The epidermal growth factor receptor tyrosine kinase inhibitors (EGFR-TKIs), such as gefitinib and erlotinib, have shown promising therapeutic efficacy in nonsmall cell lung cancer (NSCLC) patients harboring epidermal growth factor receptor- (EGFR-) activating mutation. However, the inevitable recurrence resulting from acquired resistance has limited the clinical improvement in therapy outcomes. Many studies demonstrate that hepatocyte growth factor- (HGF-) Met axis plays an important role in tumor progression and drug sensitivity. HGF may induce resistance to EGFR-TKIs in EGFR mutant lung cancer cells by Met/PI3K/Akt signaling. The purpose of this study was to determine whether bufalin, a major bioactive component of Venenum Bufonis, could reverse HGF-induced resistance to reversible and irreversible EGFR-TKIs in mutant lung cancer cells PC-9, HCC827, and H1975. Our studies showed that bufalin could reverse resistance to reversible and irreversible EGFR-TKIs induced by exogenous HGF in EGFR mutant lung cancer cells by inhibiting the Met/PI3K/Akt pathway and inducing death signaling. These results suggested that bufalin might have a potential to overcome HGF-induced resistance to molecular-targeted drugs for lung cancer.
Hepatic stellate cells (HSCs) play a crucial role in liver fibrosis by producing excessive extracellular matrix (ECM) following chronic inflammation. However, studying HSC function has been challenging due to the limited availability of primary human quiescent HSCs (qHSCs) in vitro, and the fact that primary qHSCs quickly activate when cultured on plastic plates. Advances in stem cell technology have allowed for the generation of qHSCs from human induced pluripotent stem cells (hiPSCs) with the potential to provide an unlimited source of cells. However, differentiated quiescent-like HSCs (iqHSCs) also activate spontaneously on conventional plastic plates. In this study, we generated iqHSCs from hiPSCs and developed a culture method to maintain such iqHSCs in a lowly activated state for up to 5 days by optimizing their physical culture microenvironment. We observed that threedimensional (3D) culture of iqHSCs in soft type 1 collagen hydrogels significantly inhibited their spontaneous activation in vitro while maintaining their ability to convert to activated state. Activation of iqHSC was successfully modeled by stimulating them with the fibrotic cytokine TGFβ1. Hence, our culture method can be used to generate HSCs with functions comparable to those in a healthy liver, facilitating the development of accurate in vitro liver models for identifying novel therapeutic agents.
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