Identification and characterization of specific binding sites of [3H]spermidine in synaptic membranes of rat brain

Drug design, in vitro pharmacology, and structure-activity relationships of 3-acylamino-2-aminopropionic acid derivatives, a novel class of partial agonists at the glycine site on the N-methyl-D-aspartate (NMDA) receptor complex

Retaining agonistic activity at the glycine coagonist site of the NMDA receptor in molecules derived from glycine or d-serine has proven to be difficult because in the vicinity of the alpha-amino acid group little substitution is tolerated. We have solved this problem by replacing the hydroxy group of d-serine with an amido group, thus keeping the hydrogen donor function and allowing for further substitution and exploration of the adjacent space. Heterocyclic substitutions resulted in a series of 3-acylamino-2-aminopropionic acid derivatives, with high affinities in a binding assay for the glycine site. In a functional assay assessing the activation of the glycine site, these compounds displayed a wide range of intrinsic efficacies, from antagonism to a high degree of partial agonism. Structure-activity relationships reveal that lipophilic substituents, presumably filling an additional hydrophobic pocket, are accepted by the glycine site, provided that they are separated from the alpha-amino acid group by a short linker.

Fos-B expression is required for polyamine-induced increase in nuclear activator protein-1 DNA binding in discrete structures of murine brain

Spermidine (SPD) and spermine (SPN) have been shown to be endogenous agonists for N-methyl-D-aspartate (NMDA) receptors that could lead to expression of the nuclear transcription factor activator protein-1 (AP1) complex in the mammalian central nervous system both in vitro and in vivo. In nuclear extracts of murine whole brain, AP1 DNA binding increased significantly in a concentration-dependent manner with the addition of either SPD or SPN at a concentration range of 50-500 microM. Similarly, the nuclear proteins histone and dephosphorylated casein, but not phosphorylated casein, significantly increased AP1 DNA binding alone but in the presence of either SPD or SPN did not increase further binding. By contrast, another endogenous polyamine, putrescine, significantly prevented AP1 DNA binding increases by histone and dephosphorylated casein, but did not by itself significantly alter binding. Invariably, SPD and SPN effected significantly increased AP1 DNA binding in neocortex, hippocampus, striatum, midbrain, hypothalamus and cerebellum, but not in medulla-pons and spinal cord. Supershift and Western blotting analyses revealed relatively high constitutive expression of Fos-B protein in neocortex and hippocampus, but not in medulla-pons and spinal cord. Immunoprecipitation of Fos-B led to complete abolition of the ability of SPN and SPD to increase AP1 DNA binding in neocortical and hippocampal nuclear extracts. These results suggest that expression of Fos-B protein may be required for modulation of nuclear gene transcription by both SPD and SPN through stimulation DNA-binding activity of AP1 complex in murine central structures.

[3H]Spermine binding to synaptosomal membranes from the chick retina

The binding of [3H]spermine to synaptosomal membranes from chick retina was examined. Saturable specific binding of [3H]spermine to synaptosomal membranes from plexiform layers of retina (P1 and P2) has been characterized, and found to concentrate in the inner plexiform layer compared to the outer plexiform layer (Bmax=9.3 and 37 pmol/mg protein for P1 and P2, respectively). Kinetics of specific [3H]spermine binding yield a sigmoidal saturation curve, indicating positive cooperativity (nH: 2.4 and 3.2 for P1 and P2, respectively) with high affinity: Kapp=61 and 67 nM for P1 and P2. The time required to attain equilibrium at room temperature was less than 5 min in both fractions. Dose-response curves for spermine, spermidine, and diethylene-triamine (DET) show different potencies for inhibiting [3HDET. Our results support a role for polyamines (PA) as neurotransmitters or neuromodulators in the vertebrate retina.

Preventive effects of exogenous phospholipases on inhibition by ferrous ions of [3H]MK-801 binding in rat brain synaptic membranes

Prior treatment with ferrous chloride led to marked inhibition of [3H](+)-5-methyl-10,11-dihydro-5H-dibenzo[a,d]cyclohepten-5,10-imi ne (MK-801) binding to an open ion channel associated with the N-methyl-D-aspartate (NMDA) receptor in a concentration-dependent manner at concentrations of higher than 1 microM in rat brain synaptic membranes. Both phospholipases A2 and C significantly prevented the inhibition when treated before the treatment with ferrous chloride, while neither superoxide dismutase nor alpha-tocopherol affected the inhibition even when treated simultaneously with ferrous chloride. Of various saturated and unsaturated free fatty acids, moreover, both oleic and arachidonic acids exclusively decreased the potency of ferrous chloride to inhibit binding when membranes were first treated with fatty acids, followed by the second treatment with ferrous chloride. These results suggest that membrane phospholipids may be at least in part responsible for interference by ferrous ions with opening processes of the native NMDA channel through molecular mechanisms associated with the liberation of unsaturated free fatty acids in rat brain.

