Epigenetic Reprogramming of IGF1 and Leptin Genes by Serum Deprivation in Multipotential Mesenchymal Stromal Cells

Recent studies on the therapeutic effect of multipotential mesenchymal stem cells (MSCs) in various models of injury have shown that paracrine factors secreted by MSCs are responsible for tissue repair with very little engraftment. In this study we tested the hypothesis that MSCs under stress undergo epigenetic modifications that direct secretion of paracrine factors responsible for tissue repair. Microarray assays of MSCs that had been deprived of serum (SD‐MSCs), to induce stress, demonstrated an increase in the expression of several angiogenic, prosurvival, and antiapoptotic factors, including insulin‐like growth factor 1 (IGF1) and leptin. Real‐time polymerase chain reaction assays demonstrated a >200‐fold increase in the expression of IGF1 and leptin in SD‐MSCs. Chromatin immunoprecipitation of SD‐MSCs revealed histone tail modifications consistent with transcriptional activation of IGF1 and leptin promoters in a reversible manner. To identify the functional significance of the epigenetic changes in stressed MSCs, we tested the prosurvival properties of SD‐MSCs and the ability of conditioned medium from SD‐MSCs to enhance survival of apoptotic cancer cells. First, we showed that SD‐MSCs are more resistant to oxidative damage than MSCs using alkaline comet assays. Next, we demonstrated that conditioned medium from SD‐MSCs decreased staurosporin‐induced cell death in the KHOS osteosarcoma cell line, and that this effect was partially reversed by immunodepletion of IGF1 or leptin from the conditioned medium. In conclusion, we demonstrate that serum deprivation induces epigenetic changes in MSCs to upregulate the expression of the proangiogenic and antiapoptotic factors IGF1 and leptin. S TEM C ELLS 2009;27:375–382