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  • Title: Piezoeletric cold atmospheric plasma induces apoptosis and autophagy in human hepatocellular carcinoma cells through blocking glycolysis and AKT/mTOR/HIF-1α pathway.
    Author: Wang Y, Mang X, Li D, Chen Y, Cai Z, Tan F.
    Journal: Free Radic Biol Med; 2023 Nov 01; 208():134-152. PubMed ID: 37543168.
    Abstract:
    Hepatocellular carcinoma (HCC) is the sixth most prevalent cancer and the fourth leading cause of cancer-related death worldwide. Advanced or metastatic HCC is currently managed using systemic drug therapy with unsatisfactory patient survival. Cold atmospheric plasma has emerged as a promising, physicochemical, and broad-spectrum oncotherapy. In this preclinical study, we investigated the anti-neoplastic functions and mechanism of piezoelectric direct discharge technology-based CAP, Piezo-CAP, on HCC in vitro and in vivo. Various HCC cells lines, such as SMMC7721, HepG2 and LM3, were used as in vitro cancer model for the phenotypic and mechanistic studies. Specifically, the cell counting Kit-8 and colony formation assay, flow cytometry, Transwell assay, Western blot, reactive oxygen species (ROS) assay, and glutathione to oxidized glutathione ratio (GSH/GSSG) assay were used to demonstrate plasma-induced changes in HCC cell proliferation, cell cycle progression, migration and invasion, epithelial-to-mesenchymal transition, intracellular ROS, and antioxidant capacity, respectively. In addition, the Acridine orange and ethidium bromide (AO/EB) staining and transmission electron microscopy were performed for cellular and subcellular assessment of HCC cell apoptosis. The Ad-mCherry-RFP-LC3B fluorescent double-labeled lentiviral system was used to detect autophagic flux. On the other hand, RNA-sequencing, quantitative real-time PCR, and Western blot were used to demonstrate plasma-induced metabolic and molecular disruption of tumor glycolysis and oncogenic proliferation, respectively. In vivo experiments using a human cell-line-derived xenograft model and immunohistochemistry (IHC) were utilized to investigate the mechanism. Piezo-CAP exerted anti-neoplastic functions through inhibiting cell proliferation, migration and invasion, and promote cell apoptosis and autophagy. Treatment of Piezo-CAP could suppress proliferation and induce autophagy of HCC cells through simultaneously disrupts cancer survival pathways of redox deregulation, glycolytic pathway, and PI3K/AKT/mTOR/HIF1α pathway signaling. Moreover, upon translation of these in vitro results into the tissue level, Piezo-CAP significantly suppressed in situ tumor growth. These findings collectively suggest that Piezo-CAP-induced apoptosis and autophagy of HCC cells though a multitargeted blockade of major cancer survival pathways of deregulated redox balance, glycolysis, and PI3K/AKT/mTOR/HIF-1α signaling.
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