Differential inhibition by ferrous ions of [3H]MK-801 binding to native N-methyl-D-aspartate channel in neonatal and adult rat brains

In vitro addition or pretreatment with >/=1 microM ferrous chloride markedly inhibited in a concentration-dependent manner [3H]dizocilpine (MK-801) binding to an open ion channel associated with the N-methyl-D-aspartate (NMDA) receptor in rat brain synaptic membranes. The addition of NMDA agonists invariably attenuated the inhibition of [3H]MK-801 binding in hippocampal synaptic membranes previously treated with ferrous chloride, without significantly affecting that in cerebellar synaptic membranes. In the absence of spermidine, ferrous chloride was more potent in inhibiting binding in the cerebral cortex and hippocampus in adult rats than in those in rats at 3 days after birth, while in the striatum [3H]MK-801 binding was 10 times more sensitive to inhibition by added ferrous chloride in neonatal rats than in adult rats. Addition of spermidine significantly attenuated the potency of ferrous chloride to inhibit binding in the cerebral cortex of adult rats, with facilitation of the inhibition in newborn rats. Moreover, spermidine significantly reduced the inhibitory potency of ferrous chloride in neonatal rat striatum, without markedly affecting that in adult rat striatum. These results suggest that ferrous ions may interfere with opening processes of the native NMDA channel through molecular mechanisms peculiar to neuronal development in a manner associated with the polyamine recognition domain.

Spermine inhibits [3H]glycine binding at the NMDA receptors from plexiform layers of chick retina

Saturable specific binding of glycine to synaptosomal membranes from plexiform layers of the retina has been described, which seems to correspond to the modulatory site on NMDA-receptors (26). Spermine inhibited specific [3H]glycine binding to membranes from synaptosomal fractions from the outer (P1) and the inner (P2) plexiform layers of 1-3 day-old chick retinas in a dose-dependent manner with an IC50 = 35 microM for the P1 fraction and 32 microM for the P2 fraction. Kinetic experiments and non-linear regression analysis of [3H]glycine-specific binding showed a Kd approximately 100-150 nM in both fractions, and a higher Bmax (4.11 +/- 0.47 pmol/mg protein) for the inner plexiform layer compared to the outer plexiform layer (Bmax = 2.76 +/- 0.25 pmol/mg protein). Strychnine-insensitive [3H]glycine binding was inhibited by 100 microM spermine, due to a reduction in Bmax (P1 = 0.84 +/- 0.16 pmol/mg protein; P2 = 0.81 +/- 0.16 pmol/mg protein) without affecting the Kd. Association and dissociation constants in the absence and presence of 50 microM spermine remained unchanged. Results demonstrate the presence of a single modulatory site for spermine on NMDA receptors, in both synaptic layers of the chick retina.

A polyamine binding site labelled with [3H]spermidine in developing human cerebellum

Polyamines regulate cell division in developing brain. Neuronal membranes and the NMDA receptor have polyamine binding or functional sites. We have visualized [3H]spermidine binding in human cerebellum sections. Autoradiographs showed high specific [3H]spermidine binding in granule cell layer and low binding in molecular layer in neonate, infant and adult cerebellum which qualitatively resembled NMDA binding. Cerebellum from neonates and infants below 6 months had a further zone of dense [3H]spermidine binding in the external granule layer of migratory cells. This second zone may show a polyamine regulatory site for cerebellar development from fetal life to early infancy.

