Abstract
Muscle cells are often exposed to bone morphogenetic proteins (BMPs) in pathological muscle and/or bone conditions. Because BMPs function as strong bone inducers as well as myogenesis inhibitors, certain molecules likely prevent muscle cells from converting into pathologic bone; without these molecules, de novo bone would form as observed in myositis ossificans traumatica. When C2C12 myoblasts are exposed to BMPs, they differentiate into osteoblastic cells but cannot mature into bone cells. As the Osterix gene, a transcription factor for osteoblast differentiation, is only transiently induced upon BMP stimulation in C2C12 cells, we hypothesized that unknown transcriptional repressor(s) inhibit Osterix expression and prevent complete osteoblastic differentiation. Gene microarray analyses were performed to identify putative inhibitors for osteoblastic differentiation, and the paired-like homeodomain transcription factor Pitx2 (also termed Rieg), which plays an important regulatory role in left-right asymmetry, was identified. Pitx2 was induced 2 days after BMP stimulation in C2C12 cells in concert with Osterix down-regulation. Overexpression of Pitx2 repressed Osterix expression and subsequent osteoblastic differentiation, whereas Runx2, the most upstream regulator of osteogenesis, was unaffected. Conversely, the induction of short hairpin RNA for Pitx2 in C2C12 cells enhanced Osterix expression and osteoblastic maturation upon BMP stimulation. Moreover, mouse embryonic fibroblasts containing myoblasts from Pitx2-null embryos showed enhanced Osterix expression upon BMP stimulation. These findings suggest that Pitx2 suppresses osteogenic signals induced by BMPs in myoblasts to prevent their osteoblastic conversion.
Highlights
Bone morphogenetic proteins (BMPs)3 are secreted signaling molecules of the transforming growth factor- family, and they play a central role in bone formation
A decrease in Osterix was not observed in the terminal differentiation of osteoblast progenitor cells, such as mouse marrow stroma cells (MSC), ST-2 cells, or mouse calvarial osteoblasts,4 suggesting that sustained Osterix expression is important for osteoblastic maturation
We identified the paired-like homeodomain transcription factor Pitx2, which plays a critical role in the determination of left-right asymmetry during development [16, 17] and whose mutations are responsible for Rieger syndrome [20]
Summary
Adamts Aebp Angptl C1s Ebf Epdr Fbln Glul Gpm6b Igf Igf Igfbp Il1rn Ltbp Lphn Myo1b Nov Nsg Odz Pitx Pdgfrb Col1a1 Col12a1 Serpine Sox Thbs Tgfb a disintegrin-like and metalloprotease (reprolysin type) with thrombospondin type 1 motif, 2 AE binding protein 1 angiopoietin-like 2 complement component 1, s subcomponent early B-cell factor 1 ependymin 2 fibulin 5 glutamate-ammonia ligase (glutamine synthase) glycoprotein m6b insulin-like growth factor 1 insulin-like growth factor 2 insulin-like growth factor binding protein 7 interleukin 1 receptor antagonist latent transforming growth factor beta binding protein 3 latrophilin 2 myosin IB nephroblastoma overexpressed gene neuron specific gene family member 1 odd Oz/ten-m homolog 3 (Drosophila) paired-like homeodomain transcription factor 2 platelet derived growth factor receptor, beta polypeptide procollagen, type I, alpha 1 procollagen, type XII, alpha 1 serine (or cysteine) proteinase inhibitor, clade E, member 2 SRY-box containing gene 4 thrombospondin 2 transforming growth factor, beta 2.
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