Characterization of Glutamate Receptor by Spider Toxin

Targeting ionotropic receptors with polyamine-containing toxins☆

This review summarises current knowledge of polyamine-containing spider toxins and their interactions with ionotropic receptors of invertebrate and vertebrate excitable cells. Their diverse actions on ionotropic glutamate and acetylcholine receptors, which include potentiation, closed channel block and open channel block, are discussed in the context of toxin and target structures. Factors that complicate attempts to identify and pharmacologically characterise the binding sites for these toxins include their ability to permeate channels of some ionotropic receptors and their apparent accumulation in a cellular compartment, possibly the membrane bilayer.

Purification of AMPA type glutamate receptor by a spider toxin

A glutamate receptor was purified from Triton X-100-solubilized bovine cerebellum membranes. The purification was carried out in two steps: affinity chromatography using a spider toxin (Joro spider toxin; JSTX) immobilized on a lysine-agarose column, and a Mono Q anion exchange column. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) of the purified active fraction showed a single band with Coomassie Blue staining, which migrated with a M(r) = 130,000. The specific [3H]amino-3-hydroxy-5-methyl-isoxazole propionate ([3H]AMPA) binding activity of the affinity-purified fraction was 2095-fold higher than that of the crude soluble fraction. Lineweaver-Burk plot analysis showed a Kd of 12.7 nM [3H]AMPA in the purified fraction. The purified fraction was examined with patch-clamp recording methods in reconstituted liposomes. A glutamate-activated channel was observed and was inhibited with JSTX. The rank order of potency of agonists inducing channel currents was AMPA = glutamate greater than quisqualate much greater than kainate greater than NMDA. Thus, there is strong evidence that the 130 kDa protein is a purified component of the native AMPA type glutamate channel of bovine cerebellum.

Spider toxins affecting glutamate receptors: polyamines in therapeutic neurochemistry

Polyamine amide toxins obtained from venous of spiders and wasps interact selectively with ionotropic glutamate receptors (GLU-R) of vertebrate central nervous systems. The sites and modes of action of these polyamine amide toxins are reviewed with particular reference to their structure-activity relationships. Qualitatively, their effects on GLU-R are identical to those exerted by polyamines such as spermine, but the polyamine amides are more potent. These compounds (a) potentiate and (b) antagonize GLU-R, the latter arising through open channel block. For the N-methyl-D-aspartate receptor this non-competitive antagonism probably arises through binding of toxin to the Mg2+ site(s) located in the channel gated by this receptor. Similarities and differences between GLU-R in vertebrates and in invertebrates with respect to their interactions with polyamines and polyamine amide toxins are discussed. In both groups the low specificity of these compounds is illustrated by their antagonism at nicotinic acetylcholine receptors in addition to GLU-R. Electrophysiological studies, including those employing Xenopus oocytes, are reviewed and future prospects for the use of polyamine amides in therapy are discussed.