Pei-Wen Hsiao

Pei-Wen Hsiao

Research Fellow

Harnessing nature and nanotech to reprogram immunity · Multi-factor Synergy · Expelling Pathogens · Restoring Systemic Balance
Harnessing nature and nanotech to reprogram immunity · Multi-factor Synergy · Expelling Pathogens · Restoring Systemic Balance

Research Highlights

Compounds from Wedelia chinensis synergistically suppress androgen activity and growth in prostate cancer cells

Compounds from Wedelia chinensis synergistically suppress androgen activity and growth in prostate cancer cells
Chronic inflammation can augment tumor development in various types of cancers, including prostate cancer (PCa). Reduction of inflammation is therefore an important anti-cancer therapeutic opportunity. Here, we report four anti-proliferative phytocompounds in Wedelia chinensis, an oriental herbal medicine, identified through their ability to modulate the androgen receptor (AR) activation of transcription from prostate-specific antigen (PSA) promoter in PCa cells. The IC50 values of indole-3-carboxylaldehyde (ICA), wedelolactone (Wed), luteolin (Lut), and apigenin (Api), were 34.9, 0.2, 2.4, and 9.8 ?M respectively. A formula that combined the phytocompounds in the same proportions as in the herbal extract decreased the dosage of each compound required to achieve maximal AR inhibition. In correlation with the AR suppression effect, these active compounds specifically inhibited the growth of AR-dependent PCa cells and as a combination formula they also synergistically suppressed growth in AR-dependent PCa cells. Our study has identified synergistic effects of active compounds in Wedelia chinensis and demonstrated their potential in PCa prevention and therapy. The paradigm of multiple activities and synergism is a useful framework to investigate the therapeutic effects of whole extracts from assorted medicinal plant species.

Lin, F.M., Chen, L.R., Lin, E.H., Ke, F.C., Chen, H.Y., Tsai, M.J.and Hsiao P.W (2007) Compounds from Wedelia chinensis synergistically suppress androgen activity and growth in prostate cancer cells Carcinogenesis,