Identification of a more potent analogue of the naturally occurring alkaloid huperzine A. Predictive molecular modeling of its interaction with AChE

Huperzine A (HA), a potent reversible inhibitor of acetylcholinesterase (AChE), is an important psychotherapeutic agent for improving cognitive function in Alzheimer's patients through the enhancement of central cholinergic tone. This molecule takes on added value in that it has recently been shown to exhibit neuroprotective properties (glutamate toxicity blocking activity) in vitro. Based upon our cumulative SAR information and to some extent the predicted binding site of HA within Torpedo AChE, we chose to investigate the synthesis and biology of certain C-10 substituted analogues. The important finding was made that introduction of an axial methyl group into the C-10 position of huperzine A increased the potency for AChE inhibition 8-fold; the corresponding equatorial isomer was about 1.5-fold less active than huperzine A. The introduction of substituents larger than methyl resulted in a drop in activity. For example, the ethyl analogue was found to be about 100-fold less active than huperzine A, indic...