Transforming growth factor-beta (TGF-β) plays a central role in the development of fibrosis by stimulating extracellular matrix accumulation, and signals either directly or indirectly through types I, II, and III (TβRI, II, and III) TGF-β receptor complexes. Ginsan, a polysaccharide extracted from Panax ginseng, has multiple immunomodulatory effects. Here, we examine whether ginsan regulates the fibrogenic process by interfering with TGF-β signaling pathways. TGF-β treatment of murine or human normal lung fibroblasts enhanced the levels of several fibrotic markers, including smooth muscle alpha actin (α-SMA), collagen-1, and fibronectin. Interestingly, ginsan treatment either before or after TGF-β administration led to significant reductions in all of α-SMA, collagen-1, and fibronectin expression levels. Ginsan not only inhibited phosphorylation of Smad2 and Smad3, but also attenuated pERK and pAKT signaling induced by TGF-β. Moreover, ginsan restored TβRIII protein expression, which was significantly downregulated by TGF-β, but reduced TβRI and TβRII protein levels. In a murine model of bleomycin (BLM)-induced pulmonary fibrosis, ginsan significantly suppressed accumulation of collagen, α-SMA, and TGF-β. These data collectively suggest that ginsan acts as an effective anti-fibrotic agent in the treatment of pulmonary fibrosis by blocking multiple TGF-β signaling pathways.
Although many studies have examined the roles of hypoxia and transforming growth factor- (TGF-) β separately in the tumor microenvironment, the effects of simultaneous treatment with hypoxia/reoxygenation and TGF-β on tumor malignancy are unclear. Here, we investigated the effects of redox signaling and oncogenes on cell proliferation and radioresistance in A549 human lung cancer cells in the presence of TGF-β under hypoxia/reoxygenation conditions. Combined treatment with TGF-β and hypoxia activated epidermal growth factor receptor (EGFR) and nuclear factor (erythroid-derived 2)-like 2 (Nrf2), a redox-sensitive transcription factor. Interestingly, Nrf2 knockdown suppressed the effects of combined treatment on EGFR phosphorylation. In addition, blockade of EGFR signaling also suppressed induction of Nrf2 following combined treatment with hypoxia and TGF-β, indicating that the combined treatment induced positive crosstalk between Nrf2 and EGFR. TGF-β and hypoxia/reoxygenation increased the accumulation of reactive oxygen species (ROS), while treatment with N-acetyl-l-cysteine abolished the activation of Nrf2 and EGFR. Treatment with TGF-β under hypoxic conditions increased the proliferation of A549 cells compared with that after vehicle treatment. Moreover, cells treated with the combined treatment exhibited resistance to ionizing radiation (IR), and knockdown of Nrf2 increased IR-induced cell death under these conditions. Thus, taken together, our findings suggested that TGF-β and hypoxia/reoxygenation promoted tumor progression and radioresistance of A549 cells through ROS-mediated activation of Nrf2 and EGFR.
Nuclear factor-erythroid 2-related factor 2 (Nrf2) regulates the expression of over 200 genes of antioxidant and phase II drug-metabolizing enzymes, and is highly expressed in non-small cell lung cancer (NSCLC). Nine derivatives of 4-(2-cyclohexylethoxy)aniline were designed. Our previous study demonstrated that IM3829 increases radiosensitivity of several lung cancer cells in vitro and in vivo. Here, biological effects of IM3829 derivatives (2a-2i) were evaluated. Compound 2g derivative effectively inhibits mRNA and protein expression of Nrf2 and HO-1. In addition, we observed over two fold enhancement in IR-induced cell death, from 2.90 ± 0.22 to 6.02 ± 0.87, in H1299 cancer cell-line. Among the nine derivatives, compound 2g derivative exhibited the highest enhancement of radiosensitizing effect via inhibition of Nrf2 activity.
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