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Transcriptional regulation of cyclophilin D by BMP/SMAD signaling and its role in osteogenic differentiation
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SUMMARYCyclophilin D (CypD) promotes opening of the mitochondrial permeability transition pore (MPTP) which plays a key role in both cell physiology and pathology. It is, therefore beneficial for cells to tightly regulate CypD and MPTP but little is known about such regulation. We have reported before that CypD is downregulated and MPTP deactivated during differentiation in various tissues. Herein, we identify BMP/Smad signaling, a major driver of differentiation, as a transcriptional repressor of the CypD gene, Ppif. Using osteogenic induction of mesenchymal lineage cells as a model of BMP/Smad-dependent differentiation, we show that CypD is in fact transcriptionally repressed during this process. The importance of such CypD downregulation is evidenced by the negative effect of CypD ‘rescue’ via gain-of-function on osteogenesis both in vitro and in vivo. In sum, we characterized BMP/Smad signaling as a regulator of CypD expression and elucidated the role of CypD downregulation during cell differentiation.
Cold Spring Harbor Laboratory
Title: Transcriptional regulation of cyclophilin D by BMP/SMAD signaling and its role in osteogenic differentiation
Description:
SUMMARYCyclophilin D (CypD) promotes opening of the mitochondrial permeability transition pore (MPTP) which plays a key role in both cell physiology and pathology.
It is, therefore beneficial for cells to tightly regulate CypD and MPTP but little is known about such regulation.
We have reported before that CypD is downregulated and MPTP deactivated during differentiation in various tissues.
Herein, we identify BMP/Smad signaling, a major driver of differentiation, as a transcriptional repressor of the CypD gene, Ppif.
Using osteogenic induction of mesenchymal lineage cells as a model of BMP/Smad-dependent differentiation, we show that CypD is in fact transcriptionally repressed during this process.
The importance of such CypD downregulation is evidenced by the negative effect of CypD ‘rescue’ via gain-of-function on osteogenesis both in vitro and in vivo.
In sum, we characterized BMP/Smad signaling as a regulator of CypD expression and elucidated the role of CypD downregulation during cell differentiation.
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