Possible dysfunction of ionotropic glutamate receptors in cerebellum of epileptic E1 mouse brain

Binding of [3H](+)-5-methyl-10,11-dihydro-5H-dibenzo[a,d]cyclohepten- 5,10-imine (MK-801) to an ion channel domain on the N-methyl-D-aspartate (NMDA)-sensitive subclass of brain glutamate (Glu) receptors was highest in the hippocampus of the hereditary epileptogenic mutant El as well as its parent ddY strain mice, when determined before and at equilibrium in the presence of 3 different agonists at the respective domains on the NMDA receptor complex, including Glu, glycine (Gly) and spermidine (SPD). Cerebellar [3H]MK-801 binding before equilibrium was significantly lower in El mice than in ddY mice, while the binding was not significantly different from each other in other brain structures of both strains of mice. Kinetic analysis revealed that the association rate was significantly lower with [3H]MK-801 binding in the cerebellum of El mice than of ddY mice. In contrast to ddY mice, furthermore, Gly failed to potentiate cerebellar [3H]MK-801 binding before equilibrium in El mice, with SPD being active in significantly inhibiting the binding. However, saturation analysis revealed that the affinity and density of cerebellar [3H]MK-801 binding at equilibrium in El mice were not significantly different from those in ddY mice. In addition, epileptogenic El mice had significantly higher levels of [3H]SPD binding in all brain structures examined than ddY mice, whereas [3H]DL-alpha-amino-3-hydroxy-5- methylisoxazole-4-propionate binding was significantly lower in the cerebellum of El mice than of ddY mice. These results suggest that dysfunction of cerebellar Glu receptors may be at least in part responsible for a variety of abnormal symptoms observed in epileptic El mice.

Partial purification of [3H]glutamate-associating-proteins with sensitivity to displacement by N-methyl-D-aspartate from rat brain

An attempt was made to solubilize and isolate [3H]L-glutamic acid (Glu) binding sensitive to displacement by N-methyl-D-aspartic acid (NMDA) from rat brain. Brain synaptic membranes were solubilized by deoxycholic acid, followed by gel filtration with Sephadex G-25. In these turbid supernatants, significant but fragile binding was detected with a variety of radioligands related to ionotropic subclasses of receptors for excitatory amino acids. These included [3H]5-methyl-10,11-dihydro-5H-dibenzo-[a,d]cyclohepten-5,10-imine (MK-801), [3H]glycine, [3H]spermidine, [3H]Glu, [3H]DL-alpha-amino-3-hydroxy-5-methylisoxazole-4-propionic and [3H]kainic acids. Re-solubilization of turbid supernatants by Triton X-100 resulted in detection of [3H]Glu binding which was only stable for 24 h, with [3H]MK-801 binding being entirely lost. In these clear preparations after re-solubilization, Glu was exclusively effective in completely displacing [3H]Glu binding with other ligands being partially active. Furthermore, [3H]Glu binding displaceable by NMDA was eluted with 0.5 M KCl together with [3H]Glu binding insensitive to NMDA on DEAE-Toyopearl column chromatography, while fractions eluted with 0.2 M KCl had NMDA-insensitive [3H]Glu binding only. Chromatography on chelate (Zn)-Toyopearl resin resulted in elution of both NMDA-sensitive and NMDA-insensitive [3H]Glu binding with 10 mM EDTA. High performance liquid chromatography revealed that NMDA-sensitive [3H]Glu binding was detected at retention times of 10-20 min when eluted from an Asahipak ES-502N column with NaCl at linearly graded concentrations up to 0.5 M. In order to detect NMDA-sensitive [3H]Glu binding, however, the whole procedures needed to be completed within 24 h after re-solubilization. Accordingly, the identity of the NMDA-sensitive [3H]Glu binding partially purified here is still unclear at present. The NMDA recognition domain could be more stable than the NMDA channel domain on the NMDA receptor ionophore complex under aqueous conditions.

Supporting evidence for negative modulation by protons of an ion channel associated with the N-methyl-D-aspartate receptor complex in rat brain using ligand binding techniques

