Abstract
Unfolded protein response (UPR) is a cytoprotective mechanism that alleviates the protein-folding burden in eukaryotic organisms. Moderate activation of UPR is required for maintaining endoplasmic reticulum (ER) homeostasis and profoundly contributes to tumorigenesis. Defects in UPR signaling are implicated in the attenuation of various malignant phenotypes including cell proliferation, migration, and invasion, as well as angiogenesis. This suggests UPR as a promising target in cancer therapy. The pharmacological effects of the plant Scindapsus cf. hederaceus on human cancer cell lines is not understood. In this study, we identified an ethyl acetate extract from Scindapsus cf. hederaceus (SH-EAE), which markedly altered the protein expression of UPR-related genes in human non-small cell lung cancer (NSCLC) cells. Treatment with the SH-EAE led to the dose-dependent suppression of colony forming ability of both H1299 and H460 cells, but not markedly in normal bronchial epithelial BEAS-2B cells. SH-EAE treatment also attenuated the migration and invasion ability of H1299 and H460 cells. Moreover, SH-EAE strikingly suppressed the protein expression of two ER stress sensors, including inositol requiring enzyme-1α (IRE-1α) and protein kinase R-like ER kinase (PERK), and antagonized the induction of C/EBP homologous protein (CHOP) expression by thapsigargin, an ER stress inducer. SH-EAE induced the formation of massive vacuoles which are probably derived from ER. Importantly, SH-EAE impaired the formation of intersegmental vessels (ISV) in zebrafish larvae, an index of angiogenesis, but had no apparent effect on the rate of larval development. Together, our findings demonstrate, for the first time, that the ability of SH-EAE specifically targets the two sensors of UPR, with significant anti-proliferation and anti-migration activities as a crude extract in human NSCLC cells. Our finding also indicates potential applications of SH-EAE in preventing UPR activation in response to Tg-induced ER stress. We suggest that SH-EAE attenuates UPR adaptive pathways for rendering the NSCLC cells intolerant to ER stress.
Highlights
Accumulation of misfolded or unfolded proteins in the endoplasmic reticulum (ER) lumen is a feature common to all malignant tumors during the multi-step progression from hyperplastic lesions
Since physiological levels of ER stress are critical for maintaining cell homeostasis, we examined the effects of Scindapsus cf. hederaceus (SH-EAE) on non-small cell lung cancer (NSCLC) cell colony formation and migration ability
We demonstrated that decreased expression of protein kinase R-like ER kinase (PERK) and inositol requiring enzyme-1α (IRE-1α) in SH-EAE-treated NSCLC cells is accompanied by the reduction of angiogenesis, which is evidenced by a decreased expression of vascular endothelial growth factor (VEGF) (Figure 6) and decreased development of intersegmental vessels (ISVs) in zebrafish larvae (Figure 9)
Summary
Accumulation of misfolded or unfolded proteins in the ER lumen is a feature common to all malignant tumors during the multi-step progression from hyperplastic lesions. The occurrence of endoplasmic reticulum (ER) stress has been detected in about 55.9% to 87.5% of human non-small cell lung cancer (NSCLC) tissue samples [1]. It takes place in mammalian cells as a result of nutrient deprivation, hypoxia, oxidative stress, aberrant glycosylation status, and loss of calcium homeostasis [2]. When UPR is hyperactivated and unable to restore the ER homeostasis, the UPR signaling can be switched from prosurvival to proapoptotic, leading to massive cell death [17,18] Such phenomena have prompted many researchers to identify ER stress-inducing drugs against a wide range of cancers. To reveal the therapeutic potential of this species, our research will focus on mechanistic studies of the anti-carcinogenic effects of the extract from Scindapsus cf. hederaceus
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