Large Scale Gene Expression Analysis of Osteoclastogenesisin Vitro and Elucidation of NFAT2 as a Key Regulator
To understand the molecular events coupling between cell proliferation and differentiation by elucidating genes essential for the process, we conducted a large scale gene expression analysis of an in vitro osteoclastogenesis system consisting of recombinant RANKL and mouse RAW264 cells. The entire p...
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| Veröffentlicht in: | The Journal of biological chemistry 2002-10, Vol.277 (43), p.41147-41156 |
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| container_issue | 43 |
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| container_title | The Journal of biological chemistry |
| container_volume | 277 |
| creator | Ishida, Norihiro Hayashi, Koji Hoshijima, Mitsuhiro Ogawa, Takuya Koga, Shintaro Miyatake, Yuuki Kumegawa, Masayoshi Kimura, Toru Takeya, Tatsuo |
| description | To understand the molecular events coupling between cell proliferation and differentiation by elucidating genes essential
for the process, we conducted a large scale gene expression analysis of an in vitro osteoclastogenesis system consisting of recombinant RANKL and mouse RAW264 cells. The entire process leading to the formation
of tartrate resistant acid phosphatase-positive multinucleated cells takes 3 days and plates become fully covered with multinucleated
cells at 4 days. Microarray probing at eight time points revealed 635 genes that showed greater than 2-fold differential expression
for at least one time point and they could be classified into six groups by the âk-meansâ clustering analysis. Among a group
of 106 early inducible genes (within 2â5 h after RANKL stimulation), four genes including NFAT2 were identified as genes whose enhanced expressions were fairly correlated with an efficient induction of matured osteoclasts.
Moreover, cyclosporin A significantly suppressed the multinucleated cell formation accompanying the reduction of the nuclear
localization of NFAT2. When the expression of NFAT2 was suppressed by introducing antisense NFAT2, multinucleated cell formation
was severely hampered. Functional analysis thus combined with gene analysis by microarray technology elucidated a key role
of NFAT2 in osteoclastogenesis in vitro . |
| doi_str_mv | 10.1074/jbc.M205063200 |
| format | Article |
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for the process, we conducted a large scale gene expression analysis of an in vitro osteoclastogenesis system consisting of recombinant RANKL and mouse RAW264 cells. The entire process leading to the formation
of tartrate resistant acid phosphatase-positive multinucleated cells takes 3 days and plates become fully covered with multinucleated
cells at 4 days. Microarray probing at eight time points revealed 635 genes that showed greater than 2-fold differential expression
for at least one time point and they could be classified into six groups by the âk-meansâ clustering analysis. Among a group
of 106 early inducible genes (within 2â5 h after RANKL stimulation), four genes including NFAT2 were identified as genes whose enhanced expressions were fairly correlated with an efficient induction of matured osteoclasts.
Moreover, cyclosporin A significantly suppressed the multinucleated cell formation accompanying the reduction of the nuclear
localization of NFAT2. When the expression of NFAT2 was suppressed by introducing antisense NFAT2, multinucleated cell formation
was severely hampered. Functional analysis thus combined with gene analysis by microarray technology elucidated a key role
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for the process, we conducted a large scale gene expression analysis of an in vitro osteoclastogenesis system consisting of recombinant RANKL and mouse RAW264 cells. The entire process leading to the formation
of tartrate resistant acid phosphatase-positive multinucleated cells takes 3 days and plates become fully covered with multinucleated
cells at 4 days. Microarray probing at eight time points revealed 635 genes that showed greater than 2-fold differential expression
for at least one time point and they could be classified into six groups by the âk-meansâ clustering analysis. Among a group
of 106 early inducible genes (within 2â5 h after RANKL stimulation), four genes including NFAT2 were identified as genes whose enhanced expressions were fairly correlated with an efficient induction of matured osteoclasts.
Moreover, cyclosporin A significantly suppressed the multinucleated cell formation accompanying the reduction of the nuclear
localization of NFAT2. When the expression of NFAT2 was suppressed by introducing antisense NFAT2, multinucleated cell formation
was severely hampered. Functional analysis thus combined with gene analysis by microarray technology elucidated a key role
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for the process, we conducted a large scale gene expression analysis of an in vitro osteoclastogenesis system consisting of recombinant RANKL and mouse RAW264 cells. The entire process leading to the formation
of tartrate resistant acid phosphatase-positive multinucleated cells takes 3 days and plates become fully covered with multinucleated
cells at 4 days. Microarray probing at eight time points revealed 635 genes that showed greater than 2-fold differential expression
for at least one time point and they could be classified into six groups by the âk-meansâ clustering analysis. Among a group
of 106 early inducible genes (within 2â5 h after RANKL stimulation), four genes including NFAT2 were identified as genes whose enhanced expressions were fairly correlated with an efficient induction of matured osteoclasts.
Moreover, cyclosporin A significantly suppressed the multinucleated cell formation accompanying the reduction of the nuclear
localization of NFAT2. When the expression of NFAT2 was suppressed by introducing antisense NFAT2, multinucleated cell formation
was severely hampered. Functional analysis thus combined with gene analysis by microarray technology elucidated a key role
of NFAT2 in osteoclastogenesis in vitro .</abstract><pub>American Society for Biochemistry and Molecular Biology</pub><pmid>12171919</pmid><doi>10.1074/jbc.M205063200</doi><tpages>10</tpages><oa>free_for_read</oa></addata></record> |
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| source | Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals; Alma/SFX Local Collection |
| title | Large Scale Gene Expression Analysis of Osteoclastogenesisin Vitro and Elucidation of NFAT2 as a Key Regulator |
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