Cancer: General anti-cancer, colon, breast, glioma,
Action: Scutellaria Anti-cancer, cell-cycle arrest
Malignant Glioma, Breast Carcinoma and Prostate Cancer
The extracts and individual flavonoids inhibited the proliferation of malignant glioma and breast carcinoma cells without affecting primary or non-malignant cells. The flavonoids exhibited different mechanisms of anti-tumor activity as well as positive interactions. The anti-tumor mechanisms involved induction of apoptosis and cell-cycle arrest at G1/G2. Of the extracts tested, leaf extracts of S. angulosa, S. integrifolia, S. ocmulgee and S. scandens were found to have strong anti-cancer activity (Parajuli et al., 2009).
Anti-Cancer
Scutellaria is a traditional herbal remedy with potential anti-cancer activity. The anti-cancer mechanisms of thirteen Scutellaria species were examined, and their leaf, stem and root extracts analyzed for levels of common biologically active flavonoids: apigenin, baicalein, baicalin, chrysin, scutellarein, and wogonin. Malignant glioma, breast carcinoma and prostate cancer cells were used to determine tumor-specific effects of Scutellaria on cell proliferation, apoptosis and cell-cycle progression, via the MTT assay and flow cytometry-based apoptosis and Cell cycle analysis. The extracts and individual flavonoids inhibited the proliferation of malignant glioma and breast carcinoma cells without affecting primary or non-malignant cells. The flavonoids exhibited different mechanisms of anti-tumor activity as well as positive interactions.
The anti-tumor mechanisms involved induction of apoptosis and cell-cycle arrest at G1/G2. Of the extracts tested, leaf extracts of S. angulosa, S. integrifolia, S. ocmulgee and S. scandens were found to have strong anti-cancer activity. This study provides basis for further mechanistic and translational studies into adjuvant therapy of malignant tumors using Scutellaria leaf tissues (Parajuli et al., 2009).
Colon
Scutellaria barbata (SB) is a medicinal plant that contains flavonone compounds such as scutellarein, scutellarin, carthamidin, isocarthamidin, and wogonin. A functional proteomic approach was used to study the inhibitory effects of a chemically standardized extract from SB in human colon adrencarcinoma, LoVo. Results suggest that the chemically standardized extract from SB can induce cell death in the human colon cancer cell line. Goh, Lee, & Ong (2005) showed that the proposed platform provided a rapid approach to study the molecular mechanism because of the inhibitory effects of different doses of the botanical extracts on LoVo cell lines. This included a network of proteins involved in metabolism, regulation of the cell-cycle, and transcription-factor activity.
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