Acetylcholinesterase interaction with Alzheimer amyloid beta.

Acetylcholinesterase (AChE) is an enzyme involved in cholinergic and non-cholinergic functions in both the central and peripheral nervous system, most of the AChE is found as a tetrameric form bound to neuronal membranes. Early cytochemical studies have demonstrated that the AChE associated with senile plaques differs enzymatically from the AChE associated with neurons in several respects. Biochemical studies indicated that AChE induces amyloid fibril formation and form highly toxic AChE-Abeta complexes. A 3.5 kDa peptide containing a tryptophan of the enzyme peripheral binding site (PAS) mimics the effect of the whole enzyme on amyloid formation. The neurotoxicity induced by AChE-Abeta complexes indicated that they trigger more neurodegeneration than those of the Abeta peptide alone, both in vitro (hippocampal neurons) and in vivo (rats injected in the dorsal hippocampus as a model of Alzheimer). The fact that AChE is able to accelerate amyloid formation and that such effect is sensitive to drugs that block PAS of the enzyme, suggests that specific and new AChE inhibitors may well provide an attractive possibility for treating Alzheimer's disease.

An overview of the current and novel drugs for Alzheimer's disease with particular reference to anti-cholinesterase compounds.

Several cellular processes could be targeted if the complex nature of Alzheimer's disease (AD) was already understood. Most of AD treatments have been focused on the inhibition of acetylcholinesterase (AChE) in order to raise the levels of its substrate, i.e. the neurotransmitter acetylcholine (ACh), to augment cognitive functions of affected patients. Effectiveness in AChE inhibition and side-effect issues of clinical (tacrine, donepezil, galanthamine and rivastigmine) as well as of novel inhibitors is reviewed here. Novel design methods for the inhibition of AChE include the use of in silico tools to predict the interactions between AChE and the desired compound, both at the active site of the enzyme, responsible of hydrolysing ACh and with the peripheral anionic site (PAS), which has been described as a promoting agent of the amyloid beta-peptide (A beta) aggregation present in the senile plaques of the brain of AD individuals.