Regulation of Histone Emulsification by HPDL via LDHA/LDHB Promotes EC Cell Proliferation.
The role of 4-hydroxyphenylpyruvate dioxygenase-like protein (HPDL) in endometrial cancer (EC) progression remains poorly understood, particularly its involvement in metabolic-epigenetic crosstalk via lactate-driven histone lactylation. This study aimed to investigate HPDL's mechanistic contribution to EC pathogenesis.
Stable HPDL-overexpressing and knockdown EC cell lines (HEC-1-B and AN3CA) were generated using lentiviral vectors. Functional assays (proliferation, migration, invasion), subcutaneous xenograft models in BALB/c nude mice, and molecular analyses were conducted. Lactate levels, Pan-lysine lactylation (pan-kla), histone H3K18 lactylation (H3K18la), and effects of sodium oxamate (lactate modulator) were assessed. Lactate Dehydrogenase A/Lactate Dehydrogenase B (LDHA/LDHB) knockdown, promoter activity assays, and chromatin immunoprecipitation (ChIP) were performed to evaluate H3K18la occupancy at LDHA/LDHB promoters.
HPDL knockdown reduced intracellular lactate, Pan-Kla, and H3K18la levels, while overexpression elevated these markers. Sodium oxamate amplified lactate and lactylation in HPDL-overexpressing cells but suppressed histone lactylation independently of HPDL. LDHA/LDHB knockdown diminished lactylation, repressed HPDL expression, and inhibited promoter activity. ChIP revealed H3K18la enrichment at LDHA/LDHB promoters in HPDL-overexpressing cells and reduced occupancy in knockdown models. HPDL enhanced EC cell proliferation, migration, and invasion in vitro. In vivo, HPDL-overexpressing xenografts exhibited accelerated tumor growth and larger volumes compared to controls.
HPDL regulates histone lactylation via LDHA/LDHB and promotes the proliferation of EC cells.
Stable HPDL-overexpressing and knockdown EC cell lines (HEC-1-B and AN3CA) were generated using lentiviral vectors. Functional assays (proliferation, migration, invasion), subcutaneous xenograft models in BALB/c nude mice, and molecular analyses were conducted. Lactate levels, Pan-lysine lactylation (pan-kla), histone H3K18 lactylation (H3K18la), and effects of sodium oxamate (lactate modulator) were assessed. Lactate Dehydrogenase A/Lactate Dehydrogenase B (LDHA/LDHB) knockdown, promoter activity assays, and chromatin immunoprecipitation (ChIP) were performed to evaluate H3K18la occupancy at LDHA/LDHB promoters.
HPDL knockdown reduced intracellular lactate, Pan-Kla, and H3K18la levels, while overexpression elevated these markers. Sodium oxamate amplified lactate and lactylation in HPDL-overexpressing cells but suppressed histone lactylation independently of HPDL. LDHA/LDHB knockdown diminished lactylation, repressed HPDL expression, and inhibited promoter activity. ChIP revealed H3K18la enrichment at LDHA/LDHB promoters in HPDL-overexpressing cells and reduced occupancy in knockdown models. HPDL enhanced EC cell proliferation, migration, and invasion in vitro. In vivo, HPDL-overexpressing xenografts exhibited accelerated tumor growth and larger volumes compared to controls.
HPDL regulates histone lactylation via LDHA/LDHB and promotes the proliferation of EC cells.
Authors
Wang Wang, Zhu Zhu, Wei Wei, Jin Jin, Liu Liu, Xu Xu, Yang Yang, Jiang Jiang, Wang Wang, Wang Wang
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