Transcription factors RUNX1/AML1 and RUNX2/Cbfa1 dynamically associate with stationary subnuclear domains

The runt-related transcription factors (RUNX/Cbfa/AML) are essential for cellular differentiation and fetal development. C-terminal truncations of RUNX factors that eliminate the targeting of these factors to subnuclear foci result in lethal hematopoietic and skeletal phenotypes. Here we demonstrate...

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Veröffentlicht in:	Journal of cell science 2002-11, Vol.115 (Pt 21), p.4167-4176
Hauptverfasser:	Harrington, Kimberly S, Javed, Amjad, Drissi, Hicham, McNeil, Sandra, Lian, Jane B, Stein, Janet L, Van Wijnen, André J, Wang, Yu-Li, Stein, Gary S
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Sprache:	eng
Schlagworte:	Active Transport, Cell Nucleus - genetics Cell Differentiation - genetics Cell Nucleus - metabolism Cell Nucleus - ultrastructure Core Binding Factor Alpha 1 Subunit Core Binding Factor Alpha 2 Subunit Core Binding Factor alpha Subunits DNA-Binding Proteins - genetics DNA-Binding Proteins - metabolism Eukaryotic Cells - cytology Eukaryotic Cells - metabolism Fluorescent Antibody Technique Gene Expression Regulation, Developmental - genetics HeLa Cells Humans Macromolecular Substances Neoplasm Proteins Protein Structure, Tertiary - genetics Proto-Oncogene Proteins Transcription Factors - genetics Transcription Factors - metabolism
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container_end_page	4176
container_issue	Pt 21
container_start_page	4167
container_title	Journal of cell science
container_volume	115
creator	Harrington, Kimberly S Javed, Amjad Drissi, Hicham McNeil, Sandra Lian, Jane B Stein, Janet L Van Wijnen, André J Wang, Yu-Li Stein, Gary S
description	The runt-related transcription factors (RUNX/Cbfa/AML) are essential for cellular differentiation and fetal development. C-terminal truncations of RUNX factors that eliminate the targeting of these factors to subnuclear foci result in lethal hematopoietic and skeletal phenotypes. Here we demonstrate that in living cells the RUNX C-terminus is necessary for the dynamic association of RUNX into stable subnuclear domains. Time-lapse fluorescence microscopy shows that RUNX1 and RUNX2 localize to punctate foci that remain stationary in the nuclear space. By fluorescence recovery after photobleaching assays, both proteins are shown to dynamically associate at these subnuclear foci, with a 10 second half-time of recovery. A truncation of RUNX2, removing its intranuclear targeting signal (NMTS), increases its mobility by an order of magnitude, resulting in a half-time of recovery equivalent to that of EGFP alone. We propose that the dynamic shuttling of RUNX factors in living cells to positionally stabilized foci, which is dependent on the C-terminus, is a component of the mechanism for gene regulation in vivo.
doi_str_mv	10.1242/jcs.00095
format	Article
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C-terminal truncations of RUNX factors that eliminate the targeting of these factors to subnuclear foci result in lethal hematopoietic and skeletal phenotypes. Here we demonstrate that in living cells the RUNX C-terminus is necessary for the dynamic association of RUNX into stable subnuclear domains. Time-lapse fluorescence microscopy shows that RUNX1 and RUNX2 localize to punctate foci that remain stationary in the nuclear space. By fluorescence recovery after photobleaching assays, both proteins are shown to dynamically associate at these subnuclear foci, with a 10 second half-time of recovery. A truncation of RUNX2, removing its intranuclear targeting signal (NMTS), increases its mobility by an order of magnitude, resulting in a half-time of recovery equivalent to that of EGFP alone. 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C-terminal truncations of RUNX factors that eliminate the targeting of these factors to subnuclear foci result in lethal hematopoietic and skeletal phenotypes. Here we demonstrate that in living cells the RUNX C-terminus is necessary for the dynamic association of RUNX into stable subnuclear domains. Time-lapse fluorescence microscopy shows that RUNX1 and RUNX2 localize to punctate foci that remain stationary in the nuclear space. By fluorescence recovery after photobleaching assays, both proteins are shown to dynamically associate at these subnuclear foci, with a 10 second half-time of recovery. A truncation of RUNX2, removing its intranuclear targeting signal (NMTS), increases its mobility by an order of magnitude, resulting in a half-time of recovery equivalent to that of EGFP alone. 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source	MEDLINE; Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals; Company of Biologists
subjects	Active Transport, Cell Nucleus - genetics Cell Differentiation - genetics Cell Nucleus - metabolism Cell Nucleus - ultrastructure Core Binding Factor Alpha 1 Subunit Core Binding Factor Alpha 2 Subunit Core Binding Factor alpha Subunits DNA-Binding Proteins - genetics DNA-Binding Proteins - metabolism Eukaryotic Cells - cytology Eukaryotic Cells - metabolism Fluorescent Antibody Technique Gene Expression Regulation, Developmental - genetics HeLa Cells Humans Macromolecular Substances Neoplasm Proteins Protein Structure, Tertiary - genetics Proto-Oncogene Proteins Transcription Factors - genetics Transcription Factors - metabolism
title	Transcription factors RUNX1/AML1 and RUNX2/Cbfa1 dynamically associate with stationary subnuclear domains
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