Local Delivery of Granulocyte Colony Stimulating Factor‐Mobilized CD34‐Positive Progenitor Cells Using Bioscaffold for Modality of Unhealing Bone Fracture

We recently reported that i.v. transplantation of adult human circulating CD34+ cells, an endothelial/hematopoietic progenitor‐enriched cell population, contributes to fracture healing through the enhancement of vasculogenesis and osteogenesis. However, the scarcity of CD34+ cells in the adult human...

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Veröffentlicht in:	Stem cells (Dayton, Ohio) Ohio), 2008-06, Vol.26 (6), p.1395-1405
Hauptverfasser:	Mifune, Yutaka, Matsumoto, Tomoyuki, Kawamoto, Atsuhiko, Kuroda, Ryosuke, Shoji, Taro, Iwasaki, Hiroto, Kwon, Sang‐Mo, Miwa, Masahiko, Kurosaka, Masahiro, Asahara, Takayuki
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Schlagworte:	Adult Animals Antigens, CD34 - analysis Bone Marrow Cells - cytology Capillaries - physiology CD34 cell dose CD34 progenitors CD34 stem cells Cell Differentiation Cell transplantation Cellular therapy Cytokines - genetics Endothelial cell Female Fractures, Bone - complications Fractures, Bone - surgery Granulocyte Colony-Stimulating Factor - pharmacology Hematopoietic Stem Cell Mobilization Humans Osteoblast Osteoblasts - cytology Osteoblasts - drug effects Osteogenesis Rats Reverse Transcriptase Polymerase Chain Reaction RNA - genetics RNA - isolation & purification Stem Cell Transplantation Stem Cells - cytology Stem Cells - drug effects Transplantation, Heterologous Wound Healing
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creator	Mifune, Yutaka Matsumoto, Tomoyuki Kawamoto, Atsuhiko Kuroda, Ryosuke Shoji, Taro Iwasaki, Hiroto Kwon, Sang‐Mo Miwa, Masahiko Kurosaka, Masahiro Asahara, Takayuki
description	We recently reported that i.v. transplantation of adult human circulating CD34+ cells, an endothelial/hematopoietic progenitor‐enriched cell population, contributes to fracture healing through the enhancement of vasculogenesis and osteogenesis. However, the scarcity of CD34+ cells in the adult human is a critical issue for the future clinical application of this method. To overcome this issue, we assessed in vitro and in vivo capacity of granulocyte colony‐stimulating factor‐mobilized peripheral blood (GM‐PB) human CD34+ cells for vasculogenesis and osteogenesis. First, we confirmed the differentiation capability of GM‐PB CD34+ cells into osteoblasts in vitro. Second, local transplantation of GM‐PB CD34+ cells on atelocollagen scaffold was performed in nude rats in a model of unhealing fractures. Immunostaining for human leukocyte antigen‐ABC of tissue samples 1 week after fracture and cell therapy showed the superior incorporation after local transplantation compared with systemic infusion. Third, the effects of local transplantation of 105 (Hi), 104 (Mid), or 103 (Lo) doses of GM‐PB CD34+ cells or phosphate‐buffered saline (PBS) on fracture healing were compared. Extrinsic vasculogenic and osteogenic differentiation of GM‐PB CD34+ cells, enhancement of the intrinsic angio‐osteogenesis by recipient cells, augmentation of blood flow recovery at the fracture sites, and radiological and histological confirmation of fracture healing were observed only in the Hi and Mid groups but not in the Lo and PBS groups. These results strongly suggest that local transplantation of GM‐PB CD34+ cells with atelocollagen scaffold is a feasible strategy for therapeutic vasculogenesis and osteogenesis needed for fracture healing. Disclosure of potential conflicts of interest is found at the end of this article.
