In Vivo Implanted Bone Marrow-Derived Mesenchymal Stem Cells Trigger a Cascade of Cellular Events Leading to the Formation of an Ectopic Bone Regenerative Niche

Abstract

We recently reported that mouse bone marrow stromal cells, also known as bone marrow (BM)-derived mesenchymal stem cells (MSCs), seeded onto a scaffold and implanted in vivo, led to an ectopic bone deposition by host cells. This MSCs capacity was critically dependent on their commitment level, being present only in MSCs cultured in presence of fibroblast growth factor-2. Taking advantage of a chimeric mouse model, in this study we show that seeded MSCs trigger a cascade of events resulting in the mobilization of macrophages, the induction of their functional switch from a proinflammatory to a proresolving phenotype, and the subsequent formation of a bone regenerative niche through the recruitment, within the first 2 weeks of implantation, of endothelial progenitors and of cells with an osteogenic potential (CD146+CD105+), both of them derived from the BM. Moreover, we demonstrated that, in an inflammatory environment, MSCs secrete a large amount of prostaglandin E2 playing a key role in the macrophage phenotype switch.