Selective changes in the in vivo effects of benzodiazepine receptor ligands after chemical kindling with FG 7142

It has recently been demonstrated that kindling occurs with repeated administration of the benzodiazepine "inverse agonist" FG 7142. The present study was an investigation of the effects of other ligands for the benzodiazepine receptor in mice kindled with FG 7142. It was shown that over a range of doses the lowering effects of FG 7142 on the seizure threshold were greater in kindled animals than in control. In contrast, the hypothermic effect of FG 7142 was unaltered. The effects of the partial inverse agonist CGS 8216 were unaltered. The effects of the full inverse agonist DMCM were unchanged except for an enhancement of its convulsant effect when infused at a concentration of 100 mu gm 1-1. Studies with the full agonist benzodiazepine, flurazepam and the full agonist beta-carboline, ZK 93423, showed small but significant reductions in their hypothermic effects. The sedative and anticonvulsant effects of flurazepam were unaltered, whereas the anticonvulsant effects of ZK 93423 were decreased in animals kindled with FG 7142. There was a pronounced reduction in the anticonvulsant and hypothermic effects of the partial agonist beta-carboline, ZK 91296. These data do not fit any simple explanation of kindling being due to a change in the function of benzodiazepine receptors, although they may offer some support for the idea that kindling with FG 7142 produces a change in the effects of all beta-carboline compounds which act at the benzodiazepine receptor.     

Proconflict effect of benzodiazepine receptor inverse agonists and other inhibitors of GABA function

GABA seems to be a neurotransmitter with great impact on conflict behaviour in rats. We studied the effects of different types of GABA function inhibitors on conflict behaviour in rats. Among these inhibitors, the benzodiazepine (BZ) receptor inverse agonists are a new type of compound downregulating GABA-mediated functions allosterically. The most effective proconflict inducing compounds were pentylenetetrazol and the three BZ inverse agonists beta-CCM, beta-CCE and ZK 90886. The BZ receptor inverse agonists, FG 7142, DMCM and CGS 8216, the GABA antagonist bicuculline and the GABA synthesis inhibitor isoniazid were moderately active. Only a weak effect was seen with just subconvulsive doses of picrotoxin, a chloride channel inhibitor. These results show that the mode of GABA function inhibition determines the degree to which proconflict action is elicited and that proconflict effects and proconvulsant or convulsant effects may be separated. Evidence is presented that proconflict action in rats is predictive of an anxiogenic action in man.     

Evaluation of the β-carboline ZK 93 426 as a benzodiazepine receptor antagonist

We describe here biochemical and pharmacological effects of the -carboline ZK 93426, a new and potent benzodiazepine (BZ) receptor antagonist. ZK 93426 was compared with Ro 15-1788 and CGS 8216, two compounds previously described as BZ receptor antagonists. Certain effects of ZK 93426, Ro 15-1788 and CGS 8216 were quite similar (e.g., ³H-FNM displacement, GABA ratio, photo-shift). In most pharmacological tests ZK 93426 and Ro 15-1788 lacked overt effects; Ro 15-1788 was a weak agonist in some paradigms, while ZK 93426 exhibited a potent proconflict effect but also a weak anticonvulsant effect. This interesting finding with ZK 93426 suggests that BZ receptor ligands may possess differential efficacy at BZ receptor subtypes. In contrast, CGS 8216 exhibited potent proconvulsant effects in several paradigms in addition to proconflict and pentylenetetrazol generalizing effects. ZK 93426, Ro 15-1788 and CGS 8216 were almost equally potent as antagonists of the effects of BZ receptor agonists, such as diazepam and lorazepam. However, ZK 93426 was the most potent inhibitor of the convulsions produced by the BZ receptor inverse agonist DMCM.     

Inverse agonist properties of the FG 7142 discriminative stimulus.

