Onchidal: a naturally occurring irreversible inhibitor of acetylcholinesterase with a novel mechanism of action
Onchidal has been identified as the major lipid-soluble component of the defensive secretion of the mollusc Onchidella binneyi, and it has been proposed as the compound responsible for the chemical protection of Onchidella [Bioorg. Chem. 7:125-131 (1978)]. In support of this hypothesis, we now repor...
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Veröffentlicht in: | Molecular pharmacology 1989-09, Vol.36 (3), p.349-354 |
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Zusammenfassung: | Onchidal has been identified as the major lipid-soluble component of the defensive secretion of the mollusc Onchidella binneyi,
and it has been proposed as the compound responsible for the chemical protection of Onchidella [Bioorg. Chem. 7:125-131 (1978)].
In support of this hypothesis, we now report that onchidal can be found in several different species of Onchidella and that
it is toxic to fish. Because onchidal is an acetate ester similar to acetylcholine, its ability to interact with nicotinic
acetylcholine receptors and acetylcholinesterase was investigated. Although onchidal did not prevent the binding of 125I-alpha-bungarotoxin
to nicotinic acetylcholine receptors, it inhibited acetylcholinesterase in a progressive, apparently irreversible, manner.
The apparent affinity of onchidal for the initial reversible binding to acetylcholinesterase (Kd) was approximately 300 microM,
and the apparent rate constant for the subsequent irreversible inhibition of enzyme activity (kintact) was approximately 0.1
min-1. Onchidal was a substrate for acetylcholinesterase, and approximately 3250 mol of onchidal were hydrolyzed/mol of enzyme
irreversibly inhibited. The calculated kcat for onchidal was 325 min-1. Irreversible inhibition resulted from either onchidal
itself or a reactive intermediate in the enzyme-catalyzed hydrolysis of onchidal, rather than from the hydrolysis products
of onchidal. Irreversible inhibition of enzyme activity was prevented by coincubation with reversible agents that either sterically
block (edrophonium and decamethonium) or allosterically modify (propidium) the acetylcholine binding site. Enzyme activity
was not regenerated by incubation with oxime reactivators; therefore, the mechanism of irreversible inhibition does not appear
to involve acylation of the active site serine. Because onchidal contains a potentially reactive alpha,beta-unsaturated aldehyde,
irreversible inhibition of acetylcholinesterase may result from formation of a novel covalent bond between the toxin and the
enzyme. Thus, this novel toxin could potentially be exploited in the design of a new class of anticholinesterase insecticides
and in the identification of amino acids that contribute to the binding and hydrolysis of acetylcholine. |
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ISSN: | 0026-895X 1521-0111 |