Pancreatic cancer is highly resistant to the currently available chemotherapeutic agents. Less than 5% of patients diagnosed with this disease could survive beyond 5 years. Thus, there is an urgent need for the development of novel, efficacious drugs that can treat pancreatic cancer. Herein we report the identification of artesunate (ART), a derivative of artemisinin, as a potent and selective antitumor agent against human pancreatic cancer cells in vitro and in vivo. ART exhibits selective cytotoxic activity against Panc-1, BxPC-3 and CFPAC-1 pancreatic cancer cells with IC50 values that are 2.3- to 24-fold less than that of the normal human hepatic cells (HL-7702). The pan caspase inhibitor zVAD-fmk did not inhibit the cytotoxic activity of ART. Electron microscopy of ART-treated cells revealed severe cytoplasmic swelling and vacuolization, swollen and internally disorganized mitochondria, dilation (but not fragmentation) of the nuclei without chromatin condensation, and cell lysis, yielding a morphotype that is typical of oncosis. The ART-treated cells exhibited a loss of mitochondrial membrane potential (ΔΨm) and ART-induced cell death was inhibited in the presence of the reactive oxygen species (ROS) scavenger N-acetyl-cysteine (NAC). Importantly, ART produced a dose-dependent tumor regression in an in vivo pancreatic cancer xenografts model. The in vivo antitumor activity of ART was similar to that of gemcitabine. Taken together, our study suggests that ART exhibits antitumor activity against human pancreatic cancer via a novel form of oncosis-like cell death, and that ART should be considered a potential therapeutic candidate for treating pancreatic cancer.
MicroRNA-873 (miR-873) has been reported to be dysregulated in a variety of malignancies, however, the biological function and underlying molecular mechanism of miR-873 in colorectal cancer (CRC) remain unclear. In the present study we found that the expression levels of miR-873 were markedly decreased in CRC cell lines and tissues from patients. Statistical analysis revealed that miR-873 expression was inversely correlated with the disease stage of CRC. Kaplan-Meier survival analysis revealed that patients with CRC with lower miR-873 expression had shorter overall survival rates. Additionally, downregulation of miR-873 enhanced the proliferation of CRC cells, while upregulation of miR-873 reduced this proliferation. Furthermore, we found that tumor necrosis factor (TNF) receptor-associated factor 5 (TRAF5) and TGF-β activated kinase 1 (MAP3K7) binding protein 1 (TAB1) were direct targets of miR-873 in CRC cells. A luciferase assay revealed that ectopic expression of miR-873 significantly reduced nuclear factor κB (NF-κB) luciferase activity, while ectopic expression of miR-873 inhibitor enhanced luciferase activity, suggesting that downregulation of miR-873 can activate NF-κB signaling. Therefore, our findings established a tumor-suppressive role for miR-873 in the inhibition of CRC progression, which may be employed as a novel prognostic marker and as an effective therapeutic target for CRC.
ΔNp63 is known to be critical in skin development and cancer; however, how it triggers proliferation and inflammation in vivo remains to be elucidated. Here, we find that induced ΔNp63 expression in skin of transgenic mice (TG) results in a hyperproliferative epidermis coupled with inflammatory infiltrates. In situ, infiltrating cells include CD45(+) leukocytes, CD19(+) B lymphocytes, CD3(+) T lymphocytes, CD4(+) T helper, CD25(+)/Foxp3(+) Treg, Ly6B(+) neutrophils, S-100(+) dendritic cells, and macrophages bearing CD11b(+), F4/80(+), CD68(+), and CD206(+) M2 type markers. Transcriptional profiling of TG skin revealed increased gene expression involved in inflammation and immune responses, including Th2/M2 cytokines and chemokines. These genes were co-regulated by ΔNp63 and NF-κB RelA or cRel, and enhanced by TNF-α. Elevated cRel, RelA, and IKKs were observed in TG mouse skin and human squamous carcinomas with ΔNp63 overexpression. Thus, our findings unveil a missing link connecting overexpressed ΔNp63 with aberrant NF-κB activation, pro-inflammatory and type 2 cytokines and chemokines, and host infiltrates during skin inflammation and hyperplasia. Our findings provide a missing link between ΔNp63 overexpression and NF-κB-mediated inflammation, of potential relevance to the pathogenesis of squamous carcinoma.
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