A two-lever, food-motivated discrimination was established between the benzodiazepine receptor partial inverse agonist FG 7142 (5.0 mg/kg) and its vehicle. The FG 7142 discriminative stimulus was pharmacologically characterized by testing trained rats with a variety of benzodiazepine receptor ligands. Administration of the inverse agonist DMCM (0.15-0.30 mg/kg) dose-dependently mimicked the FG 7142 stimulus. In contrast, the benzodiazepine receptor agonist chlordiazepoxide, partial agonist ZK 91 296, mixed agonist/antagonist CGS 9896 and antagonist RO 15-1788 blocked the FG 7142 cue. These results indicate that the FG 7142 discriminative stimulus is based on its inverse agonist activity. The generalization of FG 7142 to the anxiogenic/convulsant compound pentylenetetrazole (PTZ), but not to the anorectic agent norfenfluramine, indicates that the anxiogenic properties of FG 7142, rather than its anorectic actions, may underlie the FG 7142 discriminative stimulus.     

Hyperphagic and anorectic effects of ß-carbolines in a palatable food consumption test: Comparisons with triazolam and quazepam

The triazolobenzodiazepine triazolam (0.1–1.0 mg/kg i.p.) and quazepam (0.3–30.0 mg/kg i.p.) were administered to non-food-deprived rats which had been partially-satiated on a palatable diet. In a subsequent 30 min feeding test, both compounds produced a significant increase in the level of food consumption. While triazolam had a dose-related effect and produced a 151.5% increase in the level of food intake, quazepam exerted only a partial effect, achieving a 73.9% increase in food intake at 3.0 mg/kg but no additional increase in food intake at higher doses. The two β-carbolines, ZK 93423 (0.1–3.0 mg/kg i.p.) and ZK 91296 (1.0–30.0 mg/kg i.p.), a full agonist and a partial agonist at benzodiazepine receptors respectively, also produced significant increases in food consumption under the same experimental conditions. ZK 93423 had effects which were similar to those of triazolam, ZK 91296 had effects similar to quazepam. The β-carboline benzodiazepine inverse agonist FG 7142 (10.0 mg/kg i.p.) had an anorectic effect in non-food-deprived rats given 30 min access to the highly palatable diet. This effect was reversed by the β-carboline benzodiazepine receptor antagonist ZK 93426 in a dose-dependent manner. These results emphasize that within the series of β-carboline ligands for benzodiazepine receptors, their characterization in terms of agonists, antagonists and inverse agonists has validity with respect to the behavioural response of palatable food consumption in non-food-deprived rats.     

Discriminative stimulus properties of β-carbolines characterized as agonists and inverse agonists at central benzodiazepine receptors

The discriminative stimulus properties of three -carboline derivatives were studied in three groups of rats trained, respectively, to discriminate diazepam (2.5 mg/kg IP), chlordiazepoxide (CDP, 5 mg/kg IP) or pentylenetetrazol (PTZ, 15 mg/kg IP) from saline in standard procedures employing two-lever operant chambers. Two -carbolines, ZK 91296 and ZK 93423, substituted for the benzodiazepines in both CDP- and diazepam-trained rats. The neutral benzodiazepine antagonist Ro 15-1788 blocked the diazepam discriminative stimulus and the ability of ZK 91296 to substitute for diazepam. A third -carboline, FG 7142, was not identified as benzodiazepine-like in generalization tests in either diazepam- or CDP-trained rats, but when administered together with CDP antagonized the benzodiazepine discriminative stimulus. In rats trained to discriminate PTZ from saline (a discrimination which is thought to depend on the anxiogenic properties of PTZ) the PTZ cue was antagonized by diazepam and ZK 93423, and partially antagonized by ZK 91296. The PTZ cue generalized to FG 7142 and this generalization was partially antagonized by Ro 15-1788. These results suggest that the three -carbolines provide more than one kind of discriminative stimulus, consistent with the classification of ZK 93423 as an agonist at central benzodiazepine receptors, with ZK 91 296 as a partial agonist, and with FG 7142 as an inverse agonist. Pharmacologically, ZK 93 423 and ZK 91 296 may exhibit anxiolytic qualities, whereas FG 7142 produces anxiogenic effects.     