doi_str_mv	10.1634/stemcells.2007-0820
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However, the scarcity of CD34+ cells in the adult human is a critical issue for the future clinical application of this method. To overcome this issue, we assessed in vitro and in vivo capacity of granulocyte colony‐stimulating factor‐mobilized peripheral blood (GM‐PB) human CD34+ cells for vasculogenesis and osteogenesis. First, we confirmed the differentiation capability of GM‐PB CD34+ cells into osteoblasts in vitro. Second, local transplantation of GM‐PB CD34+ cells on atelocollagen scaffold was performed in nude rats in a model of unhealing fractures. Immunostaining for human leukocyte antigen‐ABC of tissue samples 1 week after fracture and cell therapy showed the superior incorporation after local transplantation compared with systemic infusion. Third, the effects of local transplantation of 105 (Hi), 104 (Mid), or 103 (Lo) doses of GM‐PB CD34+ cells or phosphate‐buffered saline (PBS) on fracture healing were compared. Extrinsic vasculogenic and osteogenic differentiation of GM‐PB CD34+ cells, enhancement of the intrinsic angio‐osteogenesis by recipient cells, augmentation of blood flow recovery at the fracture sites, and radiological and histological confirmation of fracture healing were observed only in the Hi and Mid groups but not in the Lo and PBS groups. These results strongly suggest that local transplantation of GM‐PB CD34+ cells with atelocollagen scaffold is a feasible strategy for therapeutic vasculogenesis and osteogenesis needed for fracture healing. 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Extrinsic vasculogenic and osteogenic differentiation of GM‐PB CD34+ cells, enhancement of the intrinsic angio‐osteogenesis by recipient cells, augmentation of blood flow recovery at the fracture sites, and radiological and histological confirmation of fracture healing were observed only in the Hi and Mid groups but not in the Lo and PBS groups. These results strongly suggest that local transplantation of GM‐PB CD34+ cells with atelocollagen scaffold is a feasible strategy for therapeutic vasculogenesis and osteogenesis needed for fracture healing. 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However, the scarcity of CD34+ cells in the adult human is a critical issue for the future clinical application of this method. To overcome this issue, we assessed in vitro and in vivo capacity of granulocyte colony‐stimulating factor‐mobilized peripheral blood (GM‐PB) human CD34+ cells for vasculogenesis and osteogenesis. First, we confirmed the differentiation capability of GM‐PB CD34+ cells into osteoblasts in vitro. Second, local transplantation of GM‐PB CD34+ cells on atelocollagen scaffold was performed in nude rats in a model of unhealing fractures. Immunostaining for human leukocyte antigen‐ABC of tissue samples 1 week after fracture and cell therapy showed the superior incorporation after local transplantation compared with systemic infusion. Third, the effects of local transplantation of 105 (Hi), 104 (Mid), or 103 (Lo) doses of GM‐PB CD34+ cells or phosphate‐buffered saline (PBS) on fracture healing were compared. Extrinsic vasculogenic and osteogenic differentiation of GM‐PB CD34+ cells, enhancement of the intrinsic angio‐osteogenesis by recipient cells, augmentation of blood flow recovery at the fracture sites, and radiological and histological confirmation of fracture healing were observed only in the Hi and Mid groups but not in the Lo and PBS groups. These results strongly suggest that local transplantation of GM‐PB CD34+ cells with atelocollagen scaffold is a feasible strategy for therapeutic vasculogenesis and osteogenesis needed for fracture healing. Disclosure of potential conflicts of interest is found at the end of this article.</abstract><cop>Bristol</cop><pub>John Wiley & Sons, Ltd</pub><pmid>18388308</pmid><doi>10.1634/stemcells.2007-0820</doi><tpages>11</tpages><oa>free_for_read</oa></addata></record>
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subjects	Adult Animals Antigens, CD34 - analysis Bone Marrow Cells - cytology Capillaries - physiology CD34 cell dose CD34 progenitors CD34 stem cells Cell Differentiation Cell transplantation Cellular therapy Cytokines - genetics Endothelial cell Female Fractures, Bone - complications Fractures, Bone - surgery Granulocyte Colony-Stimulating Factor - pharmacology Hematopoietic Stem Cell Mobilization Humans Osteoblast Osteoblasts - cytology Osteoblasts - drug effects Osteogenesis Rats Reverse Transcriptase Polymerase Chain Reaction RNA - genetics RNA - isolation & purification Stem Cell Transplantation Stem Cells - cytology Stem Cells - drug effects Transplantation, Heterologous Wound Healing
title	Local Delivery of Granulocyte Colony Stimulating Factor‐Mobilized CD34‐Positive Progenitor Cells Using Bioscaffold for Modality of Unhealing Bone Fracture
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