Structural Insight into the Binding of TGIF1 to SIN3A PAH2 Domain Through a C-Terminal Amphipathic Helix

Overview

Journal Int J Mol Sci

Publisher MDPI

Specialties Biochemistry
Chemistry
Molecular Biology

Date 2021 Dec 10

PMID 34884456

Citations 2

Authors

Xiaoling He

Yao Nie

Heng Zhou

Rui Hu

Ying Li

Ting He

Jiang Zhu

Yunhuang Yang

Maili Liu

Affiliations

Soon will be listed here.

Abstract

TGIF1 is a transcriptional repressor playing crucial roles in human development and function and is associated with holoprosencephaly and various cancers. TGIF1-directed transcriptional repression of specific genes depends on the recruitment of corepressor SIN3A. However, to date, the exact region of TGIF1 binding to SIN3A was not clear, and the structural basis for the binding was unknown. Here, we demonstrate that TGIF1 utilizes a C-terminal domain (termed as SIN3A-interacting domain, SID) to bind with SIN3A PAH2. The TGIF1 SID adopts a disordered structure at the apo state but forms an amphipathic helix binding into the hydrophobic cleft of SIN3A PAH2 through the nonpolar side at the holo state. Residues F379, L382 and V383 of TGIF1 buried in the hydrophobic core of the complex are critical for the binding. Moreover, homodimerization of TGIF1 through the SID and key residues of F379, L382 and V383 was evidenced, which suggests a dual role of TGIF1 SID and a correlation between dimerization and SIN3A-PAH2 binding. This study provides a structural insight into the binding of TGIF1 with SIN3A, improves the knowledge of the structure-function relationship of TGIF1 and its homologs and will help in recognizing an undiscovered SIN3A-PAH2 binder and developing a peptide inhibitor for cancer treatment.

Citing Articles

Functional characterization and comparative analysis of gene repression-mediating domains interacting with yeast pleiotropic corepressors Sin3, Cyc8 and Tup1.

Lettow J, Kliewe F, Aref R, Schuller H Curr Genet. 2023; 69(2-3):127-139.

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Systematic identification and characterization of repressive domains in Drosophila transcription factors.

Klaus L, de Almeida B, Vlasova A, Nemcko F, Schleiffer A, Bergauer K EMBO J. 2022; 42(3):e112100.

PMID: 36545802 PMC: 9890238. DOI: 10.15252/embj.2022112100.

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