Localization of tartrate-resistant acid phosphatase (TRAP), membrane type-1 matrix metalloproteinases (MT1-MMP) and macrophages during early endochondral bone formation
Michael J F Blumer, Stefano Longato & Helga Fritsch
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abstract
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Endochondral bone formation, the process by which most parts of our
skeleton evolve, leads to the establishment of the diaphyseal
primary (POC) and epiphyseal secondary ossification centre (SOC) in
long bones. An essential event for the development of the SOC is the
early generation of vascularized cartilage canals that requires the
proteolytic cleavage of the cartilaginous matrix. This in turn will
allow the canals to grow into the epiphysis. In the present study we
therefore initially investigated which enzymes and types of cells
are involved in this process. We have chosen the mouse as an animal
model and focused our studies on the distal part of the femur during
early stages after birth. The formation of the cartilage canals was
promoted by tartrate-resistant acid phosphatase (TRAP) and membrane
type-1 matrix metalloproteinases (MT1-MMP). In addition, macrophages
and cells containing numerous lysosomes contributed to the
establishment of the canals and enabled their further advancement
into the epiphysis. As development continued, the SOC was formed,
and in mice aged 10 days a distinct layer of type I collagen (=
osteoid) was laid down onto the cartilage scaffold. The events
leading to the establishment of the SOC were compared with those of
the POC. Basically these processes were quite similar, and in both
ossification centers, TRAP-positive chondroclasts resorbed the
cartilage matrix. However, occasionally co-expression of TRAP and
MT1-MMP was noted in a small subpopulation of this cell type.
Furthermore, numerous osteoblasts expressed MT1-MMP from the start
of endochondral ossification, whereas others did not. In
osteocytogenesis, MT1-MMP has been shown to be critical for the
establishment of the cytoplasmic processes mediating the
communication between osteocytes and bone-lining cells. Considering
the well-known fact that not all osteoblasts transform into
osteocytes, and in accordance with the present data, we suggest that
MT1-MMP is needed at the very beginning of osteocytogenesis and may
additionally determine whether an osteoblast further differentiates
into an osteocyte.
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citation
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Blumer M J F, Longato S, Fritsch H. Localization of
tartrate-resistant acid phosphatase (TRAP), membrane type-1 matrix
metalloproteinases (MT1-MMP) and macrophages during early
endochondral bone formation. J Anat 2008; 213:431-41.
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type
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journal paper/review (English)
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date of publishing
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17-07-2008
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journal title
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J Anat (213/4)
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ISSN electronic
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1469-7580
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pages
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431-41
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PubMed
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18643874
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DOI
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10.1111/j.1469-7580.2008.00958.x
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