Abstract
Tumor hypoxia is a major mechanism of resistance to radiation therapy (RT), which is associated with poor prognosis in affected cancer patients. Various approaches to treat hypoxic and radioresistant cancers, including pancreatic cancer, have shown limited success. Fucoidan, a polysaccharide from brown seaweed, has antitumor and antiangiogenesis activities. Here, we discuss the development of fucoidan-coated manganese dioxide nanoparticles (Fuco-MnO2-NPs) and testing of the therapeutic potential with RT using pancreatic cancer models. In vitro data showed that Fuco-MnO2-NPs generated oxygen efficiently in the presence of H2O2 and substantially suppressed HIF-1 expression under a hypoxic condition in human pancreatic cancer cells. Fuco-MnO2-NPs reversed hypoxia-induced radioresistance by decreasing clonogenic survival and increasing DNA damage and apoptotic cell death in response to RT. In a BxPC3 xenograft mouse model, the combination treatment with Fuco-MnO2-NPs and RT resulted in a greater tumor growth delay than RT alone. Fucoidan-coated NPs, but not naked ones, further suppressed tumor angiogenesis, as judged by immunohistochemistry data with diminished expression of phosphorylated vascular endothelial growth factor receptor 2 (VEGFR2) and CD31. These data suggest that Fuco-MnO2-NPs may potentiate the effects of RT via dual targeting of tumor hypoxia and angiogenesis, and they are of great clinical potential in the treatment of hypoxic, radioresistant pancreatic cancer.
Highlights
Pancreatic cancer is the fourth most common cause of cancer-related deaths and was estimated to be responsible for 43,090 deaths in the United States in 2017 [1,2]
As vascular endothelial growth factor (VEGF)/VEGF receptor (VEGFR) signalling is a key factor of tumor angiogenesis and radiation resistance, we investigated the effects of Fuco-MnO2 -NPs on VEGF-induced phosphorylation of
Our findings suggest the potential of this new nanoplatform that can dual-target hypoxia and angiogenesis in treating hypoxic tumors, including pancreatic cancer, to improve radiation therapy (RT) efficacy
Summary
Pancreatic cancer is the fourth most common cause of cancer-related deaths and was estimated to be responsible for 43,090 deaths in the United States in 2017 [1,2]. The most common type, pancreatic adenocarcinoma, typically has a very poor prognosis. 25% of people survive for one year and 5% live for five years. The five-year survival rate rises to about 20% [3]. Surgical removal of the tumor is the only cure for this cancer. Whether or not surgical resection can be offered depends on the cancer spread and the proximity of the major blood vessels to the pancreas. Surgical resection is only possible in approximately 20% of new cases
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