TY - JOUR
T1 - Oxygen tension directs chondrogenic differentiation of myelo-monocytic progenitors during endochondral bone formation
AU - Shafer, Jessica
AU - Davis, Alan R.
AU - Gannon, Francis H.
AU - Fouletier-Dilling, Christine M.
AU - Lazard, Zawaunyka
AU - Moran, Kevin
AU - Gugala, Zbigniew
AU - Ozen, Mustafa
AU - Ittmann, Michael
AU - Heggeness, Michael H.
AU - Olmsted-Davis, Elizabeth
PY - 2007/8
Y1 - 2007/8
N2 - Synthesis of bone requires both essential progenitors to form the various structures and the correct microenvironment for their differentiation. To identify these factors, we have used a system that exploits bone morphogenetic protein's ability to induce endochondral bone formation rapidly. One of the earliest events observed was the influx and proliferation of fibroblastic cells that express both vascular smooth muscle cell markers, α smooth muscle actin (α SMA), smooth muscle myosin heavy chain, and the monocytic marker CD68. The expression of these factors was lost by days 4 to 5, coincident with the upregulation of Sox9 and the appearance of chondrocytes. Studies with a cyclization recombination (Cre)/lox system, in which a myeloid-specific promoter driving Cre recombinase can irreversibly unblock expression of β-galactosidase only in cells of myeloid origin, showed specific activity in the newly formed chondrocytes. These results suggest that early chondrocyte progenitors are of myeloid origin. Simultaneous with this recruitment, we determined that a numbers of these cells were in a hypoxic state, indicative of a low-oxygen environment. The cells in the hypoxic regions were undergoing chondrogenesis, whereas cells in adjacent normoxic regions appeared to be assembling into new vessels, suggesting that the oxygen microenvironment is critical for establishment of the cartilage.
AB - Synthesis of bone requires both essential progenitors to form the various structures and the correct microenvironment for their differentiation. To identify these factors, we have used a system that exploits bone morphogenetic protein's ability to induce endochondral bone formation rapidly. One of the earliest events observed was the influx and proliferation of fibroblastic cells that express both vascular smooth muscle cell markers, α smooth muscle actin (α SMA), smooth muscle myosin heavy chain, and the monocytic marker CD68. The expression of these factors was lost by days 4 to 5, coincident with the upregulation of Sox9 and the appearance of chondrocytes. Studies with a cyclization recombination (Cre)/lox system, in which a myeloid-specific promoter driving Cre recombinase can irreversibly unblock expression of β-galactosidase only in cells of myeloid origin, showed specific activity in the newly formed chondrocytes. These results suggest that early chondrocyte progenitors are of myeloid origin. Simultaneous with this recruitment, we determined that a numbers of these cells were in a hypoxic state, indicative of a low-oxygen environment. The cells in the hypoxic regions were undergoing chondrogenesis, whereas cells in adjacent normoxic regions appeared to be assembling into new vessels, suggesting that the oxygen microenvironment is critical for establishment of the cartilage.
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U2 - 10.1089/ten.2006.0063
DO - 10.1089/ten.2006.0063
M3 - Article
C2 - 17518751
AN - SCOPUS:34548104893
SN - 1076-3279
VL - 13
SP - 2011
EP - 2019
JO - Tissue Engineering
JF - Tissue Engineering
IS - 8
ER -