Inhibition of [3H]GABA binding to rat brain synaptic membranes by bicuculline related alkaloids

Hypervalent Iodine(III)-Mediated Oxidative Cyclization of Exo-Cyclic Ene-Carbamate to Tetrahydroisoquinoline-Oxazol-2(3H)-one Derivatives

The new development of a transition-metal-free method for the synthesis of THIQ-oxazol-2(3H)-one motif from exo-cyclic ene-carbamates by using hypervalent iodine as an oxidant is reported. Various functional groups substituted on the aryl rings of the ene-carbamate substrates as well as the N- and S-heterocyclic substrates afforded the corresponding THIQ-oxazol-2(3H)-one products in up to 91 % yield. Moreover, the synthetic utility was highlighted for the synthesis of phthalide-THIQ natural product, (±)-corlumine.

In Silico Identification of Potential Natural Product Inhibitors of Human Proteases Key to SARS-CoV-2 Infection

Presently, there are no approved drugs or vaccines to treat COVID-19, which has spread to over 200 countries and at the time of writing was responsible for over 650,000 deaths worldwide. Recent studies have shown that two human proteases, TMPRSS2 and cathepsin L, play a key role in host cell entry of SARS-CoV-2. Importantly, inhibitors of these proteases were shown to block SARS-CoV-2 infection. Here, we perform virtual screening of 14,011 phytochemicals produced by Indian medicinal plants to identify natural product inhibitors of TMPRSS2 and cathepsin L. AutoDock Vina was used to perform molecular docking of phytochemicals against TMPRSS2 and cathepsin L. Potential phytochemical inhibitors were filtered by comparing their docked binding energies with those of known inhibitors of TMPRSS2 and cathepsin L. Further, the ligand binding site residues and non-covalent interactions between protein and ligand were used as an additional filter to identify phytochemical inhibitors that either bind to or form interactions with residues important for the specificity of the target proteases. This led to the identification of 96 inhibitors of TMPRSS2 and 9 inhibitors of cathepsin L among phytochemicals of Indian medicinal plants. Further, we have performed molecular dynamics (MD) simulations to analyze the stability of the protein-ligand complexes for the three top inhibitors of TMPRSS2 namely, qingdainone, edgeworoside C and adlumidine, and of cathepsin L namely, ararobinol, (+)-oxoturkiyenine and 3α,17α-cinchophylline. Interestingly, several herbal sources of identified phytochemical inhibitors have antiviral or anti-inflammatory use in traditional medicine. Further in vitro and in vivo testing is needed before clinical trials of the promising phytochemical inhibitors identified here.

Cyclothiazide binding to the GABAA receptor

In order to explore the molecular interaction between cyclothiazide (CTZ) and gamma-aminobutyric acidA (GABAA) receptors, possibly underlying inhibition of GABAA receptor currents, [3H]-CTZ was synthesized. Binding of [3H]-CTZ to rat brain synaptic membranes could be observed only in the presence of the GABAA receptor antagonist (-)[1S,9R]-bicuculline methiodide (BMI) (EC(50,BMI)=500+/-80microM). GABA decreased [(3)H]-CTZ binding induced by the presence 300microM and 3mM BMI with IC(50,GABA) values of 300+/-50microM and 5.0+/-0.7mM, respectively. Binding of CTZ to [3H]-CTZ labeled sites was characterized by IC(50,CTZ) values of 0.16+/-0.03muM ([BMI]=300microM) and 7.0+/-0.5microM ([BMI]=3mM). Binding of the diastereomeric fraction [3H]-(3R,1'S,4'S,5'R+3S,1'R,4'R,5'S)-CTZ induced by 3mM BMI was quantitatively the more significant in cerebrocortical and hippocampal membranes. It was characterized by IC(50,CTZ)=80+/-15nM and IC(50,GABA)=13+/-3mcapital EM, Cyrillic. In the absence of BMI, CTZ (1mM) significantly decreased GABA-induced enhancement of [3H]-flunitrazepam binding. Our findings suggest that functional inhibition may occur through binding of CTZ to an allosteric site of GABAA receptors. This allosteric site is possibly emerged in the receptor conformation, stabilized by BMI binding.