The addition of L-glutamic acid (Glu) alone, both Glu and glycine (Gly) or Glu/Gly/spermidine (SPD) was effective in potentiating [3H]5-methyl-10,11-dihydro-5H-dibenzo[a,d]cyclohepten-5,10- imine (MK-801) binding before equilibrium to an ion channel associated with the N-methyl-D-aspartate (NMDA) receptor complex in brain synaptic membranes extensively washed and treated with Triton X-100. The binding dependent on Glu almost linearly increased in proportion to decreasing proton concentrations at a pH range of 6.0 to 9.0 in external incubation medium, while a Gly-dependent portion of the binding increased with decreasing proton concentrations up to a pH of 7.5 with a plateau thereafter. In contrast, the SPD-dependent binding increased in proportion to decreasing proton concentrations up to a pH of 7.0 with a gradual decline thereafter. Similar profiles were also obtained with [3H]MK-801 binding at equilibrium, with an exception that significant binding of [3H]MK-801 was detected in the absence of any added agonists. The potency of SPD to potentiate [3H]MK-801 binding before equilibrium increased in proportion to decreasing proton concentrations, with those of both Glu and Gly being unchanged. In contrast, the ability of (+)MK-801 to displace [3H]MK-801 binding at equilibrium was not significantly affected by a decrement of external proton concentrations from pH 7.5 to pH 8.5 in the presence of Glu/Gly and Glu/Gly/SPD added. However, similar changes in external proton concentrations did not similarly affect binding of several radioligands for the NMDA and Gly domains on the receptor complex. Decreasing proton concentrations were effective in exponentially potentiating binding of [3H]SPD at a pH range of 6.0 to 9.0 without virtually altering [3H]D,L-alpha-amino-3- hydroxy-5-methyl-isoxazole-4-propionic acid binding. In addition, [3H]kainic acid binding markedly decreased with decreasing proton concentrations only in the presence of Ca2+ ions. These results suggest that protons negatively modulate neuronal responses mediated by the NMDA receptor ionophore complex through interference with opening mechanisms of the channel domain without disturbing association processes of the endogenous agonists with the respective recognition domains in rat brain. Moreover, possible modulation by protons of responses mediated by the kainate receptor in the presence of Ca2+ ions at concentrations that occur in vivo is also suggested.

Spermine interacts with cocaine binding sites on dopamine transporters

These studies were designed to assess the potential interaction of the polyamine spermine with cocaine binding to dopamine and serotonin transporters. The results of the experiments presented here indicate that spermine inhibits binding of the cocaine congener [3H] CFT to striatal synaptosomal membranes. Further, although [3H] CFT is known to interact with both dopamine and serotonin transporters, our results indicate that the observed inhibition of [3H] CFT binding is likely to reflect a specific inhibition of binding to dopamine transporters. Spermine significantly inhibited the binding of both [3H] CFT and [3H] mazindol to dopamine transporters, while it had no apparent effects on the binding of the potent serotonin uptake inhibitor [3H] paroxetine. Finally, saturation experiments show that the inhibition of ligand binding to the cocaine binding site on dopamine transporters appears not to be due to a modification of ligand affinity for the transporter, but to a decrease in the apparent density of ligand binding sites. The results of these experiments indicate that endogenously produced polyamines can alter cocaine binding to the dopamine transporter. The results are discussed in terms of possible impact on novel approaches for pharmacologically manipulating cocaine reinforcement and craving in clinical treatments for cocaine addiction, as well as for emergency treatment of cocaine overdose.

Differential profiles of binding of a radiolabeled agonist and antagonist at a glycine recognition domain on the N-methyl-D-aspartate receptor ionophore complex in rat brain

Addition of several polyamines, including spermidine and spermine, was effective in inhibiting binding of the antagonist ligand [3H]5,7-dichlorokynurenic acid ([3H]-DCKA) a Gly recognition domain on the N-methyl-D-aspartic acid (NMDA) receptor ionophore complex in rat brain synaptic membranes. In contrast, [3H]DCKA binding was significantly potentiated by addition of proposed polyamine antagonists, such as ifenprodil and (+/-)-alpha-(4-chlorophenyl)-4-[(4-fluorophenyl) methyl]-1-piperidine ethanol, with [3H]Gly binding being unchanged. The inhibition by spermidine was significantly prevented by inclusion of ifenprodil. In addition, spermidine significantly attenuated the abilities of four different antagonists at the Gly domain to displace [3H]DCKA binding virtually without affecting those of four different agonists. Phospholipases A2 and C and p-chloromercuribenzosulfonic acid were invariably effective in significantly inhibiting [3H]DCKA binding with [3H]Gly binding being unaltered. Moreover, the densities of [3H]DCKA binding were not significantly different from those of [3H]-Gly binding in the hippocampus and cerebral cortex, whereas the cerebellum had more than a fourfold higher density of [3H]Gly binding than of [3H]DCKA binding. These results suggest that the Gly domain may have at least two different forms based on the preference to agonists and antagonists in the rodent brain.

