This project is especially attractive in that not only does it provide us with additional new pharmacopeia from natural sources (before those sources are lost through deforestation and other habitat destruction), but it also serves to provide additional arguments for conserving the diversity of the tropics as well as identifying potential alternative (and ecologically less damaging) "cash crops" for critical tropical habitats. Thus, this project also addresses the problem of the degenerating environment in tropical America; the crisis of the decline of biodiversity in these areas. Specifically, this project involves:
Another attractive feature of this project is the interdisciplinary nature of the research. There are three principal collaborators who bring many different areas of complementary expertise into the project. In addition, the project provides hands-on experience for undergraduate students. The Departments of Chemistry and Biological Sciences and the University of Alabama in Huntsville are all acutely aware of the potential shortage of future scientists and we are therefore committee to undergraduate research participation as part of quality scientific education and training.
Setzer, W.N., M.N. Flair, K.G. Byler, J. Huang, M.A. Thompson, A.F. Setzer, D.M. Moriarity, R.O. Lawton, and D.B. Windham-Carswell. 1992. Antimicrobial and cytotoxic activity of crude extracts of Araliaceae from Monteverde, Costa Rica. Brenesia 38: 123-130.
Tropical plant materials from the ginseng family (Araliaceae) have been collected from the Monteverde Cloud Forest Reserve, Costa Rica, and the Monteverde community. These plants were extracted (chloroform extraction and ethanol extraction) and the crude extracts tested for fungidical, bacteriocidal, and cytotoxic activity. None of the crude extracts showed antibacterial activity. Chloroform extracts from various Oreopanax spp. did show antifungal activity, however. Crude ethanol extracts were screened for potential antitumor activity in vitro against a human hepatocellular carcinoma cell line (Hep G2). Six members of Araliaceae show remarkable in-vitro cytotoxic activity against human Hep G2 hepatocellular carcinoma cells but limited cytotoxic activity against normal adult rat hepatocytes.
Setzer, W.N., T.J. Green, R.O. Lawton, D.M. Moriarity, R.B. Bates, S. Caldera, and W.A. Haber. 1995. An antibacterial vitamin E derivative from Tovomitopsis psychotriifolia. Planta Medica 61: 275-276.
The crude ethanol extract from the leaves of Tovomitopsis psychotriifolia (Clusiaceae) exhibits antibacterial activity against Bacillus cereus, Staphylococcus aureus, and Pseudomonas aeruginosa. The biological active agent in the extract has been isolated by chromatographic techniques and identified by NMR spectroscopy as trans-d-tocotrienoloic acid.
