Sp7/Osterix induces the mouse pro-α2(I) collagen gene (Col1a2) expression via the proximal promoter in osteoblastic cells

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Bone is essentially composed of two components, hydroxyapatite and extracellular matrix proteins. The extracellular matrix of bone is primary composed of collagen, mostly type I collagen, with lesser amounts of other types of collagen such as type V collagen. Osteoblast differentiation is a multi-step process in which many classes of factors function in a coordinated manner. Sp7/Osterix, which binds to G/C-rich sequences, is a transcription factor that contributes to osteoblast differentiation. The present study aimed to clarify the involvement of Sp7/Osterix with the proximal promoter region of the mouse Col1a2 gene containing multiple G/C-rich sequences exist. Consequently, a functional analysis of the proximal mouse Col1a2 promoter showed that a substitution mutation of the second G/C-rich sequence from the transcription site specifically decreased the activity of osteoblastic cells. In addition, the experiments of overexpression of Sp7/Osterix and treatment with its specific siRNA showed that this G/C-rich sequence is responsible for the specific expression in osteoblastic cells. Consistent with these data, Sp7/Osterix bound to the region and increased the expression of the Col1a2 gene in association with osteoblast differentiation in the culture system.