The gamma-aminobutyric acid (GABA(A)) receptor belongs to a superfamily of membrane-bound proteins that regulate signal transmission between cells in the nervous system. It is the target of convulsants such as picrotoxin and is mutated in some forms of epilepsy, a disease affecting approximately 50 million people worldwide. In picrotoxin inhibition and in one form of epilepsy, a decrease in the channel-opening equilibrium of a GABA(A) receptor is responsible for receptor dysfunction. Here we identify compounds that can regulate the channel-opening equilibrium of the GABA(A) receptor. Fluorinated RNA polymers containing a 40-nucleotide region with a randomized sequence were used to select those that can displace picrotoxin from the membrane-bound GABA(A) receptor in the rat forebrain. After 11 selection rounds, two classes of RNA molecules that bind to the GABA(A) receptor with nanomolar affinity were isolated and sequenced. Class I and class II molecules have different consensus sequences and different binding affinities for the receptor. A transient kinetic technique, the cell-flow method, was employed in combination with the whole-cell current-recording technique to determine the affinity of the selected RNA aptamers for the GABA(A) receptor. Class I molecules have a higher affinity for the closed-channel form than for the open-channel receptor form and inhibit the receptor; class II aptamers bind with equal or higher affinity to the open-channel form and alleviate picrotoxin inhibition.
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