Litcius/Paper detail

Epiregulin increases stemness-associated genes expression and promotes chemoresistance of non-small cell lung cancer via ERK signaling

Yujia Zhang, Fengjun Qiu, Tingjie Ye, Sau Har Lee, Jiatuo Xu, Lingyan Jia, Rui Zeng, Xiaoling Wang, Xudong Hu, Xiaofeng Yan, Hua Li, Yanlin Lu, Xiaoling Wang, Rilei Jiang, Xu Wei

2022Stem Cell Research & Therapy22 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Chemoresistance often causes the failure of treatment and death of patients with advanced non-small-cell lung cancer. However, there is still no resistance genes signature and available enriched signaling derived from a comprehensive RNA-Seq data analysis of lung cancer patients that could act as a therapeutic target to re-sensitize the acquired resistant cancer cells to chemo-drugs. Hence, in this study, we aimed to identify the resistance signature for clinical lung cancer patients and explore the regulatory mechanism. METHOD: Analysis of RNA-Seq data from clinical lung cancer patients was conducted in R studio to identify the resistance signature. The resistance signature was validated by survival time of lung cancer patients and qPCR in chemo-resistant cells. Cytokine application, small-interfering RNA and pharmacological inhibition approaches were applied to characterize the function and molecular mechanism of EREG and downstream signaling in chemoresistance regulation via stemness. RESULTS: The RTK and vitamin D signaling were enriched among resistance genes, where 6 genes were validated as resistance signature and associated with poor survival in patients. EREG/ERK signaling was activated by chemo-drugs in NSCLC cells. EREG protein promoted the NSCLC resistance to chemo-drugs by increasing stemness genes expression. Additionally, inhibition of EREG/ErbB had downregulated ERK signaling, resulting in decreased expression of stemness-associated genes and subsequently re-sensitized the resistant NSCLC cells and spheres to chemo-drugs. CONCLUSIONS: These findings revealed 6 resistance genes signature and proved that EREG/ErbB regulated the stemness to maintain chemoresistance of NSCLC via ERK signaling. Therefore, targeting EREG/ErbB might significantly and effectively resolve the chemoresistance issue.

Topics & Concepts

EpiregulinErbBLung cancerCancer researchCancer stem cellRNA interferenceBiologyCancerMAPK/ERK pathwayGene silencingSignal transductionGene signatureSmall interfering RNACancer cellMedicineGeneGene expressionOncologyEpidermal growth factor receptorRNACell biologyAmphiregulinGeneticsCancer Cells and MetastasisLung Cancer Treatments and MutationsFibroblast Growth Factor Research