Investigating benzodiazepine receptor function in vivo using an intravenous infusion of DMCM

A method for measuring seizure thresholds using an intravenous infusion of a convulsant beta-carboline benzodiazepine receptor ligand (DMCM) is reported. Seizure thresholds to DMCM are elevated by the benzodiazepine receptor agonist, flurazepam and antagonist, Ro 15-1788, and the proconvulsant beta-carboline, FG 7142. Various other anticonvulsant also antagonise DMCM seizures. Selectivity for the benzodiazepine/GABA receptor complex is demonstrated since bicuculline and pentylenetetrazol lowered thresholds whereas strychnine and N-methyl DL-aspartate did not.     

Novel benzodiazepine receptor ligands stimulate intake of hypertonic NaCl solution in rehydrating rats

Experiments were conducted to determine the degree of generality of previous findings that anxiolytics increased the ingestion of hypertonic saline in rehydrating rats. Further, potential differential effects amongst recently described benzodiazepine receptor partial agonists were explored. Finally, the hypothesis that benzodiazepine receptor partial inverse agonists would decrease the ingestion of hypertonic NaCl solution was tested. Results indicated that full agonists (midazolam, ZK 93423, zopiclone) produced substantial dose-related increases in hypertonic saline consumption. The putative 5-HT1A agonist, buspirone, produced only a dose-dependent decrease in saline intake. Partial agonists fell into two distinct categories: ZK 91296, CL 218,872 and two novel benzodiazepines, Ro16-6028 and Ro17-1812, also increased saline ingestion. In contrast, two pyrazoloquinolines, CGS 9896 and CGS 9895, had no significant effect on intake. Two compounds, CGS 8216 and FG 7142, described as benzodiazepine partial inverse agonists, did not significantly affect consumption of the hypertonic saline.     

Effects of diazepam and two beta-carbolines on epileptic activity and on EEG and behavior in rats with absence seizures

In the present series of experiments, effects of a full benzodiazepine receptor agonist (diazepam) are described and compared with those of a partial benzodiazepine receptor agonist (ZK 91296) and an inverse partial benzodiazepine receptor agonist (FG 7142), both compounds of the beta-carboline family. In a rat model for generalized absence epilepsy, the anticonvulsant, the hypnotic and the myorelaxant properties were investigated, as well as effects on on-going behavior and effects on the electroencephalogram (EEG). While diazepam showed all behavioral and electrophysiological changes characteristic for the benzodiazepines, the partial agonist ZK 91296 reduced seizure activity without inducing any signs of sedation, sleepiness, myorelaxation and changes in behavior or EEG spectral content. The partial inverse agonist FG 7142 aggrevated epileptic activity, with slightly enhanced immobile behavior, suggesting some anxiogenic properties. The results not only demonstrate that the multiple effects of the benzodiazepines could be separated by these compounds, but also that the anticonvulsant activity is not related to changes in spectral content of the EEG. Because of its selective activity, ZK 91296 appears to be more suitable than diazepam in reducing seizure activity. Finally, FG 7142 seems a genuine partial inverse agonist which has some, but not all, of the inverse effects of a full agonist.     

Ro 15-4513, like anxiogenic beta-carbolines, increases dopamine metabolism in the prefrontal cortex of the rat

The effects of Ro 15-4513, FG 7142 and beta-CCM on the activity of the mesocortical dopaminergic system were examined by measuring the changes in the content of the principal dopamine (DA) metabolite, dihydroxyphenylacetic acid (DOPAC) in the prefrontal cortex of the rat. Ro 15-4513 increased the DOPAC content in the prefrontal cortex in a dose-dependent manner (5-40 mg/kg i.p.) but had no effect on DA concentrations. A similar increase in DOPAC content was induced by FG 7142 (40 mg/kg i.p.) and beta-CCM (8 mg/kg s.c.), two beta-carboline derivatives that interact with benzodiazepine recognition sites as partial inverse agonists. These effects of Ro 15-4513, FG 7142 and beta-CCM on DA metabolism in the prefrontal cortex are mediated via benzodiazepine recognition sites, since they were prevented by the administration of the benzodiazepine antagonists Ro 15-1788 and ZK 93426. These data indicate that Ro 15-4513 is an inverse agonist at benzodiazepine recognition sites.     

