Anticancer effect of superoxide dismutase on canine mammary gland tumour in vitro.

BACKGROUND: Reactive oxygen species (ROS) have been shown to promote tumour growth and metastasis in human cell lines. The superoxide anion (•O2 - ) is produced during ROS formation and is involved in tumour cell signalling. OBJECTIVES: Superoxide dismutase (SOD) has been applied to canine mammary gland tumours to investigate its antitumour effects in vitro. METHODS: Cell proliferation, cell cycle cell migration assays, reverse transcription-quantitative polymerase chain reaction, and western blot analysis were performed to determine the effects of SOD on canine mammary tumour cell line. RESULTS: SOD treatment resulted in anti-proliferative effects and mediated cell cycle arrest in the canine mammary gland tumour cell lines (CIPp and CIPm). It also downregulated the expression of N-cadherin and Vimentin. CONCLUSIONS: The results confirmed that SOD inhibits tumour cell proliferation and migration, thus supporting the potential applications of SOD as a chemotherapeutic agent for canine mammary gland tumours.

Hypoxia Increases the Proliferative and Metastatic Ability of Canine Mammary Tumor Cells via Up-regulation of TSG-6.

BACKGROUND/AIM: HIF1α-induced hypoxia is a major characteristic of solid tumors that plays an important role in cancer growth, metastasis, and chronic inflammation. Tumor necrosis factor (TNF) stimulated gene (TSG)-6 is a strong regulator of anti-inflammatory pathways, but its role in cancer cells remains unclear. We hypothesized that hypoxia up-regulates TSG-6, thereby increasing the metastatic and growth potential of cancer cells. MATERIALS AND METHODS: Primary and metastatic canine mammary gland tumor (MGT) cell lines (CIPp and CIPm), were transfected with TSG-6 specific siRNA and treated with cobalt chloride (CoCl2) for 48 h to chemically induce a hypoxia environment. The expression of hypoxia-inducible factor-1-alpha (HIF1α) was evaluated by RT-qPCR and western blot analysis. The metastatic ability of cancer cells and cell cycle distribution were assessed with extracellular matrix invasion assays and flow cytometry. RESULTS: HIF1α up-regulation, induced by CoCl2, was significantly inhibited in the TSG-6-knockdown group in both canine MGT cell lines. The change in the expression levels of HIF1α corresponded to the change of invading cells in the TSG-6-knockdown group. TSG-6-knockdown in the hypoxia group showed decreased proliferation, associated with G2/M phase arrest. CONCLUSION: HIF1α expression in hypoxic condition is regulated by TSG-6 expression in canine MGT. TSG-6-knockdown causes down-regulation of HIF1α, thereby reducing the metastatic and proliferative abilities of cancer cells. TSG-6 in canine MGT has a potential as a therapeutic target in anti-cancer therapy.