Further evidence for multiple forms of an N-methyl-D-aspartate recognition domain in rat brain using membrane binding techniques

Pretreatment with sulfhydryl-reactive agents, such as N-ethylmaleimide and p-chloromercuriphenylsulfonic acid, invariably resulted in marked inhibition of the binding of DL-(E)-2-amino-4-[3H]propyl-5-phosphono-3-pentenoic acid ([3H]CGP 39653), a competitive antagonist at an N-methyl-D-aspartate (NMDA)-sensitive subclass of central excitatory amino acid receptors, in brain synaptic membranes extensively washed and treated with Triton X-100, but did not significantly affect the binding of L-[3H]-glutamic acid ([3H]Glu), an endogenous agonist. The pretreatment was effective in reducing the binding of [3H]-CGP 39653 at equilibrium, without altering the initial association rate, and decreased the affinity for the ligand. Pretreatment with sulfhydryl-reactive agents also enhanced the potencies of NMDA agonists to displace [3H]-CGP 39653 binding and attenuated those of NMDA antagonists, but had little effect on the potencies of the agonists and antagonists to displace [3H]Glu binding. The binding of both [3H]CGP 39653 and [3H]Glu was similarly sensitive to pretreatment with four different proteases in Triton-treated membranes, whereas pretreatment with phospholipase A2 or C markedly inhibited [3H]CGP 39653 binding without altering [3H]Glu binding. Moreover, both phospholipases not only induced enhancement of the abilities of NMDA agonists to displace the binding of [3H]CGP 39653 and [3H]Glu, but also caused diminution of those of NMDA antagonists. These results suggest that both sulfhydryl-reactive agents and phospholipases may predominantly interfere with radiolabeling of the NMDA recognition domain in a state favorable to an antagonist by [3H]CGP 39653, with concomitant facilitation of that in an antagonist-preferring form by [3H]Glu. The possible presence of multiple forms of the NMDA recognition domain is further supported by these data.

Spermidine and cardiovascular control in nucleus tractus solitarii in rat

Cardiovascular effects elicited by unilateral microinjection of polyamines into the nucleus tractus solitarii (NTS) were tested in anesthetized rats. Spermidine (50-900 pmol) produced dose-dependent depressor and bradycardiac responses that were similar to those elicited by N-methyl-D-aspartate (NMDA; 0.1-1.2 pmol). The polyamines, putrescine and spermine, did not produce significant cardiovascular responses. The cardiovascular responses induced by spermidine and NMDA were almost eliminated by prior injection of the noncompetitive NMDA antagonist MK801 into NTS. On the other hand, a competitive antagonist 2-amino-5-phosphonovaleric acid (APV) blocked responses to NMDA but only attenuated those to spermidine. These findings support an action of the polyamine spermidine at the NMDA receptor complex in NTS where it could participate in modulating cardiovascular activity.

Support for radiolabeling of a glycine recognition domain on the N-methyl-D-aspartate receptor ionophore complex by 5,7-[3H]dichlorokynurenate in rat brain