Effects of benzodiazepine receptor ligands on the performance of an operant delayed matching to position task in rats: opposite effects of FG 7142 and lorazepam

The effects of a series of benzodiazepine (BZ) receptor ligands, ranging from a full agonist through to partial inverse agonists, were examined on short term working memory in the rat. The behavioural paradigm used was a discrete trial, operant delayed matching to position task, as originally described by Dunnett (1985), with delays of 0, 5, 15 and 30 s. The benzodiazepine receptor (BZR) full agonist lorazepam (0.25, 0.375 and 0.5 mg/kg) dose and delay dependently impaired matching accuracy. Lorazepam also increased the latency to respond and decreased the number of nose pokes made into the food tray during the delays. In contrast, the BZR partial agonist ZK 95 962 (1, 3, 10 mg/kg) did not affect matching accuracy, but did increase the speed of responding. The BZR antagonist ZK 93 426 (1.25, 5, 25 mg/kg) had no effects in this paradigm. The BZR weak partial inverse agonists Ro 15-4513 (0.1, 1 and 10 mg/kg) and ZK 90 886 (1, 3 and 10 mg/kg) did not affect accuracy of performance. However, both of these drugs increased the latency to respond and decreased nose poke responses. These motoric effects were particularly strong following 10 mg/kg Ro 15-4513. This shows that the effects of drugs on the accuracy of responding and on the speed of responding can be dissociated. The BZR partial inverse agonist FG 7142 had effects on matching accuracy that were dependent upon dose. The lowest dose of FG 7142 (1 mg/kg) significantly improved accuracy, whereas the highest dose (10 mg/kg) impaired accuracy. This impairment induced by FG 7142 (10 mg/kg) was accompanied by an increase in the latency to respond and a decrease in the number of nose pokes. Taken together, these results show that the accuracy of delayed matching performance can be modulated in opposite ways by the BZR full agonist lorazepam and a low dose of the BZR partial inverse agonist, FG 7142.     

Discriminative stimulus properties of RU 33965, a benzodiazepine receptor weak partial inverse agonist.

Rats were trained to discriminate the low-efficacy benzodiazepine receptor inverse agonist RU 33965 from vehicle in a two-lever discrimination task on a fixed ratio (FR) 20 schedule. Consistent discrimination was obtained at 0.5 mg/kg PO RU 33965. Both leptazol and stronger inverse agonists (FG7142, S-135, RU 34000) substituted for the cue. The weak inverse agonists/antagonists RU 33094, RU 34030, Ro 15-1788, and ZK 93426 also substituted for the cue with the latter two compounds being particularly potent. The agonist and partial agonists diazepam, RU 33203, and RU 39419 did not substitute for the RU 33965 cue but RU 39419 antagonised it. The full agonists diazepam and loprazolam only consistently antagonised the cue when given IP 5 min pretest. These data suggest that the RU 33965 cue results from its weak inverse agonist activity at benzodiazepine receptors, but kinetic factors must be considered when interpreting drug effects in discrimination studies.     

Strain differences in sensitivity to the hypothermic effects of benzodiazepine receptor ligands in mice