Novel Secoergoline Derivatives Inhibit Both GABA and Glutamate Uptake in Rat Brain Homogenates: Synthesis, in Vitro Pharmacology, and Modeling

Three of twelve secoergoline derivatives (Z ethyl 4-[(ethoxycarbonylmethyl)methylamino]-2-methyl-3-phenylpent-2-enoate, 8; ethyl 1,6-dimethyl-3-oxo-5-phenyl-1,2,3,6-tetrahydropyridine-2-carboxylate, 9; Z methyl 4-[(methoxycarbonylmethyl)methylamino)-2-methyl-3-phenylpent-2-enoate, 11), containing bioisosteric sequences of GABA and Glu, inhibited both GABA and Glu transport through cerebrocortical membranes specifically. Compounds 8, 9, and 11 appeared to be equipotent inhibitors of GABA and Glu transport with IC50 values between 270 and 1100 microM, whereas derivatives 1-7, 10, and 12 were without effects. In the presence of GABA and Glu transport-specific nontransportable inhibitors, inhibition of GABA and Glu transport by 8, 9, and 11 proceeded in two phases. The two phases of inhibition were characterized by IC50 values between 4 and 180 nM and 360-1020 microM and different selectivity sequences. These findings may indicate the existence of some mechanism possibly mediated by a previously unrecognized GABA-Glu transporter. Derivatives with the cis, but not the trans configuration of bulky ester groups (8 vs 7 and 11 vs 12) showed significant inhibitory effect (IC50 values of 270 microM vs >>1000 microM and 1100 microM vs >>1000 microM on GABA transport, respectively). The cis-trans selectivity can be explained by docking these secoergolines in a three-dimensional model of the second and third transmembrane helices of GABA transporter type 1.

GABAergic system and imipramine-induced impairment of memory retention in rats

In this study, the influence of GABAergic agents, imipramine and their interactions on memory retention have been investigated. Intracerebroventricular (i.c.v.; 1-6 microg/rat) or intraperitoneal (i.p.; 5-40 mg/kg) injection of imipramine decreased memory retention. i.c.v. administration of GABA receptor agonists baclofen and muscimol also reduced memory retention. The combination of i.p. or i.c.v. injection of imipramine with a low dose of muscimol (1 microg/rat, i.c.v.) induced a higher decrease in memory retention. The higher dose of GABA(B) receptor antagonist CGP35348 [p-(3-aminopropyl)-p-diethoxymethyl-phosphinic acid] (10 microg/rat) increased memory retention by itself, and decreased the response induced by baclofen or imipramine. Bicuculline (1, 2 and 4 microg/rat, i.c.v.) tends to increase memory retention by itself. Furthermore, bicuculline in same doses reduced the response induced by muscimol or imipramine, but it did not show interaction with the latter drugs. It is concluded that the GABA(B) receptor mechanism is involved in memory impairment induced by imipramine.

Use of bicuculline, a GABA antagonist, as a template for the development of a new class of ligands showing positive allosteric modulation of the GABA(A) receptor

Analogues of bicuculline devoid of the benzo ring fused to the lactone moiety were prepared by reacting 2-(tert-butyl-dimethylsiloxy)furans with 3,4-dihydroisoquinolinium salts. Some of these compounds (e.g., ROD185, 8) acted as modulators of the GABAA receptor, displacing ligands of the benzodiazepine binding site. They also strongly stimulated GABA currents mediated by recombinant GABA(A) receptors expressed in Xenopus oocytes.

Inhibition of gamma-aminobutyric acid uptake by bicuculline analogues

Enantiomers of norbicuculline, (+)[1S,9R] and (-)[1R,9S]erythro-1-[1'-(4',5'-methylenedioxyphthalidyl)]-6,7-meth ylenedioxy-1,2,3,4-tetrahydroisoquinoline and of the N-methyl derivatives {(+)[1S,9R] and (-)[1R,9S]bicuculline} were found to inhibit the progress of the gamma-aminobutyric acid transporter-mediated uptake of 40 microM [14C]gamma-aminobutyric acid into native plasma membrane vesicles from the rat cerebral cortex at 30 degrees C. The values for the dissociation constants of the reversible inhibition, relative to (+)[1S,9R]bicuculline, in order of increasing inhibition, were: (-)[1R,9S]bicuculline, 3.3; (+)[1S,9R]-bicuculline, 1.0; (-)[1R,9S]norbicuculline, 0.4 approximately (+)[1S,9R]norbicuculline; guvacine, 0.02. The norbicucullines have higher potencies than (+)[1S,9R]bicuculline for the gamma-aminobutyric acid transporter, in contrast to the relative potencies of these inhibitors for the inhibition of function and gamma-aminobutyric acid binding of the gamma-aminobutyric acid type A receptor.

