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Abstract
Bone morphogenetic proteins (BMPs) are well known to induce bone formation in animal models and can promote osteogenesis in cultures of multipotential mesenchymal stem cells (MSC) isolated from rat and mouse bone marrow. However, clinical trials of BMPs suggest that BMPs are relatively ineffective inducers of osteogenesis in humans. Recent studies from our lab indicate that when human bone marrow MSC are placed in primary culture, osteogenesis can be induced by dexamethasone (Dex), but not by BMP-2, -4, or -7. We have therefore investigated components of BMP signaling pathways in human MSC. First passage cells, derived from the bone marrow of patients undergoing hip replacement surgery, were cultured with ascorbate phosphate and treated with 100 nM dexamethasone (Dex), 100 ng/ml BMP, or both. After 6 days, alkaline phosphatase activity of cell extracts was measured, and RNA was extracted for RT-PCR analysis of mRNA levels. Among human MSC samples from more than a dozen patients, only one patient sample showed significantly elevated alkaline phosphatase after exposure to BMP; the rest responded to Dex but not BMP. Analysis of mRNA from cultured human MSC indicated that, while Dex treatment caused increased levels of mRNA for alkaline phosphatase, BMP did not. Noggin is a BMP-binding protein that is upregulated by BMPs. BMP-treated human MSC cultures that did not show increased alkaline phosphatase did express elevated levels of noggin mRNA, indicating that the cells are capable of some BMP response. Our results suggest that BMP signaling in mesenchymal stem cells utilizes more than one system for transcriptional activation. The inability of most human MSC to activate transcription of the alkaline phosphatase gene implies that a defect exists in the system required for induction of the osteoblast phenotype.