Wound healing can be improved by transplanting mesenchymal stem cells (MSCs). In this study, we have demonstrated the benefits of the conditioned medium derived from human MSCs (CM-MSC) in wound healing using an excisional wound model. CM-MSC accelerated wound closure with increased reepithelialization, cell infiltration, granulation formation, and angiogenesis. Notably, CM-MSC enhanced epithelial and endothelial cell migration, suggesting the contribution of increased cell migration to wound healing enhanced by CM-MSC. Cytokine array, ELISA analysis, and quantitative RT-PCR revealed high levels of IL-6 in CM-MSC. Moreover, IL-6 added to the preconditioned medium enhanced both cell migration and wound healing, and antibodies against IL-6 blocked the increase in cell motility and wound closure by CM-MSC. The IL-6 secretory pathway of MSCs was inhibited by SB203580, an inhibitor of p38 MAPK or siRNA against p38 MAPK, suggesting IL-6 secretion by MSCs is mediated through the activation of p38 MAPK. Inactivation of p38 MAPK also reduced the expression and production of IL-8 and CXCL1 by MSCs, both of which were also demonstrated to enhance cell migration and wound closure. Thus, our data suggest MSCs promote wound healing through releasing a repertoire of paracrine factors via activation of p38 MAPK, and the CM-MSC may be applied to enhance wound healing.
BackgroundIslet transplantation provides a promising cure for Type 1 diabetes; however it is limited by a shortage of pancreas donors. Bone marrow-derived multipotent mesenchymal stem cells (MSCs) offer renewable cells for generating insulin-producing cells (IPCs).MethodsWe used a four-stage differentiation protocol, containing neuronal differentiation and IPC-conversion stages, and combined with pellet suspension culture to induce IPC differentiation.ResultsHere, we report adding extracellular matrix proteins (ECM) such as fibronectin (FN) or laminin (LAM) enhances pancreatic differentiation with increases in insulin and Glut2 gene expressions, proinsulin and insulin protein levels, and insulin release in response to elevated glucose concentration. Adding FN or LAM induced activation of Akt and ERK. Blocking Akt or ERK by adding LY294002 (PI3K specific inhibitor), PD98059 (MEK specific inhibitor) or knocking down Akt or ERK failed to abrogate FN or LAM-induced enhancement of IPC differentiation. Only blocking both of Akt and ERK or knocking down Akt and ERK inhibited the enhancement of IPC differentiation by adding ECM.ConclusionsThese data prove IPC differentiation by MSCs can be modulated by adding ECM, and these stimulatory effects were mediated through activation of Akt and ERK pathways.
The current results demonstrated the isolation of MSCs from LF. The cellular response to TGF-β1 implied that these cells might play an important role in the pathogenesis of LF hypertrophy. TSA, which blocks the effects of TGF-β1, may be a potent therapeutic choice for inhibiting LF hypertrophy.
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