The GABAA receptor channel mediated chloride ion translocation through the plasma membrane: new insights from 36Cl- ion flux measurements

GABAA receptors in plasma membranes of neurons are integral oligomers which form chloride channels. The binding of GABA molecules at recognition sites for channel opening triggers a transient increase in transmembrane chloride ion flux. The multiplicity and drug specificity of GABAA receptor, kinetics of channel opening, and desensitization of GABAA receptor and its short- and long-term regulation have been investigated by the use of tracer amounts of the radioactive chloride isotope, 36Cl- ion. Results and new insights from 36Cl- ion flux measurements have been reviewed.

Bicuculline actions on isolated rat atria, mouse vas-deferens and guinea-pig ileum are unrelated to GABA A receptor blockade

1. Some new pharmacological activities of bicuculline were found in isolated rat atria, mouse vas deferens and guinea-pig ileum. 2. In isolated rat atria bicuculline (10-300 microM) induced potent positive inotropic and negative chronotropic effects which were not antagonized by propranolol (1 microM), 6-hydroxydopamine pretreatment (50 mg/kg i.v. twice), ranitidine (3 microM) or atropine (1 microM). Bicuculline (10-300 microM) potentiated electrically evoked contractions in mouse vas deferens and inhibited them (30-500 microM) in guinea-pig ileum. It was inactive on unstimulated mouse vas deferens. 3. The above effects were completely reproduced by the bicuculline related-substance, beta-hydrastine, but not by the bicuculline N-methyl derivative, bicuculline methiodide (BMI), on the isolated rat atria. BMI inhibited instead of potentiating the mouse vas deferens twitches and potentiated instead of inhibiting the guinea-pig ileum twitches. 4. Picrotoxin, the other classic non-competitive GABA A antagonist, was completely devoid of the effects reported for bicuculline. 5. We concluded that, on the three preparations studied, bicuculline possesses some effects which are unrelated to its GABA A receptor blocking activity.

Involvement of the amygdala GABAergic system in the modulation of memory storage

These experiments examined the involvement of the intrinsic GABAergic system of the amygdaloid complex in the modulation of memory storage. Rats were chronically implanted with bilateral cannulae in the amygdala, trained in an inhibitory avoidance task, and given post-training bilateral intra-amygdala injections of either the GABA receptor antagonist bicuculline methiodide (BMI) (0.1-1.0 nmol) or the GABAA receptor agonist muscimol (0.001-0.1 nmol). As indicated by performance on a 48 h retention test, BMI enhanced retention of the inhibitory avoidance conditioning, while muscimol impaired retention. The memory-enhancement obtained with BMI (0.1 nmol) was produced by a dose lower than that necessary to induce convulsions. Post-training injections of BMI did not affect retention when injected into the caudate-putamen dorsal to the amygdala. These results suggest that the amygdaloid GABAergic system is involved in the modulation of memory storage.

Injection of L-allylglycine into the posterior hypothalamus in rats causes decreases in local GABA which correlate with increases in heart rate

Injection of the GABA antagonist, bicuculline methiodide into the posterior hypothalamus of rats has been shown to cause marked increases in heart rate and lesser elevations in blood pressure. Allylglycine is a potent inhibitor of the synthetic enzyme for GABA, glutamic acid decarboxylase, only after in vivo biotransformation into its active form, 2-keto-4-pentenoic acid, through a stereospecific amino acid oxidase. The posterior hypothalamus is thought to contain substantial activity only of L-amino acid oxidase. In this study, the stereoisomers of allylglycine were injected into the posterior hypothalamus at a site also shown to be reactive to bicuculline. Injection of L-allylglycine but not D-allylglycine caused substantial increases in heart rate but only slight increases in blood pressure. Injection of the GABA agonist muscimol prior to treatment with L-allylglycine prevented these cardiovascular changes. In another series of experiments, levels of GABA in the posterior hypothalamus and adjacent areas were measured 90 min after unilateral injection of L-allylglycine (12.5 or 25 micrograms), D-allylglycine (25 micrograms) or saline into the posterior hypothalamus. Only L-allylglycine caused increases in heart rate and blood pressure and decreases in levels of GABA. Quantitatively, the increases in heart rate at sacrifice were strongly correlated with the decreases in levels of GABA in the injected posterior hypothalamus (r = -0.94; P less than 0.002) but not in other regions.(ABSTRACT TRUNCATED AT 250 WORDS)

Structural factors governing agonist and antagonist activity in the GABAA system

By comparing the structures of GABA and semi-rigid GABAA analogues, a distinction between structural requirements for agonist and antagonist activity at the GABAA receptor has been suggested, based on differences in arrangements of charge centres. However, additional structural distinction(s) appear to be necessary since the GABA molecule itself can attain the arrangements suggested for both agonist and antagonist activity, and GABA is not an antagonist. We now propose that a specifically located benzene ring and steric effects in the N+ region are also involved in distinguishing between GABAA-active compounds.

