Natural product fargesin interferes with H3 histone lactylation via targeting PKM2 to inhibit non‐small cell lung cancer tumorigenesis

Author:

Guo Zizhang1,Tang Yeqing1,Wang Shunshun2,Huang Yuming1,Chi Qingjia3,Xu Kang24ORCID,Xue Lei1

Affiliation:

1. Department of Thoracic Surgery The First Affiliated Hospital with Nanjing Medical University Nanjing Jiangsu China

2. Hubei Engineering Technology Research Center of Chinese Materia Medica Processing, School of Pharmacy Hubei University of Chinese Medicine Wuhan China

3. Department of Mechanics and Engineering Structure, Hubei Key Laboratory of Theory and Application of Advanced Materials Mechanics Wuhan University of Technology China

4. Hubei Shizhen Laboratory Wuhan China

Abstract

AbstractNon‐small cell lung cancer (NSCLC) is one of the most common malignant tumors. There is an urgent need to find more effective drugs that inhibit NSCLC. Fargesin (FGS) has demonstrated anti‐tumor effects; however, its efficacy and the molecular mechanism of inhibiting NSCLC are unclear. Herein, we investigated FGS’ inhibitory effects on NSCLC by CCK8 and EdU assays and cell cycle analysis of A549 cells in vitro and in a nude mouse tumor transplantation model in vivo. FGS (10–50 μM) significantly inhibited cell proliferation and down‐regulated expression levels of CDK1 and CCND1. Transcriptomic analysis showed that FGS regulated the cell metabolic process pathway. Differential metabolites with FGS treatment were enriched in glycolysis and pyruvate pathways. Cell metabolism assay were used to evaluate the oxygen consumption rate (OCR), Extracellular acidification rate (ECAR) in A549 cells. FGS also inhibited the production of cellular lactate and the expression of LDHA, LDHB, PKM2, and SLC2A1. These genes were identified as important oncogenes in lung cancer, and their binding to FGS was confirmed by molecular docking simulation. Notably, the over‐expression and gene silencing experiments signified PKM2 as the molecular target of FGS for anti‐tumorigenesis. Moreover, the H3 histone lactylation, were correlated with tumorigenesis, were inhibited with FGS treatment. Conclusively, FGS inhibited the aerobic glycolytic and H3 histone lactylation signaling pathways in A549 NSCLC cells by targeting PKM2. These findings provide evidence of the therapeutic potential of FGS in NSCLC.

Publisher

Wiley

Subject

Clinical Biochemistry,Molecular Medicine,General Medicine,Biochemistry

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