A specific targeting signal directs Runx2/Cbfa1 to subnuclear domains and contributes to transactivation of the osteocalcin gene
Journal of cell science, 2001•journals.biologists.com
Key components of DNA replication and the basal transcriptional machinery as well as
several tissue-specific transcription factors are compartmentalized in specialized nuclear
domains. In the present study, we show that determinants of subnuclear targeting of the
bone-related Runx2/Cbfa1 protein reside in the C-terminus. With a panel of C-terminal
mutations, we further demonstrate that targeting of Runx2 to discrete subnuclear foci is
mediated by a 38 amino acid sequence (aa 397-434). This nuclear matrix-targeting signal …
several tissue-specific transcription factors are compartmentalized in specialized nuclear
domains. In the present study, we show that determinants of subnuclear targeting of the
bone-related Runx2/Cbfa1 protein reside in the C-terminus. With a panel of C-terminal
mutations, we further demonstrate that targeting of Runx2 to discrete subnuclear foci is
mediated by a 38 amino acid sequence (aa 397-434). This nuclear matrix-targeting signal …
Key components of DNA replication and the basal transcriptional machinery as well as several tissue-specific transcription factors are compartmentalized in specialized nuclear domains. In the present study, we show that determinants of subnuclear targeting of the bone-related Runx2/Cbfa1 protein reside in the C-terminus. With a panel of C-terminal mutations, we further demonstrate that targeting of Runx2 to discrete subnuclear foci is mediated by a 38 amino acid sequence (aa 397-434). This nuclear matrix-targeting signal (NMTS) directs the heterologous Gal4 protein to nuclear-matrix-associated Runx2 foci and enhances transactivation of a luciferase gene controlled by Gal4 binding sites. Importantly, we show that targeting of Runx2 to the NM-associated foci contributes to transactivation of the osteoblast-specific osteocalcin gene in osseous cells. Taken together, these findings identify a critical component of the mechanisms mediating Runx2 targeting to subnuclear foci and provide functional linkage between subnuclear organization of Runx2 and bone-specific transcriptional control.
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