Cordycepin, or 3'-deoxyadenosine, is a derivative of the nucleoside adenosine, differing from the latter by the replacement of the hydroxy group in the 3' position with a hydrogen. It was initially extracted from the fungus Cordyceps militaris, but can now be produced synthetically. It is also found in other Cordyceps species as well as Ophiocordyceps sinensis.

Biological activity

Cordyceps fungi produce cordycepin as a means of infecting insect populations, due to its biological activity. Because cordycepin is similar to adenosine, some enzymes cannot discriminate between the two. It can therefore participate in certain biochemical reactions (for example, 3-dA can trigger the premature termination of mRNA synthesis). By acting as an adenosine analog, cordycepin is the most potent molecular circadian clock resetter out of several screened compounds. Cordycepin has displayed cytotoxicity against some leukemic cell lines in vitro. Additionally, cordycepin displays an effect in cancers, such as lung, renal, colon, and breast cancer. Cordycepin reduces viable A549 lung cancer cell populations by 50%. Cordycepin produces rapid, robust imipramine-like antidepressant effects in animal models of depression, and these effects, similarly to those of imipramine, are dependent on enhancement of AMPA receptor signaling. Cordycepin has anti-inflammatory qualities, as well as the ability to defend against injury from cerebral ischemia in mice.