posted on 2016-01-07, 00:00authored byArcadius V. Krivoshein
Although the antiepileptic properties
of α-substituted lactams,
acetamides, and cyclic imides have been known for over 60 years, the
mechanism by which they act remains unclear. I report here that these
compounds bind to the nicotinic acetylcholine receptor (nAChR) and
inhibit its function. Using transient kinetic measurements with functionally
active, nondesensitized receptors, I have discovered that (i) α-substituted
lactams and cyclic imides are noncompetitive inhibitors of heteromeric
subtypes (such as α4β2 and α3β4) of neuronal
nAChRs and (ii) the binding affinity of these compounds toward the
nAChR correlates with their potency in preventing maximal electroshock
(MES)-induced convulsions in mice. Based on the hypothesis that α-substituted
amide group is the essential pharmacophore of these drugs, I found
and tested a simple compound, 2-phenylbutyramide. This compound indeed
inhibits nAChR and shows good anticonvulsant activity in mice. Molecular
docking simulations suggest that α-substituted lactams, acetamides,
and cyclic imides bind to the same sites on the extracellular domain
of the receptor. These new findings indicate that inhibition of brain
nAChRs may play an important role in the action of these antiepileptic
drugs, a role that has not been previously recognized.