Characterization of high-affinity binding sites for the antitussive [3H]noscapine in guinea pig brain tissue

We have characterized the binding of the antitussive alkaloid [3H]L-alpha-noscapine ([3H]noscapine) to guinea pig brain. Binding of [3H]noscapine to brain homogenate is stereospecific, saturable, reversible, heat-sensitive and manifests high affinity (Kd = 7 nM). Binding sites are present in all major brain areas, with the thalamus exhibiting the highest density. Subcellular localization studies showed an enrichment of binding sites in the synaptosomal fraction. Some structurally related compounds with antitussive properties (narceine, hydrastine, narcotoline and papaverine) were potent competitors, while other antitussives did not inhibit [3H]noscapine binding. Various ligands that bind to known neurotransmitter receptors failed to displace [3H]noscapine binding or had IC50 values in the micromolar range. It was concluded that the noscapine binding sites are different from those previously described for antitussives such as codeine and other opiates, or dextromethorphan.

Post-training administration of GABAergic antagonists enhances retention of aversively motivated tasks

The effect of sub-convulsive doses of GABAergic antagonists on the retention of two aversively motivated tasks, inhibitory avoidance (IA) and Y-maze discrimination (YMD), was investigated in CFW mice. In the IA task, post-training intraperitoneal injections of picrotoxin and bicuculline induced a dose-dependent enhancement of retention measured 24 h after the training, while retention was not affected by bicuculline methiodide (a GABA receptor antagonist that does not readily cross the blood-brain barrier). In the absence of footshock on the training day, post-training administration of picrotoxin and bicuculline did not affect retention test latencies. In the YMD task, the discrimination was reversed on the retention test and errors made on the reversal trials served as the index of retention of the original training. The reversal error scores of mice given post-training injections of picrotoxin or bicuculline, but not bicuculline methiodide, were significantly higher than those of saline-treated controls. These findings extend previous observations that GABAergic antagonists enhance retention of aversively motivated tasks and suggest the involvement of central GABAergic processes on memory consolidation.

The sensitivity of gamma-aminobutyric acid antagonists to thiocyanate is related to the absence of a functional anionic group in their structure

Pyridazinyl derivatives of gamma-aminobutyric acid (GABA) have recently been shown to be selective, reversible and competitive GABAA antagonists. Unlike what is observed with all other GABAA antagonists, the affinity of these compounds for the GABAA receptor is not modified by thiocyanate. The chemical structure of these pyridazinyl-GABA derivatives differs from that of other GABAA antagonists by the presence of a free carboxylic group in their structure. We speculated that this could explain their lack of sensitivity to thiocyanate. Consequently, we synthesized three structural analogues of these pyridazinyl-GABA derivatives in which we replaced the free carboxyl group by a cyano group. These compounds displaced [3H]GABA from rat brain membranes and reversed the GABA-induced enhancement of [3H]diazepam binding. However their affinity for the GABAA receptor increased 10- to 20-fold in the presence of thiocyanate. Thus, sensitivity to thiocyanate appears to be related more to the absence of an anionic functional group than to the agonist or antagonist nature of the GABAA ligand.

Cu2+ is the active principle of an endogenous substance from porcine cerebral cortex which antagonizes the anticonvulsant effect of diazepam

A boiled extract of porcine cerebral cortex was fractionated on Sephadex G-75 and LH-20 followed by paper chromatography of the active fraction having inhibitory activity towards [3H]GABA binding to rat brain synaptic membranes. A ninhydrin-negative substance migrating more quickly than authentic GABA was identified as a copper-GABA complex. The complex inhibited specific [3H]GABA binding (IC50 approximately equal to 1 microM) and antagonized the anticonvulsant effect exerted by intraamygdaloid injection of diazepam. The effect of a synthetic copper-GABA complex was compared and found to be similar to the endogenous complex. Cu2+ alone has no affinity for the GABA recognition site but antagonizes the anticonvulsant effect of diazepam. Therefore, Cu2+ is suggested to be the pharmacologically active principle of the endogenous substance. Cu2+ does not seem to function via the recognition site of the GABA receptor.