Mesenchymal stem cells (MSC) are multilineage non hematopoietic progenitor cells that play a key role in supporting the lymphohematopoietic system. Their distribution in bone marrow and secondary lymphoid organs allows an intimate interaction with T and B-lymphocytes, which contribute to the normal lymph node development, but this interaction, can not be considered as a simple bi-directional cross-talk and other cell subsets, such as dendritic cells (DC), must be considered. We have analysed the effect of MSC on B-lymphocytes and the pathways involved in these effects. For these propose, we cultured B-cell with or without MSC and analysed different markers involved in the differentiation of B-cells. We found that MSC inhibited proliferation, arresting B lymphocytes in G0G1 phase of cell cycle (figure 1). However, the presence of MSC increased the viability ob B-lymphocytes (double number of viable B-cells: from 13012 to 22835 Annexin-V PE/7 ADD negative events within B-lymphocytes in absence versus presence of MSC). The exposure of B-cells to plasmocytoid DC (pDC) induced B-lymphocytes differentiation increasing both the percentage of CD38++/CD138++ cells as well as the mean fluorescence intensity of both markers (figure 2). Accordingly, different B-cell subpopulations could be identified which represented a continuum in B-cell maturation. While the levels of cytoplasmic immunoglobulin (cIg) were higher among CD38++ cells, the opposite occurred for the expression of surface Ig as well as CD19 and CCR7. Interestingly, the presence of MSC blocked B-cell differentiation. Regarding the pathways involved in these effects, the presence of MSC influenced on ERK 1/2 and p38 pathways, but these effects depended on the culture conditions. Thus, MSC induced phosphorilation of ERK 1/2 MAPK and inhibited phosphorilation of p38 in B-cells cultured with Ig plus CpG (low proliferative conditions) while the contrary occurred in B-cells cultured with TPA (highly proliferative conditions). Therefore we demonstrated that MSC increased viability and blocked cell cycle of B-lymphocytes. Furthermore the plasmocitoid dendritic cells favoured B-lymphocytes differentiation and this process in inhibited in presence with MSC. These effects are at least in part mediated through the ERK 1/2 and p38 pahtways. Figure Figure
h). For this purpose, a four-color multiple-staining direct immunofluorescence technique analyzed by flow cytometry was systematically used in all experiments (n ؍ 19). Our results show that after stimulation, an important proportion of each of the two CD33؉ myeloid DC subsets as well as the monocytes produce significant amounts of all cytokines analyzed under each of the experimental conditions assayed. In contrast, CD33؊/؉lo lymphoplasmocytoid DC failed to produce detectable levels of any of the above-mentioned cytokines under the same stimulatory conditions. Upon comparing the different stimuli used, LPS was associated with higher percentages of cytokine-producing cells compared with SAC, especially within the CD33 hi DC subset; interestingly, the addition of IFN-␥ enhanced the response of monocytes to both LPS and SAC. As regards the secretion-blocking agents, brefeldin A alone was superior to the combination of brefeldin A and monensin. This is because it was frequently associated with both a higher percentage of cytokine-positive cells and greater amounts of detectable cytokines per cell. Sequential analysis of cytokine production by PB DC and monocytes after 6, 12, and 24 h of cell culture showed that after 6 h, an increased cell death rate existed among DC, which became even undetectable at 24 h, in the absence of a significant increase in cytokine secretion. In summary, our results show that from the experimental conditions assayed in this paper, to induce cytokine production by normal human DC and monocytes, maximum response is obtained once PB samples are stimulated for 6 h with LPS (with or without IFN-␥) in the presence of brefeldin A alone. Cytometry (Comm. Clin. Cytometry) 46:33-40, 2001.
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