Pretreatment with Triton X-100 more than doubled the binding of radiolabeled 5,7-dichlorokynurenic acid (DCKA), a proposed antagonist at a glycine (Gly) recognition domain on the N-methyl-D-aspartate (NMDA) receptor ionophore complex, in rat brain synaptic membranes. The binding exhibited an inverse temperature dependency, reversibility, and saturability, the binding sites consisting of a single component with a high affinity (27.5 nM) and a relatively low density (2.87 pmol/mg of protein). The binding of both [3H]DCKA and [3H]Gly was similarly displaced by numerous putative agonists and antagonists at the Gly domain in a concentration-dependent manner at a concentration range of 100 nM to 0.1 mM. Among the 24 putative ligands tested, DCKA was the second most potent displacer of the binding of both radioligands with no intrinsic affinity for the binding of [3H]kainic acid and alpha-amino-3-hydroxy-5- [3H]methylisoxazole-4-propionic acid (AMPA) to the non-NMDA receptors. In contrast, the other proposed potent Gly antagonist, 5,7-dinitroquinoxaline-2,3-dione, was active in displacing the binding of [3H]glutamic ([3H]Glu) and D,L-(E)-2-amino-4-[3H]propyl-5-phosphono-3-pentenoic acids to the NMDA recognition domain with a relatively high affinity for the non-NMDA receptors. In addition, the proposed antagonist at the AMPA-sensitive receptor, 2,3-dihydroxy-6-nitro-7-sulfamoyl-benzo(F)quinoxaline, not only displaced weakly the binding of both [3H]-Gly and [3H]DCKA, but also inhibited the binding of (+)-5-[3H]methyl-10,11- dihydro-5H-dibenzo[a,d]cyclohepten-5,10-imine ([3H]MK-801) to an ion channel associated with the NMDA-sensitive receptor in the presence of added Glu alone in a manner sensitive to antagonism by further added Gly. Clear correlations were seen between potencies of the displacers to displace [3H]DCKA binding and [3H]Gly binding, in addition to between the potencies to displace [3H]-DCKA or [3H]Gly binding and to potentiate or inhibit [3H]MK-801 binding. All quinoxalines tested were invariably more potent displacers of [3H]DCKA binding than [3H]Gly binding, whereas kynurenines were similarly effective in displacing the binding of both [3H]Gly and [3H]DCKA. These results undoubtedly give support to the proposal that [3H]DCKA is one useful radioligand available in terms of its high selectivity and affinity for the Gly domain in the brain. Possible multiplicity of the Gly domain is suggested by the differential pharmacological profiles between the binding of [3H]Gly and [3H]DCKA.

Binding of [3H]MK-801, NMDA-displaceable [3H]glutamate, [3H]glycine, [3H]spermidine, [3H]kainate and [3H]AMPA to regionally discrete brain membranes of the gerbil: a biochemical study

Bindings of glutamate receptor agonists and related modulators were investigated in 10 discrete tissues from gerbil brain using a biochemical technique. There appeared considerable discrepancies, in respect of intrahippocampal profiles, from reported data by autoradiography on rat brain. In the gerbil, an almost equivalent level of N-methyl-D-aspartate (NMDA)-displaceable [3H]glutamate binding was found in field CA1 and the dentate gyrus, while approx 30% less in field CA3, a profile which was strikingly similar to that of (+)-5-methyl-10,11-dihydro-5H-dibenzo-[a,d]-cycloheptene-5,10-imin e maleate (MK-801) or of [3H]glycine. [3H]Kainate binding was highest in the dentate gyrus followed by field CA3 and then field CA1, the ratio of the highest to the lowest being 3 to 2. Binding of [3H]DL-alpha-amino-3-hydroxy-5-methylisoxazole-4-propionate (AMPA) differed, to a certain extent, from that of [3H]kainate and showed the dentate gyrus followed by field CA1 and then field CA3 in the rank order of decreasing binding. Taking together, intrahippocampal localization of glutamate receptor subtypes in the gerbil, when analyzed with a biochemical binding assay, looks to be less region selective than the distribution obtained on autoradiography in the rat. Thus, it is likely that these different distribution profiles show different status of receptor function respectively, or are due merely to species difference.

Inhibition by calmodulin antagonists of [3H]MK-801 binding in brain synaptic membranes

In brain synaptic membranes not extensively washed, (+)-5-[3H]methyl-10,11-dihydro-5H-dibenzo[a,d]-cyclohepten-5, 10-imine ([3H]MK-801) binding was markedly inhibited in a concentration-dependent manner (at concentrations above 1 microM) by several compounds having antagonistic activity at the Ca(2+)-binding protein calmodulin. Scatchard analysis revealed that N-(6-aminohexyl)-5-chloro-1-naphthalenesulfonamide (W-7) inhibited the binding through a significant decrease in the density of binding sites without affecting the affinity at 10 microM. In membranes extensively washed and treated with a low concentration of Triton X-100, L-glutamic acid (Glu) drastically accelerated the initial association rate of [3H]MK-801 binding with glycine (Gly), almost doubling the initial association rate found in the presence of Glu alone. The addition of W-7 invariably reduced the initial association rate observed in the presence of either Glu alone or both Glu and Gly, without significantly altering the dissociation rate of bound [3H]-MK-801, irrespective of the presence of the two stimulatory amino acids. The maximal potencies of Glu, Gly, and spermidine in potentiating the binding were all attenuated by W-7. These results suggest that calmodulin antagonists may interfere with opening processes of an ion channel associated with an N-methyl-D-aspartate-sensitive subclass of excitatory amino acid receptors in rat brain.