OBJECTIVE: Much remains to be learned about the intimate relationship between bone marrow and its surrounding tissue: the bone. We hypothesized that bone marrow accessory cell populations might regulate the development of human bone precursor cells. MATERIALS AND METHODS: We used immunologic phenotyping, and isolation methods to fractionate subpopulations of nonadherent, low-density (NALD) human bone marrow cells. These cells were examined for their ability to support the serum-free survival, proliferation, and expression of bone proteins by highly purified populations of human bone precursor cells. Quantitative assessment of the accessory cell populations as well as human bone precursor cells phenotype was performed using multiparameter flow cytometry. Bone protein expression was evaluated by immunocytochemistry, Western analysis, and enzymatic analysis (for alkaline phosphatase activity). RESULTS: Human bone marrow contains a cell population that stimulates the development of purified bone precursor cells. Feeder-layer studies demonstrate that these osteopoietic accessory cells (OACs) do not require cell-cell interaction to promote bone precursor cell development but, rather, produce soluble molecules responsible for their effects. Flow cytometric analyses reveal that bone marrow derived B cells, T cells, macrophages, natural killer cells, and endothelial cells do not produce this stimulatory factor. The (growth) factor cannot be replaced by addition of exogenous cytokines. The isolation of human transforming growth factor beta receptor type II (TGF-betaRII)-positive cells increases OAC-specific activity in bone cell ex vivo expansion cultures. Moreover, isolation of OAC bone marrow cells characterized by high TGF-betaRII expression, relatively low cellular complexity, and small size yields a population that is highly enriched for OACs. CONCLUSION: We conclude that human bone marrow contains a population of OACs that are an obligate requirement for the early phases of bone cell development ex vivo.
OBJECTIVE: Much remains to be learned about the intimate relationship between bone marrow and its surrounding tissue: the bone. We hypothesized that bone marrow accessory cell populations might regulate the development of human bone precursor cells. MATERIALS AND METHODS: We used immunologic phenotyping, and isolation methods to fractionate subpopulations of nonadherent, low-density (NALD) human bone marrow cells. These cells were examined for their ability to support the serum-free survival, proliferation, and expression of bone proteins by highly purified populations of human bone precursor cells. Quantitative assessment of the accessory cell populations as well as human bone precursor cells phenotype was performed using multiparameter flow cytometry. Bone protein expression was evaluated by immunocytochemistry, Western analysis, and enzymatic analysis (for alkaline phosphatase activity). RESULTS:Human bone marrow contains a cell population that stimulates the development of purified bone precursor cells. Feeder-layer studies demonstrate that these osteopoietic accessory cells (OACs) do not require cell-cell interaction to promote bone precursor cell development but, rather, produce soluble molecules responsible for their effects. Flow cytometric analyses reveal that bone marrow derived B cells, T cells, macrophages, natural killer cells, and endothelial cells do not produce this stimulatory factor. The (growth) factor cannot be replaced by addition of exogenous cytokines. The isolation of humantransforming growth factor beta receptor type II (TGF-betaRII)-positive cells increases OAC-specific activity in bone cell ex vivo expansion cultures. Moreover, isolation of OAC bone marrow cells characterized by high TGF-betaRII expression, relatively low cellular complexity, and small size yields a population that is highly enriched for OACs. CONCLUSION: We conclude that human bone marrow contains a population of OACs that are an obligate requirement for the early phases of bone cell development ex vivo.
Authors: Russell S Taichman; Zhuo Wang; Yusuke Shiozawa; Younghun Jung; Junhui Song; Alex Balduino; Jincheng Wang; Lalit R Patel; Aaron M Havens; Magdalena Kucia; Mariusz Z Ratajczak; Paul H Krebsbach Journal: Stem Cells Dev Date: 2010-10 Impact factor: 3.272
Authors: Anita Undale; Bhuma Srinivasan; Matthew Drake; Louise McCready; Elizabeth Atkinson; James Peterson; B Lawrence Riggs; Shreyasee Amin; U I Modder; U I Moedder; Sundeep Khosla Journal: Bone Date: 2010-03-31 Impact factor: 4.398
Authors: Younghun Jung; Junhui Song; Yusuke Shiozawa; Jingcheng Wang; Zhuo Wang; Benjamin Williams; Aaron Havens; Abraham Schneider; Chunxi Ge; Renny T Franceschi; Laurie K McCauley; Paul H Krebsbach; Russell S Taichman Journal: Stem Cells Date: 2008-05-22 Impact factor: 6.277
Authors: Mario Gössl; Ulrike I Mödder; Elizabeth J Atkinson; Amir Lerman; Sundeep Khosla Journal: J Am Coll Cardiol Date: 2008-10-14 Impact factor: 24.094
Authors: Constance P Soves; Joshua D Miller; Dana L Begun; Russell S Taichman; Kurt D Hankenson; Steven A Goldstein Journal: Bone Date: 2014-06-02 Impact factor: 4.398
Authors: Adam Papadimitropoulos; Elia Piccinini; Sophie Brachat; Alessandra Braccini; David Wendt; Andrea Barbero; Carsten Jacobi; Ivan Martin Journal: PLoS One Date: 2014-07-14 Impact factor: 3.240