Natural product extracts are a rich source of small molecules that display antitumor activity. Cantharidin, in the form of the dried body of the Chinese blister beetles: Mylabris phalerata or M. cichorii, displays antitumor activity and induces apoptosis in many types of tumor cells. Cantharidin has been used as an anticancer agent by the Chinese for the treatment of hepatoma and oesophageal carcinoma for a long time. Although cantharidin is a natural toxin that possesses potent anti-tumor properties, its clinical application is limited due to severe side-effects and highly toxic nature. Therefore, some modified cantharidin analogues are synthesized chemically in order to achieve a comparable antitumour property to the mother compound but simultaneously produce a less toxic effect on non-cancer cells. In recent years, based on the structure of cantharidin, there has been intense interest in developing potent and selective inhibitors of PP1 and PP2A on tumour cells. Though numerous analogues of cantharidin have been synthesized and researched with tumour cell lines, there is little success on clinical application because of the potential toxicity of cantharidin derivates. The focus of this review is to describe how cantharidin and cantharidin derivates participate in antitumour processes in tumour cells, and discuss the molecular mechanisms of cantharidin and cantharidin derivates on tumour cells.
Curcumin, which is extracted from the plant Curcuma longa, has been used in the therapeutic arsenal for clinical oncology. Curcumin has chemopreventive and antitumoral activities against some aggressive and recurrent cancers. The expressions and activities of various proteins, such as inflammatory cytokines and enzymes, transcription factors, and gene-products linked with cell survivals and proliferation, can be modified by curcumin. Moreover, curcumin decreases the toxic effect of mitomycin C. Though curcumin has shown highly cytotoxic to some cancer cell lines, curcumin is insoluble and instable in water. The solubility of curcumin could be enhanced by utilizing the solubilizing properties of rubusoside. In addition, the selective delivery of synthetic analogs or nanotechnology-based formulations of curcumin to tumors may improve the chemopreventive and chemotherapeutic effects. The focus of this short review is to describe how curcumin participates in antitumor processes in breast cancer cells.
This study aims at evaluating the anticancer effects of berberine hydrochloride (berberine) and d-limonene, alone and in combination, on human gastric carcinoma cell line MGC803 to determine whether berberine and d-limonene work synergistically and elucidate their mechanisms. MGC803 cells were treated with berberine and d-limonene, alone and in combination, for 24-48 h. The inhibitory effects of these drugs on growth were determined by MTT assay. The combination index and drug reduction index were calculated with the Chou-Talalay method based on the median-effect principle. Flow cytometry and laser scanning confocal microscopy were employed to evaluate the effects of both drugs on cell-cycle perturbation and apoptosis, generation of reactive oxygen species (ROS), mitochondrial membrane potential, and expression of Bcl-2 and caspase-3 in MGC803 cells. Berberine or d-limonene alone can inhibit the growth of MGC803 cells in a doseand time-dependent manner. Berberine and d-limonene at a combination ratio of 1:4 exhibited a synergistic effect on anti-MGC803 cells. The two drugs distinctly induced intracellular ROS generation, reduced the mitochondrial transmembrane potential (DCm), enhanced the expression of caspase-3, and decreased the expression of Bcl-2. The combination of berberine and d-limonene showed more remarkable effects compared with drugs used singly in MGC803 cells. The combination of berberine and d-limonene exerted synergistic anticancer effects on MGC803 cells by cell-cycle arrest, ROS production, and apoptosis induction through the mitochondria-mediated intrinsic pathway.KEY WORDS: anticancer apoptosis berberine d-limonene synergistic effect
The cell-mediated immunity and cytotoxic agents play a significant role on tumor cell apoptosis. Tumor necrosis factor-α (TNF-α) is an intricate linker between inflammation and cancer through mediating the process of apoptosis and cell-mediated immunity. A variety of evidences have confirmed the critical role of TNF-α on tumor migration, proliferation, matrix degradation, tumor metastasis, invasion, and angiogenesis. Through binding to receptors, TNF-α participates in activating multiple cell signaling cascades that link inflammation, survival and evolution towards breast cancer. TNF-α is an important agent for tumor biotherapy, but its clinical application is limited for its severe fatal systemic toxicity. The poly-lactic acid microspheres (PLAM) with intratumoral cytokine release hold tremendous potential for the immunotherapy of breast cancer, and TNF-α antagonists may offer therapeutic potential in solid tumors. In addition, TNF-α is related with the blockage of estrogen and progesterone receptors. For breast cancer treatment, it is necessary to understand the molecular signaling pathways that mediate TNF-α and the aggressive behavior of negative breast cancer. The aim of present review is to summarize the effect of TNF-α on breast cancer cells.
In this study, the effects of La3+ on the reactive oxygen species (ROS) and antioxidant metabolism were studied in the roots of rice (Oryza sativa L. cv Shengdao 16) exposed to increasing concentrations of La3+ (0.05, 0.1, 0.5, 1.0, and 1.5 mM). The level of hydrogen peroxide, superoxide anion, and malondialdehyde was increased by 0.5, 1.0 and 1.5 mM La3+, and the activity of catalase and peroxidase was increased by 0.05 and 0.1 mM La3+. However, La3+ treatments stimulated superoxide dismutase activity in the roots of rice seedlings at all tested concentrations. In addition, the probe 2′,7′-dichlorofluorescein diacetate (H2DCF-DA) was used to investigate the instantaneous change of ROS in the root cells with the laser-scanning confocal microscopy. The result indicated that ROS level was declined after treated with 0.05 mM La3+. The results showed that the appropriate concentration of La3+ decreased the level of ROS, and hormetic effects on the antioxidant metabolism were found in the roots of rice exposed to 0.05, 0.1, 0.5, 1.0, and 1.5 mM La3+.
A small ROI DWI can provide morphological and functional information on the parotid gland in Sjögren's syndrome patients, and can aid in the diagnosis and evaluation of therapeutic efficacy.
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