Molecular Analysis of the Interaction between the Hematopoietic Master Transcription Factors GATA-1 and PU.1

Molecular Analysis of the Interaction between the Hematopoietic Master Transcription Factors GATA-1 and PU.1

GATA-1 and PU.1 are transcription factors that control erythroid and myeloid development, respectively. The two proteins have been shown to function in an antagonistic fashion, with GATA-1 repressing PU.1 activity during erythropoiesis and PU.1 repressing GATA-1 function during myelopoiesis. It has...

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Veröffentlicht in:The Journal of biological chemistry 2006-09, Vol.281 (38), p.28296-28306
Hauptverfasser: Liew, Chu Wai, Rand, Kasper D., Simpson, Raina J.Y., Yung, Wendy W., Mansfield, Robyn E., Crossley, Merlin, Proetorius-Ibba, Mette, Nerlov, Claus, Poulsen, Flemming M., Mackay, Joel P.
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Acetylation
Amino Acid Motifs
Amino Acid Sequence
Animals
Binding Sites
DNA - metabolism
GATA1 Transcription Factor - chemistry
GATA1 Transcription Factor - physiology
Hematopoiesis
Humans
Mice
Molecular Sequence Data
Phosphorylation
Proto-Oncogene Proteins - chemistry
Proto-Oncogene Proteins - physiology
Trans-Activators - chemistry
Trans-Activators - physiology
Zinc Fingers
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container_end_page 28306
container_issue 38
container_start_page 28296
container_title The Journal of biological chemistry
container_volume 281
creator Liew, Chu Wai
Rand, Kasper D.
Simpson, Raina J.Y.
Yung, Wendy W.
Mansfield, Robyn E.
Crossley, Merlin
Proetorius-Ibba, Mette
Nerlov, Claus
Poulsen, Flemming M.
Mackay, Joel P.
description GATA-1 and PU.1 are transcription factors that control erythroid and myeloid development, respectively. The two proteins have been shown to function in an antagonistic fashion, with GATA-1 repressing PU.1 activity during erythropoiesis and PU.1 repressing GATA-1 function during myelopoiesis. It has also become clear that this functional antagonism involves direct interactions between the two proteins. However, the molecular basis for these interactions is not known, and a number of inconsistencies exist in the literature. We have used a range of biophysical methods to define the molecular details of the GATA-1-PU.1 interaction. A combination of NMR titration data and extensive mutagenesis revealed that the PU.1-Ets domain and the GATA-1 C-terminal zinc finger (CF) form a low affinity interaction in which specific regions of each protein are implicated. Surprisingly, the interaction cannot be disrupted by single alanine substitution mutations, suggesting that binding is distributed over an extended interface. The C-terminal basic tail region of CF appears to be sufficient to mediate an interaction with PU.1-Ets, and neither acetylation nor phosphorylation of a peptide corresponding to this region disrupts binding, indicating that the interaction is not dominated by electrostatic interactions. The CF basic tail shares significant sequence homology with the PU.1 interacting motif from c-Jun, suggesting that GATA-1 and c-Jun might compete to bind PU.1. Taken together, our data provide a molecular perspective on the GATA-1-PU.1 interaction, resolving several issues in the existing data and providing insight into the mechanisms through which these two proteins combine to regulate blood development.
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The C-terminal basic tail region of CF appears to be sufficient to mediate an interaction with PU.1-Ets, and neither acetylation nor phosphorylation of a peptide corresponding to this region disrupts binding, indicating that the interaction is not dominated by electrostatic interactions. The CF basic tail shares significant sequence homology with the PU.1 interacting motif from c-Jun, suggesting that GATA-1 and c-Jun might compete to bind PU.1. 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subjects Acetylation
Amino Acid Motifs
Amino Acid Sequence
Animals
Binding Sites
DNA - metabolism
GATA1 Transcription Factor - chemistry
GATA1 Transcription Factor - physiology
Hematopoiesis
Humans
Mice
Molecular Sequence Data
Phosphorylation
Proto-Oncogene Proteins - chemistry
Proto-Oncogene Proteins - physiology
Trans-Activators - chemistry
Trans-Activators - physiology
Zinc Fingers
title Molecular Analysis of the Interaction between the Hematopoietic Master Transcription Factors GATA-1 and PU.1
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