Scorpion Venom Causes Upregulation of p53 and Downregulation of Bcl-xL and BID Protein Expression by Modulating Signaling Proteins Erk1/2 and STAT3, and DNA Damage in Breast and Colorectal Cancer Cell Lines.

Scorpion venoms efficiently block the normal neurotransmitter signaling pathway by prejudicing the ion channel operating mechanism in the body system. Besides its negative effect, venoms also possess some beneficial qualities for humans. They have also been shown to exhibit anticancer properties in various cancer types. This unique property of the venom as an anticancer agent is mainly a result of its role in initiating apoptosis and inhibiting several signaling cascade mechanisms that promote cancer cell proliferation and growth. In this study, we examine the effect of venom on phenotypic changes as well as changes at the molecular levels in colorectal and breast cancer cell lines. A dramatic decrease in cell invasion was observed in both cancer cell lines on venom treatment. Additionally, there was decrease in IL-6, RhoC, Erk1/2, and STAT3 in venom-treated cell lines, providing strong evidence of its anticancer properties. Furthermore, decrease in the expression of antiapoptotic proteins and also upregulation of proapoptotic ones by these lines were observed on venom treatment. Moreover, a vivid picture of DNA damage was also detected on venom treatment. In conclusion, scorpion venom possesses significant potential as an anticancer agent against colorectal and breast cancer cell lines.

Moringa oleifera as an Anti-Cancer Agent against Breast and Colorectal Cancer Cell Lines.

In this study we investigated the anti-cancer effect of Moringa oleifera leaves, bark and seed extracts. When tested against MDA-MB-231 and HCT-8 cancer cell lines, the extracts of leaves and bark showed remarkable anti-cancer properties while surprisingly, seed extracts exhibited hardly any such properties. Cell survival was significantly low in both cells lines when treated with leaves and bark extracts. Furthermore, a striking reduction (about 70-90%) in colony formation as well as cell motility was observed upon treatment with leaves and bark. Additionally, apoptosis assay performed on these treated breast and colorectal cancer lines showed a remarkable increase in the number of apoptotic cells; with a 7 fold increase in MD-MB-231 to an increase of several fold in colorectal cancer cell lines. However, no significant apoptotic cells were detected upon seeds extract treatment. Moreover, the cell cycle distribution showed a G2/M enrichment (about 2-3 fold) indicating that these extracts effectively arrest the cell progression at the G2/M phase. The GC-MS analyses of these extracts revealed numerous known anti-cancer compounds, namely eugenol, isopropyl isothiocynate, D-allose, and hexadeconoic acid ethyl ester, all of which possess long chain hydrocarbons, sugar moiety and an aromatic ring. This suggests that the anti-cancer properties of Moringa oleifera could be attributed to the bioactive compounds present in the extracts from this plant. This is a novel study because no report has yet been cited on the effectiveness of Moringa extracts obtained in the locally grown environment as an anti-cancer agent against breast and colorectal cancers. Our study is the first of its kind to evaluate the anti-malignant properties of Moringa not only in leaves but also in bark. These findings suggest that both the leaf and bark extracts of Moringa collected from the Saudi Arabian region possess anti-cancer activity that can be used to develop new drugs for treatment of breast and colorectal cancers.

Atorvastatin inhibits RhoC function and limits head and neck cancer metastasis.

OBJECTIVE: RhoC oncogene is a well characterized marker of metastasis in a majority of invasive cancers, including HNSCC. Elevated RhoC expression has been found to be associated with distant metastasis. Statins are a class of drugs that are used to reduce cholesterol levels by inhibiting HMG-CoA reductase activity which in turns prevents mevalonate synthesis, which is a precursor for synthesis of cholesterol and prenylation. Interestingly, the proper function of Rho proteins depends on prenylation. Significantly, it has been reported that metastasis in human melanoma can be reduced by atorvastatin which inhibits RhoC activity by preventing its geranylgeranylation. Given that RhoC is a key oncogene involved in metastasis, we hypothesized Atorvastatin can reduce head and neck metastasis by inhibiting RhoC activity. METHODS: In vitro and in vivo studies were carried out to evaluate the ability of Atorvastatin to inhibit RhoC function and HNSCC metastasis. Cell motility, proliferation, cell invasion, and colony formation assays were performed according to the standard protocols. RESULTS: Atorvastatin treatment significantly reduced the active form of RhoC in vitro and diminished cell motility, invasion, proliferation and colony formation. Importantly, we observed a significant decrease in p-ERK1/2 and p-STAT3 in Atorvastatin treated cell lines. In vivo experiments revealed inhibition of angiogenesis and lung metastases with Atorvastatin therapy. CONCLUSIONS: This study is the first of its kind to establish a potential role of Atorvastatin in head and neck cancer therapy. These findings suggest that Atorvastatin can be a potential low risk adjuvant therapy to minimize metastases in aggressive forms of HNSCC.