Thunder god vine may not be a useful herbal medicine but the compounds isolated from it are fascinating – if not as medicines, then most certainly as laboratory tools. Nature Chemical Biology recently published an article where a research team from Johns Hopkins, the University of Colorado at Boulder, and Drew University in New Jersey, has determined the molecular mechanism of action of triptolide, an unusual triepoxide compound from the plant.
Tripterygium wilfordii Hook F, or thunder god vine, is known as lei gong teng in Chinese traditional medicine and has a history of use as an anti-inflammatory herb. As with many traditional medicines, usage patterns do not necessarily indicate scientific validity. In fact, a Cochrane review published just last month on herbal therapies for rheumatoid arthritis indicated that the efficacy of thunder god vine was mixed. More concerning is that the herb had significant adverse effects in some trials, from hair loss to one case of aplastic anemia.
Nevertheless, the herb’s components have been studied since the 1970s for since they also appears to kill tumor cells in culture with nanomolar potency and have immunosuppresant activity in animal models. The group of the late natural products chemist at the University of Virginia, S. Morris Kupchan, first identified the unusual structures of triptolide and tripdiolide from Tripterygium wilfordii as described in this 1972 paper from the Journal of the American Chemical Society. Cytotoxic activity toward tumor cells in culture was used to guide the chemical fractionation of extracts. The unusual presence of three consecutive epoxides in the structures of both compounds led Kupchan to hypothesize later in Science that they target leukemia cells by covalent binding to cellular targets involved in cellular growth. Read more »
*This blog post was originally published at Science-Based Medicine*