Structural insights into the cooperative nucleosome recognition and chromatin opening by FOXA1 and GATA4

Bing Rui Zhou; Hanqiao Feng; Furong Huang; Iris Zhu; Stephanie Portillo-Ledesma; Dan Shi; Kenneth S. Zaret; Tamar Schlick; David Landsman; Qianben Wang; Yawen Bai

doi:10.1016/j.molcel.2024.07.016

Structural insights into the cooperative nucleosome recognition and chromatin opening by FOXA1 and GATA4

Bing Rui Zhou, Hanqiao Feng, Furong Huang, Iris Zhu, Stephanie Portillo-Ledesma, Dan Shi, Kenneth S. Zaret, Tamar Schlick, David Landsman, Qianben Wang, Yawen Bai

Chemistry

Research output: Contribution to journal › Article › peer-review

Abstract

Mouse FOXA1 and GATA4 are prototypes of pioneer factors, initiating liver cell development by binding to the N1 nucleosome in the enhancer of the ALB1 gene. Using cryoelectron microscopy (cryo-EM), we determined the structures of the free N1 nucleosome and its complexes with FOXA1 and GATA4, both individually and in combination. We found that the DNA-binding domains of FOXA1 and GATA4 mainly recognize the linker DNA and an internal site in the nucleosome, respectively, whereas their intrinsically disordered regions interact with the acidic patch on histone H2A-H2B. FOXA1 efficiently enhances GATA4 binding by repositioning the N1 nucleosome. In vivo DNA editing and bioinformatics analyses suggest that the co-binding mode of FOXA1 and GATA4 plays important roles in regulating genes involved in liver cell functions. Our results reveal the mechanism whereby FOXA1 and GATA4 cooperatively bind to the nucleosome through nucleosome repositioning, opening chromatin by bending linker DNA and obstructing nucleosome packing.

Original language	English (US)
Pages (from-to)	3061-3079.e10
Journal	Molecular Cell
Volume	84
Issue number	16
DOIs	https://doi.org/10.1016/j.molcel.2024.07.016
State	Published - Aug 22 2024

Keywords

FOXA1
GATA4
N1 nucleosome
cell fate determination
chromatin
chromatosome
enhancer
nucleosome
nucleosome array
pioneer transcription factor

ASJC Scopus subject areas

Molecular Biology
Cell Biology

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10.1016/j.molcel.2024.07.016

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title = "Structural insights into the cooperative nucleosome recognition and chromatin opening by FOXA1 and GATA4",

abstract = "Mouse FOXA1 and GATA4 are prototypes of pioneer factors, initiating liver cell development by binding to the N1 nucleosome in the enhancer of the ALB1 gene. Using cryoelectron microscopy (cryo-EM), we determined the structures of the free N1 nucleosome and its complexes with FOXA1 and GATA4, both individually and in combination. We found that the DNA-binding domains of FOXA1 and GATA4 mainly recognize the linker DNA and an internal site in the nucleosome, respectively, whereas their intrinsically disordered regions interact with the acidic patch on histone H2A-H2B. FOXA1 efficiently enhances GATA4 binding by repositioning the N1 nucleosome. In vivo DNA editing and bioinformatics analyses suggest that the co-binding mode of FOXA1 and GATA4 plays important roles in regulating genes involved in liver cell functions. Our results reveal the mechanism whereby FOXA1 and GATA4 cooperatively bind to the nucleosome through nucleosome repositioning, opening chromatin by bending linker DNA and obstructing nucleosome packing.",

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author = "Zhou, {Bing Rui} and Hanqiao Feng and Furong Huang and Iris Zhu and Stephanie Portillo-Ledesma and Dan Shi and Zaret, {Kenneth S.} and Tamar Schlick and David Landsman and Qianben Wang and Yawen Bai",

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doi = "10.1016/j.molcel.2024.07.016",

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AU - Zhou, Bing Rui

AU - Feng, Hanqiao

AU - Huang, Furong

AU - Zhu, Iris

AU - Portillo-Ledesma, Stephanie

AU - Shi, Dan

AU - Zaret, Kenneth S.

AU - Schlick, Tamar

AU - Landsman, David

AU - Wang, Qianben

AU - Bai, Yawen

PY - 2024/8/22

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N2 - Mouse FOXA1 and GATA4 are prototypes of pioneer factors, initiating liver cell development by binding to the N1 nucleosome in the enhancer of the ALB1 gene. Using cryoelectron microscopy (cryo-EM), we determined the structures of the free N1 nucleosome and its complexes with FOXA1 and GATA4, both individually and in combination. We found that the DNA-binding domains of FOXA1 and GATA4 mainly recognize the linker DNA and an internal site in the nucleosome, respectively, whereas their intrinsically disordered regions interact with the acidic patch on histone H2A-H2B. FOXA1 efficiently enhances GATA4 binding by repositioning the N1 nucleosome. In vivo DNA editing and bioinformatics analyses suggest that the co-binding mode of FOXA1 and GATA4 plays important roles in regulating genes involved in liver cell functions. Our results reveal the mechanism whereby FOXA1 and GATA4 cooperatively bind to the nucleosome through nucleosome repositioning, opening chromatin by bending linker DNA and obstructing nucleosome packing.

AB - Mouse FOXA1 and GATA4 are prototypes of pioneer factors, initiating liver cell development by binding to the N1 nucleosome in the enhancer of the ALB1 gene. Using cryoelectron microscopy (cryo-EM), we determined the structures of the free N1 nucleosome and its complexes with FOXA1 and GATA4, both individually and in combination. We found that the DNA-binding domains of FOXA1 and GATA4 mainly recognize the linker DNA and an internal site in the nucleosome, respectively, whereas their intrinsically disordered regions interact with the acidic patch on histone H2A-H2B. FOXA1 efficiently enhances GATA4 binding by repositioning the N1 nucleosome. In vivo DNA editing and bioinformatics analyses suggest that the co-binding mode of FOXA1 and GATA4 plays important roles in regulating genes involved in liver cell functions. Our results reveal the mechanism whereby FOXA1 and GATA4 cooperatively bind to the nucleosome through nucleosome repositioning, opening chromatin by bending linker DNA and obstructing nucleosome packing.

KW - FOXA1

KW - GATA4

KW - N1 nucleosome

KW - cell fate determination

KW - chromatin

KW - chromatosome

KW - enhancer

KW - nucleosome

KW - nucleosome array

KW - pioneer transcription factor

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JO - Molecular Cell

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ER -

Structural insights into the cooperative nucleosome recognition and chromatin opening by FOXA1 and GATA4

Abstract

Keywords

ASJC Scopus subject areas

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