OBJECTIVE: Bone marrow stromal cells (BMSCs) include multipotent cells with the ability to form mature bone organs upon in vivo transplantation. Hematopoiesis in these bone organs has been ascribed to the action of skeletal stem cells, which are capable of differentiating towards bone and hematopoiesis-supporting stroma. Yet, the creation of hematopoietic territories may be in part a natural consequence of the formation of a sufficiently mature and large bone microenvironment. Here, we describe, for the first time, a relationship between BMSC numbers and the extent of bone/hematopoiesis formation in heterotopic transplants. METHODS: Human BMSCs were transplanted along with hydroxyapatite/tricalcium phosphate, utilizing a spectrum of dosages, into immunotolerant mice; the transplants were followed for up to 29 months. RESULTS: The extent of bone and hematopoiesis formation increased with increasing BMSC numbers; however, the relationship was sigmoid in character, and a threshold number of BMSCs was necessary for extensive bone formation or any hematopoiesis. Hematopoiesis only occurred in conjunction with extensive bone formation, and no hematopoiesis occurred where bone formation was poor. Consistent with our earlier studies of long-term BMSC transplantation, the transplants underwent a change in bone morphology but not bone content after 8 weeks. CONCLUSION: Our results have provided evidence that the formation of both hematopoiesis and a mature bone organ is as much a consequence of a sufficiently high local density of bone marrow stromal cells as it is the product of skeletal stem cell action.
OBJECTIVE: Bone marrow stromal cells (BMSCs) include multipotent cells with the ability to form mature bone organs upon in vivo transplantation. Hematopoiesis in these bone organs has been ascribed to the action of skeletal stem cells, which are capable of differentiating towards bone and hematopoiesis-supporting stroma. Yet, the creation of hematopoietic territories may be in part a natural consequence of the formation of a sufficiently mature and large bone microenvironment. Here, we describe, for the first time, a relationship between BMSC numbers and the extent of bone/hematopoiesis formation in heterotopic transplants. METHODS:Human BMSCs were transplanted along with hydroxyapatite/tricalcium phosphate, utilizing a spectrum of dosages, into immunotolerant mice; the transplants were followed for up to 29 months. RESULTS: The extent of bone and hematopoiesis formation increased with increasing BMSC numbers; however, the relationship was sigmoid in character, and a threshold number of BMSCs was necessary for extensive bone formation or any hematopoiesis. Hematopoiesis only occurred in conjunction with extensive bone formation, and no hematopoiesis occurred where bone formation was poor. Consistent with our earlier studies of long-term BMSC transplantation, the transplants underwent a change in bone morphology but not bone content after 8 weeks. CONCLUSION: Our results have provided evidence that the formation of both hematopoiesis and a mature bone organ is as much a consequence of a sufficiently high local density of bone marrow stromal cells as it is the product of skeletal stem cell action.
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
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Authors: Mahesh H Mankani; Shahrzad Afghani; Jaime Franco; Max Launey; Sally Marshall; Grayson W Marshall; Robert Nissenson; Janice Lee; Antoni P Tomsia; Eduardo Saiz Journal: Tissue Eng Part A Date: 2011-04-02 Impact factor: 3.845
Authors: Andreas Reinisch; Nathalie Etchart; Daniel Thomas; Nicole A Hofmann; Margareta Fruehwirth; Subarna Sinha; Charles K Chan; Kshemendra Senarath-Yapa; Eun-Young Seo; Taylor Wearda; Udo F Hartwig; Christine Beham-Schmid; Slave Trajanoski; Qiong Lin; Wolfgang Wagner; Christian Dullin; Frauke Alves; Michael Andreeff; Irving L Weissman; Michael T Longaker; Katharina Schallmoser; Ravindra Majeti; Dirk Strunk Journal: Blood Date: 2014-11-18 Impact factor: 22.113
Authors: Eric Hesse; Theresa E Hefferan; James E Tarara; Carl Haasper; Rupert Meller; Christian Krettek; Lichun Lu; Michael J Yaszemski Journal: J Biomed Mater Res A Date: 2010-08 Impact factor: 4.396