Abstract

Krüppel-like factor 3 (KLF3/BKLF), a member of the Krüppel-like factor (KLF) family of transcription factors, is a widely expressed transcriptional repressor with diverse biological roles. Although there is considerable understanding of the molecular mechanisms that allow KLF3 to silence the activity of its target genes, less is known about the signal transduction pathways and post-translational modifications that modulate KLF3 activity in response to physiological stimuli. We observed that KLF3 is modified in a range of different tissues and found that the serine/threonine kinase homeodomain-interacting protein kinase 2 (HIPK2) can both bind and phosphorylate KLF3. Mass spectrometry identified serine 249 as the primary phosphorylation site. Mutation of this site reduces the ability of KLF3 to bind DNA and repress transcription. Furthermore, we also determined that HIPK2 can phosphorylate the KLF3 co-repressor C-terminal binding protein 2 (CtBP2) at serine 428. Finally, we found that phosphorylation of KLF3 and CtBP2 by HIPK2 strengthens the interaction between these two factors and increases transcriptional repression by KLF3. Taken together, our results indicate that HIPK2 potentiates the activity of KLF3.

Highlights

  • Krüppel-like factor 3 (KLF3) is a transcriptional repressor with multiple biological roles

  • We found that homeodomain-interacting protein kinase 2 (HIPK2) can be co-immunoprecipitated with KLF3 from transfected COS nuclear extracts (Fig. 2B, lane 3)

  • Because HIPK2 is known to bind the KLF3 partner protein CtBP [34], we asked whether the interaction between KLF3 and HIPK2 is dependent on C-terminal binding protein 2 (CtBP2)

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Summary

Background

Krüppel-like factor 3 (KLF3) is a transcriptional repressor with multiple biological roles. Despite recent progress in both defining the biological functions of KLF3 and in understanding the molecular mechanisms whereby KLF3 regulates expression of its target genes, the signaling pathways and post-translational modifications that control KLF3 activity remain to be fully defined. To address this and identify novel interacting partners of KLF3, we performed a yeast two-hybrid screen and discovered that KLF3 can bind to homeodomain-interacting protein kinases (HIPKs). We determined that phosphorylation of KLF3 by HIPK2 promotes its DNA binding activity, increases the strength of its interaction with CtBP2, and enhances its ability to act as a transcriptional repressor. Our data show that phosphorylation of KLF3 and its corepressor CtBP2 by HIPK2 can potentiate the activity of this repressor complex in certain contexts

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