Invertebrate GABA and glutamate receptors: molecular biology reveals predictable structures but some unusual pharmacologies.

Determination of the sequences of invertebrate gamma-aminobutyric acid (GABA)-gated and glutamate-gated receptor/ion channels, through the application of recombinant DNA methods, is not just an academic exercise to effect evolutionary comparisons with the sequences of the corresponding vertebrate receptors. The isolation of DNA clones would provide the tools to investigate the exact locations and functional properties of these neurotransmitter receptors within simple nervous systems. In addition, since GABA receptors, at least, have been suggested to be the targets of certain pesticides, the availability of invertebrate receptor cDNAs might provide the agrochemical industry with the basis for 'high-throughput' screening methods for novel pesticidal compounds. Recently, the isolation of molluscan and Drosophila GABA receptor and glutamate receptor cDNAs, and the pharmacological properties of a GABA receptor expressed from one of these clones, have been reported. These studies should stimulate further research into the electrophysiology and pharmacology of native invertebrate ion channel proteins.