Hierarchical Interactions of Homeodomain and Forkhead Transcription Factors in Regulating Odontogenic Gene Expression

Huojun Cao,Brad A Amendt,Xiao Li,Melanie A Amen,Diana Gutierrez,Jianbo Wang,Shankar R Venugopalan,Sergio Florez

doi:10.1074/jbc.m111.252031

Huojun Cao, Brad A Amendt + Show 6 more

Open Access

https://doi.org/10.1074/jbc.m111.252031

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Abstract

FoxJ1 is a forkhead transcription factor expressed in multiple tissues during development and a major regulator of cilia development. FoxJ1(-/-) mice present with defects in odontogenesis, and we correlate these defects to hierarchical interactions between homeodomain factors Pitx2 and Dlx2 with FoxJ1 in regulating their expression through direct physical interactions. Chromatin immunoprecipitation assays reveal endogenous Pitx2 and Dlx2 binding to the Dlx2 promoter and Dlx2 binding to the FoxJ1 promoter as well as Dlx2 and FoxJ1 binding to the amelogenin promoter. PITX2 activation of the Dlx2 promoter is attenuated by a direct Dlx2 physical interaction with PITX2. Dlx2 autoregulates its promoter, and Dlx2 transcriptionally activates the downstream gene FoxJ1. Dlx2 and FoxJ1 physically interact and synergistically regulate both Dlx2 and FoxJ1 promoters. Dlx2 and FoxJ1 also activate the amelogenin promoter, and amelogenin is required for enamel formation and late stage tooth development. FoxJ1(-/-) mice maxillary and mandibular incisors are reduced in length and width and have reduced amelogenin expression. FoxJ1(-/-) mice show a reduced and defective ameloblast layer, revealing a biological effect of these transcription factor hierarchies during tooth morphogenesis. These transcriptional mechanisms may contribute to other developmental processes such as neuronal, pituitary, and heart development.

Highlights

21372 JOURNAL OF BIOLOGICAL CHEMISTRY natal day (P) 1 in both ameloblasts and odontoblasts [2]
Because Pitx2 is the earliest marker of tooth development, we hypothesize that Pitx2 regulates early signaling molecules and transcription factors required to regulate early and late stages of tooth development
PITX2 Endogenously Binds to the Dlx2 Promoter—We have previously shown that PITX2 activates the Dlx2 promoter [28]

Summary

Introduction

21372 JOURNAL OF BIOLOGICAL CHEMISTRY natal day (P) 1 in both ameloblasts and odontoblasts [2]. The promoter region of the amelogenin contained several binding sites for FoxJ1 and Dlx2 This led to our hypothesis that these two factors together regulate amelogenin gene expression. All these factors show a hierarchical expression pattern at specific time points during tooth development starting with Pitx and subsequently Dlx, FoxJ1, and amelogenin. Dlx and FoxJ1 physically interact and synergistically regulate the Dlx and FoxJ1 promoters These two proteins regulate amelogenin gene expression. The FoxJ1 null mice reveal the biological role for FoxJ1 in regulating odontogenesis These results provide new molecular mechanisms for the combinatorial activity of three major transcription factors in regulating gene expression through physical interactions and direct promoter activation

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