Abstract
BackgroundActivation of Ras oncogene in human tumors is associated with radiation-associated metastatic potential. Although ionizing radiation is one important method of cancer treatments, it has been shown to enhance matrix metalloproteinases (MMPs) activity and facilitates a more aggressive cancer phenotype. Our previous studies showed that andrographolide with lower dose rates of radiation could inhibit RAS-transformed cancer metastasis in vivo; however, the molecular mechanisms are not yet clear. In this study, we aimed to explore the anti-metastatic effect of andrographolide combined with radiation on Ras-transformed cells.MethodsRAS-transformed cells were treated with andrographolide in the presence or absence of irradiation (2–4 Gy) or angiotensin II to examine cell invasion. In vivo tumorigenesis assays were also performed. The MMP-2 activity was detected by using Gelatin zymography. Signal transduction of NF-κB subunit, p65 and phosphor-ERK 1/2, were examined by using Western blotting analysis.ResultsTreatment with andrographolide inhibited migration of Ras-transformed cells. Andrographolide treatment with radiation significantly inhibited cancer metastasis in vivo. We found that andrographolide exhibited anti-migration and anti-invasive ability against cancer metastasis via inhibition of MMP2 activity rather than affected MMP-9 and EMT. In addition, combined andrographolide with radiation appeared to be more effective in reducing MMP-2 expression, and this effect was accompanied by suppression of ERK activation that inhibits cancer cell migration and invasion.ConclusionsThese findings suggest that andrographolide enhances the anti-metastatic effect of radiation in Ras-transformed cells via suppression of ERK–mediated MMP-2 activity.
Highlights
Radiotherapy (RT) is a curative treatment option for some malignant tumors
We found that andrographolide exhibited anti-migration and anti-invasive ability against cancer metastasis via inhibition of MMP2 activity rather than affected matrix metalloproteinases (MMPs)-9 and Epithelial-mesenchymal transition (EMT)
These findings suggest that andrographolide enhances the anti-metastatic effect of radiation in Ras-transformed cells via suppression of ERK–mediated MMP-2 activity
Summary
Radiotherapy (RT) is a curative treatment option for some malignant tumors. local relapse and distant metastasis are two major causes of RT failure. Tumor metastasis is driven by accumulation of intrinsic and extrinsic alterations in malignant cells that increase motility and invasiveness of the cells, which can allow them to be resistant to cytotoxic therapies. Matrix metalloproteinases (MMPs) have been considered to increase the metastatic potential of various cancers because they degrade basement membrane, and alter cell-cell and cellextracellular matrix (ECM) interactions, migration, and angiogenesis [1,2]. Activation of Ras oncogene in human tumors is associated with radiation-associated metastatic potential. Ionizing radiation is one important method of cancer treatments, it has been shown to enhance matrix metalloproteinases (MMPs) activity and facilitates a more aggressive cancer phenotype. Our previous studies showed that andrographolide with lower dose rates of radiation could inhibit RAS-transformed cancer metastasis in vivo; the molecular mechanisms are not yet clear. We aimed to explore the anti-metastatic effect of andrographolide combined with radiation on Ras-transformed cells
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