The ultimate goal in transplantation medicine is the promotion of operational tolerance. Although Th cells of the Th17 type have been predominantly associated with rejection of allogeneic solid organ grafts, regulatory T (Treg) cells appear to foster operational tolerance. Induced Treg and Th17 cells have a higher lineage plasticity than has been recognized thus far. We found that when mesenchymal stem cells (MSCs) were used to induce long-term acceptance of allogeneic heart grafts in mice, the induction of Treg cells was preceded by development of a CD11bhiGr1int myeloid–derived immunosuppressive cell–mediated Th17 response. Substantial suppression of Foxp3+ Treg cell generation from retinoic acid receptor–related orphan receptor γ−/− T cells by MSCs revealed that retinoic acid receptor–related orphan receptor γ is a common factor in the differentiation of Treg and Th17 cells. Immunosuppressant mycophenolate mofetil treatment of enriched IL-17A+ cells from MSC-primed allograft mouse recipients resulted in a reduction of IL-17A production and an increase in the Foxp3+ Treg cell fraction. Furthermore, identification of IL-17A+ Foxp3+ double-positive and ex–IL-17–producing IL-17AnegFoxp3+ T cells strongly argues for direct conversion of Th17 cells into Treg cells as the underlying mechanism of immune regulation in MSC-mediated allograft survival. The Th17 into Treg conversion identified in this study constitutes an important immunological mechanism by which MSC-induced myeloid-derived immunosuppressive cells mediate operational transplant tolerance. The possibility to create Treg cell–regulated operational tolerance in the absence of complete immune suppression provides strong clinical implications for cell therapy–assisted minimization protocols.
Despite extensive research on candidate pharmacological treatments and a significant and increasing prevalence, sepsis syndrome, and acute respiratory distress syndrome (ARDS) remain areas of unmet clinical need. Preclinical studies examining mesenchymal stromal cell (MSCs) based‐therapies have provided compelling evidence of potential benefit; however, the precise mechanism by which MSCs exert a therapeutic influence, and whether MSC application is efficacious in humans, remains unknown. Detailed evaluation of the limited number of human trials so far completed is further hampered as a result of variations in trial design and biomarker selection. This review provides a concise summary of current preclinical and clinical knowledge of MSCs as a cell therapy for sepsis syndrome and ARDS. The challenges of modeling such heterogeneous and rapidly progressive disease states are considered and we discuss how lessons from previous studies of pharmacological treatments for sepsis syndrome and ARDS might be used to inform and refine the design of the next generation of MSC clinical trials. Stem Cells Translational Medicine
2017;6:1141–1151
Mesenchymal stem cells and multipotent adult progenitor cells (MAPCs) have been proposed as novel therapeutics for solid organ transplant recipients with the aim of reducing exposure to pharmacological immunosuppression and its side effects. In the present study, we describe the clinical course of the first patient of the phase I, dose-escalation safety and feasibility study, MiSOT-I (Mesenchymal Stem Cells in Solid Organ Transplantation Phase I). After receiving a living-related liver graft, the patient was given one intraportal injection and one intravenous infusion of third-party MAPC in a low-dose pharmacological immunosuppressive background. Cell administration was found to be technically feasible; importantly, we found no evidence of acute toxicity associated with MAPC infusions. STEM CELLS TRANSLATIONAL MEDICINE 2015;4:899-904
SIGNIFICANCELiver transplantation is the only definitive treatment for liver failure. However, in order to prevent rejection of the graft, patients must receive lifelong pharmacological immunosuppression, which itself causes clinically significant side effects. This study provides preclinical evidence that mesenchymal stem cells (MSCs) and multipotent adult progenitor cells (MAPCs) can prolong allogeneic solid organ transplant survival in animals by switching the host response toward operational tolerance. To examine the safety and feasibility of MAPC therapy in patients receiving a living-related or dead-before-donation unrelated donor liver graft, the MiSOT-I (Mesenchymal Stem Cells in Solid Organ Transplantation Phase I) trial was designed. The first study patient, a 27-year-old male with liver cirrhosis of unknown etiology, received a living-related adult right liver graft from his brother. MAPC administration in both the operating room (day 0) and intensive care unit (day 2) was feasible, and no evidence was seen of acute complications associated with the cell infusion. The absence of any acute clinical complications of cell infusion is reassuring for the future administration of MAPCs.
We provide retrospective evidence that multimodal treatment with gastrectomy, CRS, and HIPEC is associated with improved survival for patients with PC of advanced gastric cancer compared with gastrectomy and palliative chemotherapy alone. We also show that patients treated with CRS-HIPEC have comparable survival to matched control patients without PC. However, regardless of treatment scheme, all patients subsequently recur and die of disease.
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