Schizandrin A induces non‐small cell lung cancer apoptosis by suppressing the epidermal growth factor receptor activation

Abstract

AbstractObjectiveThe purpose of this study is to explore the biological mechanism of Schizandrin A (SchA) inducing non‐small cell lung cancer (NSCLC) apoptosis.MethodsThe reverse molecular docking tool “Swiss Target Prediction” was used to predict the targets of SchA. Protein–protein interaction analysis was performed on potential targets using the String database. Functional enrichment analyses of potential targets were performed with Gene Ontology and Kyoto Encyclopedia of Genes and Genomes. The conformation of SchA binding to target was simulated by chemical‐protein interactomics and molecular docking. The effect of SchA on the expression and phosphorylation level of EGFR was detected by Western blot. Lipofectamine 3000 and EGFR plasmids were used to overexpress EGFR. Apoptosis was tested with Annexin V‐FITC and propidium iodide staining, and cell cycle was detected by propidium iodide staining.ResultsThe “Swiss Target Prediction” database predicted 112 and 111 targets based on the 2D and 3D structures of SchA, respectively, of which kinases accounted for the most, accounting for 24%. Protein interaction network analyses showed that molecular targets such as ERBB family and SRC were at the center of the network. Functional enrichment analyses indicated that ERBB‐related signaling pathways were enriched. Compound‐protein interactomics and molecular docking revealed that SchA could bind to the ATP‐active pocket of the EGFR tyrosine kinase domain. Laboratory results showed that SchA inhibited the phosphorylation of EGFR. Insulin could counteract the cytotoxic effect of SchA. EGFR overexpression and excess EGF or IGF‐1 had limited impacts on the cytotoxicity of SchA.ConclusionsNetwork pharmacology analyses suggested that ERBB family members may be the targets of SchA. SchA can inhibit NSCLC at least in part by inhibiting EGFR phosphorylation, and activating the EGFR bypass can neutralize the cytotoxicity of SchA.