, Mountain View, CA), 1 Â 10 5 3-mm PE-labeled beads were added to each well as an internal control. Finally, cells and beads were collected at high speed for 52 s. Total viable CD4 1 cells in each well were calculated according to the formula: number total 5 (number viable CD4 /number beads ) Â 10 5 .Assays for antigen-specific T-cell response Although DO11.10 T cells are the responder T cells specific for chicken OVA (cOVA)/I-Ad (BALB/c), it has been proven that DO11.10 T cells can also cross-react with cOVA/I-Ab (C57BL/6) [35,36], and our previous data [7,8] demonstrate that C57BL/6 DC can present OVA antigen to CD4 T cells from DO11.10 Â C57BL/6 F1 hybrid mice and cause CD4 T-cell activation and proliferation. Thus, to determine the antigenpresenting ability of different DC, splenic CD4 T cells from DO11.10 Â C57BL/6 F1 hybrid mice positively selected by MACS were co-cultured with viable DC in the presence of OVA [323][324][325][326][327][328][329][330][331][332][333][334][335][336][337][338][339] peptide at a ratio of 1:10 (DC:T) in round-bottom 96-well plates for 5 days.…”

“…Up to now, regulatory DCreg were generated by culturing imDC in the presence of immunosuppressive cytokines such as IL-10 and TGF-b or immunomodulatory drugs [4][5][6], which does not represent the in vivo physiologic conditions of DCreg in the organ microenvironment. More and more data show that the microenvironment in certain tissues has the ability to induce DC development [7][8][9][10] and also affects the function of DC; for example, DC in brain and kidney display regulatory functions but not T-cell-activating functions [11,12]. Our previous studies demonstrate that endothelial splenic stromal cells, which are used to mimic the in vivo splenic microenvironment, can promote the proliferation of mature DC (maDC) [7] and hematopoietic stem cells [8], driving them to à These authors contributed equally to this work.…”

“…More and more data show that the microenvironment in certain tissues has the ability to induce DC development [7][8][9][10] and also affects the function of DC; for example, DC in brain and kidney display regulatory functions but not T-cell-activating functions [11,12]. Our previous studies demonstrate that endothelial splenic stromal cells, which are used to mimic the in vivo splenic microenvironment, can promote the proliferation of mature DC (maDC) [7] and hematopoietic stem cells [8], driving them to à These authors contributed equally to this work. The lung is one of the organs connected with the outside environment of the organism and interfaces a vast quantity of environmental antigens, some of which are dangerous but some are innocent.…”

“…Splenic DCreg inhibit T-cell proliferation via NO, whereas pulmonary DCreg inhibit T-cell proliferation via PGE2. We also have data showing the difference between lung and spleen microenvironment in regulating DC differentiation; that is, splenic stromal cells could program hematopoietic stem cells to differentiate into DCreg [8], whereas MPSC failed to do so (data not shown).Regarding the mechanisms of pulmonary stroma-driven differentiation of imDC to DCreg, we have excluded the involvement of VEGF, IL-6, M-CSF and PGE2 and finally confirmed that pulmonary stroma-derived TGF-b is involved in the differentiation of DCreg from imDC. As reported before, TGF-b can down-regulate the antigen-presenting function of DC and also can be used to induce DCreg ex vivo.…”

Pulmonary stromal cells induce the generation of regulatory DC attenuating T‐cell‐mediated lung inflammation

VEGF‐A‐induced immature DCs not mature DCs differentiation into endothelial‐like cells through ERK1/2‐dependent pathway

A novel potential therapy for vascular diseases: blood‐derived stem/progenitor cells specifically activated by dendritic cells