HDAC7-Induced Epigenetic Repression Modulates ATF3 Functional Plasticity in Colorectal Cancer Pathogenesis
Qi Wang, Donglei Ji, Yanjie Jia, Shuang Li, Wenjing Gao, Tingting Liang, Yingying Liang, Caroline Zeng, Chunyu Wang, Ka Lung Cheung, Quan Wang, Ming-Ming Zhou, Lei Zeng
Journal:International Journal of Biological Sciences
IF:11.7
DOI:10.7150/ijbs.121348
PMID:42157949
Published:2026-05-01
research field:肿瘤学分子生物学癌症生物学信号转导表观遗传学
Abstract
Class IIa histone deacetylase 7 (HDAC7) regulates transcription primarily through scaffolding functions, but its molecular mechanisms in cancer pathogenesis remain incompletely understood. Here, we establish HDAC7 as a key epigenetic regulator in colorectal cancer (CRC). HDAC7 is overexpressed in CRC tumors and correlates with advanced disease stages, lymph node metastasis, and poor patient survival. Mechanistically, HDAC7 scaffolds a repressive complex with HDAC3 and the stress-responsive transcription factor ATF3. This reduces H3K27ac/H3K18ac occupancy and blocks BRD4/RNA polymerase II (Pol II) recruitment at ATF3 regulatory regions to epigenetically silence its transcription. Consequently, this repression inactivates ATF3's tumor-suppressive functions, activating oncogenic PI3K-Akt signaling while suppressing the Hippo pathway. Genetic depletion or pharmacological inhibition of HDAC7 disrupts this repressive complex, triggering a functional switch in ATF3. This promotes BRD4/Pol II recruitment and H3K27ac enrichment at the ATF3 locus, enabling ATF3 to undergo transcriptional self-activation. Reactivated ATF3 suppresses CRC proliferation and survival by downregulating Bcl-2, upregulating p21 ( CDKN1A ) to induce cell cycle arrest, promoting caspase-3-mediated apoptosis, and inhibiting PI3K-Akt signaling. Xenograft studies confirm that HDAC7 depletion suppresses tumorigenicity in vivo . Our work identifies HDAC7 as a molecular mediator that governs ATF3's functional plasticity through competitive cofactor recruitment, positioning HDAC7 inhibition as a therapeutic strategy to reactivate ATF3-mediated tumor suppression in CRC.
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