Mesenchymal stem cells (MSCs) have potent immunosuppressive effects in vitro and are considered as a therapeutic option for autoimmune disease and organ transplantation. While MSCs show beneficial effects on immune disease progression and transplant survival in animal models, the immunomodulatory mechanisms involved are largely unknown. In the present study, we show that intravenously infused C57BL/6- green fluorescent protein (GFP) MSCs home to the lungs in C57BL/6 recipient mice and induce an inflammatory response. This response was characterized by increased mRNA expression of monocyte chemoattractant protein-1 (MCP1), IL1-β, and TNF-α and an increase in macrophages in lung tissue 2 h after MSC infusion. Simultaneously, serum levels of proinflammatory IL6, CXCL1, and MCP1 protein increased, demonstrating systemic immune activation after MSC infusion. In liver tissue, no C57BL/6-GFP MSCs were detected, but MCP1 and TNF-α mRNA levels peaked 4 h after MSC infusion. The expression of the anti-inflammatory cytokines TGF-β, IL4, and IL10 was only marginally affected. Nevertheless, 3 days after MSC infusion, animals developed a milder inflammatory response to lipopolysaccharides. Our results suggest that the in vivo immunomodulatory effects of MSCs originate from an inflammatory response that is induced by the infusion of MSCs, which is followed by a phase of reduced immune reactivity.
Experimental studies have established the use of mesenchymal stem cells (MSC) as a candidate immunosuppressive therapy. MSC exert their immunomodulatory function through the inhibition of CD4+ and CD8+ T cell proliferation. It is unknown whether MSC impair the immunosuppressive function of regulatory T cells (Treg). In vitro and in vivo studies suggest that MSC mediate their immunomodulatory effects through the induction of Treg. In this review we will focus on the interactions between MSC and Treg, and evaluate the consequences of these cellular interplays for prospective MSC immunotherapy in organ transplantation.
Mesenchymal stem cells (MSCs) exhibit immunosuppressive capabilities, which have evoked interest in their application as cell therapy in transplant patients. So far it has been unclear whether allogeneic MSCs and host regulatory T-cells (Tregs) functionally influence each other. We investigated the interaction between both cell types using perirenal adipose tissue-derived MSCs (ASCs) from kidney donors and Tregs from blood bank donors or kidney recipients 6 months after transplantation. The immunomodulatory capacity of ASCs was not prejudiced by both Tregs from healthy donors and Tregs from graft recipients, indicating that ASCs were not targeted by the inhibitory effects of Tregs and vice versa. In addition, Tregs supported ASC function, as they did not alter the secretion of IFN-γ by immune cells and hence contributed to ASC activation and efficiency. ASCs exerted their suppressive role by expressing IDO, reducing levels of TNF-α, and by inducing the production of IL-10 in effector cells and Tregs. In conclusion, this study presents evidence that donor ASCs and acceptor Tregs do not impair each other's function and therefore encourages the use of MSC therapy for the prevention of graft rejection in solid organ transplantation.
The 4th expert meeting of the MiSOT (Mesenchymal Stem Cells in Solid Organ Transplantation) Consortium took place in Barcelona on the 19th and 20th of October 2012. This meeting focused on the translation of pre-clinical data into early clinical settings. This position paper highlights the main topics explored on the safety and efficacy of mesenchymal stem cells (MSC) as a therapeutic agent in solid organ transplantation and emphasizes the issues (proper timing, concomitant immunossupression, source and immunogenicity of MSC and oncogenicity) that have been addressed and will be followed up by the MiSOT Consortium in future studies.
Mesenchymal stem cells (MSCs) have potential for therapeutic application as an immunomodulatory and regenerative agent. The immunogenicity and survival of MSCs after infusion are, however, not clear and evidence suggests that allogeneic but also autologous MSCs disappear rapidly after infusion. This may be associated with the susceptibility of MSCs to lysis by natural killer (NK) cells, possibly a result of culture-induced stress. In the present study we examined whether NK cell-mediated lysis of MSCs could be inhibited by immunosuppressive drugs. Human MSCs were isolated from adipose tissue and expanded in culture. Peripheral blood mononuclear cells were activated with interleukin (IL)-2 (200 U/ml) and IL-15 (10 ng/ml) for 7 days. CD3(-)CD16(+)CD56(+) NK cells were then isolated by fluorescence-activated cell sorting and added to europium-labeled MSCs for 4 hr in the presence or absence of immunosuppressive drugs. Lysis of MSCs was determined by spectrophotometric measurement of europium release. Nonactivated NK cells were not capable of lysing MSCs. Cytokine-activated NK cells showed upregulated levels of granzyme B and perforin and efficiently lysed allogeneic and autologous MSCs. Addition of tacrolimus, rapamycin or sotrastaurin to the lysis assay did not inhibit MSC killing. Furthermore, preincubation of activated NK cells with the immunosuppressive drugs for 24 hr before exposure to MSCs had no effect on MSC lysis. Last, addition of the immunosuppressants before and during the activation of NK cells, reduced NK cell numbers but did not affect their capacity to lyse MSCs. We conclude that the immunosuppressive drugs tacrolimus, rapamycin, and sotrastaurin are not capable of inhibiting the lysis of allogeneic and autologous MSCs by activated NK cells. Other approaches to controlling lysis of MSCs should be investigated, as controlling lysis may determine the efficacy of MSC therapy.
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