Inhibition onchidals

Onchidal and fasciculins are natural toxins, which produce their toxicity in mammalian systems by virtue of primarily acetylcholinesterase (AChE) inhibition. AChE hydrolyzes and inactivates acetylcholine, thereby regidating the concentration of the transmitter at the synapse. Termination of activation is normally dependent on dissociation of acetylcholine from the receptor and its subsequent diffusion and hydrolysis, except in diseases where acetylcholine levels are limiting or under AChE inhibition, conditions that increase the duration of receptor activation (Silver, 1963). 

The structural similarity between onchidal (an acetate ester) and acetylcholine suggested that the toxicity of onchidal could result from inhibition of either nicotinic acetylcholine receptors or AChE. Although onchidal (1.0 mM) did not prevent the binding of 1-a-bungarotoxin to nicotine acetylcholine receptors, it inhibited AChE in a progressive, apparently irreversible, manner. The apparent affinity of onchidal for the initial reversible binding to AChE (Kd) was approximately 300 p.M, and the apparent rate constant for the subsequent irreversible inhibition of enzyme activity (Xij ct) was approximately 0.1 min ... 

Onchidal is an irreversible inhibitor of enzyme AChE with a novel mechanism of action. It has been suggested, however, that its toxicity could be a consequence of the inhibition of either nicotinic acetylcholine receptor or AChE enzyme. 

Incubation of AChE with onchidal resulted in the production of acetate, demonstrating that onchidal was a substrate for AChE, and approximately 3250 mol of onchidal was hydrolyzed/mol of enzyme irreversibly inhibited. Organophosphate and carbamate inhibitors of AChE have partition ratios (mol of toxin hydrolyzed/mol of enzyme irreversibly inhibited) that approach unity. Therefore, the relatively high partition ratio for onchidal suggests that the mechanism of inhibition utilized by onchidal may be distinctly different from other irreversible inhibitors (Walsh, 1984). The rate of hydrolysis of onchidal (Acat) was 325 min this value is relatively slow suggesting that onchidal is not a very good substrate. The ability of AChE to hydrolyze onchidal raised the question of whether inhibition of enzyme activity resulted from onchidal itself or from a product of the enzymatic hydrolysis of onchidal. Enzyme kinetics revealed that onchidal was unable to completely inhibit higher concentrations of AChE. From the experiments performed by Abramson et al. (1989), onchidal was in molar excess and was completely hydrolyzed. Thus,... 

Onchidal and fasciculins are interesting natural compounds and it is difficult to predict their toxicity. In the case of onchidal, in silico computational predictive modeling for toxic endpoints of interest may prove useful for risk assessment decision support. Likewise, it is a challenge to predict the mditary potential and human impact of these natural toxins since their affinity for enzyme inhibition depends upon the amount and duration of the human exposure. 

---