The Therapeutic Efficacy of Tonsil-derived Mesenchymal Stem Cells in Dextran Sulfate Sodium-induced Acute Murine Colitis Model / 대한소화기학회지

BACKGROUND/AIMS: Mesenchymal stem cells (MSCs) are multipotent progenitor cells currently under investigation for its efficacy as the treatment for inflammatory bowel disease. In this study, we evaluated the efficacy of tonsil-derived mesenchymal stem cells (T-MSCs) as a novel source of mesenchymal stem cells and traced their localization in a murine model of acute colitis induced by dextran sulfate sodium (DSS). METHODS: C57BL/6 mice were randomly assigned to the following three groups: the normal control group, DSS colitis group (DSS+phosphate buffered saline), and T-MSC group (DSS+T-MSCs, 1×106). The severity of colitis was assessed by determining the severity of symptoms of colitis, colon length, histopathologic grade, and levels of inflammatory cytokines. T-MSCs labeled with PKH26 were traced in vivo. RESULTS: The T-MSC group, compared with the DSS colitis group, showed a significantly lower disease activity index (11.3±1.5 vs. 8.3±1.9, p=0.015) at sacrifice and less reduction of body weight (-17.1±5.0% vs. -8.1±6.9%, p=0.049). In the T-MSC group, the histologic colitis score was significantly decreased compared with the DSS colitis group (22.6±3.8 vs. 17.0±3.4, p=0.039). IL-6 and IL-1β, the pro-inflammatory cytokines, were also significantly reduced after a treatment with T-MSCs. In vivo tracking revealed no PKH26-labelled T-MSCs in the colonic tissue of mice with acute colitis. CONCLUSIONS: In the acute colitis model, we demonstrated that the administration of T-MSCs ameliorates inflammatory symptoms and histology. Moreover, the anti-inflammatory activities of T-MSCs were independent of gut homing.

Can mesenchymal stem cell survive in hydroxyapatite sulphate.

Background: Many studies have reported the role of Mesenchymal Stem Cells (MSC) in treating fractures. In case with bone defect, fracture healing needs not only osteogenic but also osteoconductive component (scaffold). Hydroxyapatite calcium sulphate (HA-CaSO4) being widely used as bone void filler, may serve as scaffold for MSC. However, the effect of this scaffold to the viability of MSC has not been evaluated before. Methods: MSC were isolated from the iliac marrow of a Giant Flamish rabbit, and expanded in DMEM using histogradient density. After one week, they were sub-cultured in a 25cc TC flask (passage 1) and have the medium replaced every 3 days. During the subculture, we embedded a HA-CaSO4 pellet into the flask. The cells were evaluated under inverted microscope at a weekly interval. Results: At the first week, MSC are difficult to be identified in microscope due to the large number of HA-CaSO4 crystals. By the third week however MSC have grown and the HA-CaSO4 crystals can readily be washed off by medium replacement. By the fourth weeks, MSC can be still seen on microscope. Conclusion: HA-CaSO4 could serve as a good scaffold due to its pellet shape and easily absorbed, thus providing revascularization which is essential for bone healing.In addition, HA-CaSO4 does not interfere with MSC survival.

Estrogen can alter the immuno-suppressive effects of MSC on DC via modulating MSC's cytokine secretion / 中国免疫学杂志

Objective:To investigate the effects of 17β-Estradiol (E2) on mesenchymal stem cells (MSC) and to evaluate the effects of MSC treated with E2 on the maturation and function of dendritic cells (DC).Methods: We first isolated and cultured MSC from the human fetal lung.The MSC were treated with E2 for 24 hours at various concentrations ( 10~(-9),10~(-8) and 10~(-7) mol/L).After cell counting,proliferation,adherent ability and immunophenotypes of MSC were detected by flowcytometry.The gene expressions of cytokine (IL-6,TGF-βand VEGF) were measured by RT-PCR.The effects of MSC treated with E2 on the maturation and function of DC were determined.Results:After treated with E2,the proliferation and adherent ability of MSC were increased,while the immunophenotypes of MSC were not affected.When MSCs co-cultured with DC,MSC could inhibit the immuophenotypes and function of DC.However,when DC co-cultured with E2-pretreated MSC,the immunophenotypes (MHC Ⅱ,CD80 and CD86) of DC had been reconstructed.After treated with the high concentration of E2 for 24 hours,MSC secreted lower level of TGF-β than that in the control group,while IL-6 and VEGF expressions were increased compared with those in the control group.Conclusion: Estrogen may alter the immuno-suppressive effects of MSC on DC via modulating the cytokine secretion of MSC.