The hypothermic effects of intraperitoneal (IP) administration of the full benzodiazepine agonist lop razolam (1, 10 mg/kg); the partial agonist Ro 17-1812 (1, 10 mg/kg); the benzodiazepine receptor antagonist flumazenil (10, 20 mg/kg); the benzodiazepine inverse agonists Ro 15-4513 (1, 3, 10 mg/kg) and Ro 19-4603 (0.03, 0.1, 0.3 mg/kg) and the-carboline inverse agonists FG 7142 (10, 30 mg/kg) and DMCM (1, 3, 10 mg/kg) were investigated in three strains of mice. TO mice were less sensitive than CBA/cA and DBA/2 mice, since only loprazolam and the partial and full-carboline inverse agonists FG 7142 and DMCM lowered body temperature in these animals. CBA/cA mice were particularly sensitive to the hypothermic effects of loprazolam and Ro 17-1812, and also responded to the-carboline but not the benzo diazepine inverse agonists. In contrast, DBA/2 mice responded with moderate hypothermia to loprazolam, Ro 17-1812, and to the partial inverse agonist Ro 15-4513, and exhibited marked hypothermia in response to the more efficacious benzodiazepine inverse agonist Ro 19-4603 and to FG 7142 and DMCM. Flumazenil did not alter body temperature. DBA/2 mice were also more sensitive to the convulsant activity of inverse agonists than TO mice. CBA/cA mice exhibited enhanced sensitivity to the convulsant, but not the hypothermic, effects of Ro 19-4603, showing dissociation of these responses. The mechanisms underlying the genetic differences in sensitivity of mice to the hypothermic and convulsant action of the different ligands are unknown and warrant further investigation.     

Discriminative stimulus properties of the benzodiazepine receptor antagonist flumazenil

Rats were trained to discriminate the stimulus properties of the benzodiazepine (BZ) receptor antagonist flumazenil using a conditioned taste aversion procedure. On drug trials, fluid-restricted rats were injected with flumazenil (32 mg/kg), given access to a 0.25% saccharin solution for 30 min, and injected with LiCl (1.8 mEq/kg IP). On saline trials, injections of saline bracketed the period of saccharin consumption. Acquisition of the discriminated taste aversion, as measured by differential effects of drinking between saline and drug trials, developed after only five pairings of flumazenil with the LiCl injections. Flumazenil did not alter saccharin consumption in unconditioned controls (N=9) that never received LiCl. The discrimination was also measured by flumazenil's ability to reduce the preference for saccharin over tap water using two-bottle choice tests. Flumazenil demonstrated dose-dependent generalization upon decreasing the training dose as low as 1 mg/kg. Two other BZ receptor antagonists of different chemical structure, CGS 8216 and ZK 93426, substituted completely for the flumazenil stimulus. Partial generalization was exhibited to the partial inverse agonists FG 7142 and beta-CCE, while the full inverse agonists DMCM and PTZ failed to substitute for the flumazenil stimulus. The BZ receptor agonists diazepam and alprazolam failed to substitute for the flumazenil stimulus, although partial generalization was shown with CDP. The results suggest that the BZ receptor antagonist flumazenil may produce intrinsic discriminative stimulus effects that are independent from those of BZ receptor agonists or inverse agonists.     

In vivo determination of the profile of benzodiazepine ligands by comparing the inhibition of 3H-Ro 15-1788 binding to the modulation of cGMP levels in mouse cerebellum

The in vivo effects of various benzodiazepine (BZD) ligands belonging to different chemical families were studied comparatively in mouse cerebellum using displacement of 3H-Ro 15-1788 binding and cGMP content as biochemical tools. It was possible to differentiate four classes of compounds with regard to these biochemical parameters. The first class of compounds such as diazepam and suriclone induced a net effect on in vivo 3H-Ro 15-1788 binding and a dose-dependent decrease of cGMP levels. A second class of drugs such as ZK 91296 and CGS 9896 showed in vivo activities in displacement studies but relatively small or moderate activities on cGMP levels. A third class was represented by Ro 15-1788 itself which prevented dose-dependently the in vivo 3H-Ro 15-1788 binding but was devoid of effect on cGMP levels. Finally, a fourth class of compounds (CGS 8216, FG 7142, beta-CCM and DMCM) showed in vivo displacement of 3H-Ro 15-1788 with concomitant increase of cGMP levels. The first class of compounds represents full agonists, the second class, partial agonists, the third class, the antagonist Ro-15-1788 itself, and the fourth class corresponds to inverse agonists. Thus it is proposed to use 3H-Ro 15-1788 binding and cGMP levels to differentiate in vivo BZD ligands acting on the BZD receptor/GABA receptor/chloride ionophore complex.     

Inverse agonist properties of the THBC discriminative stimulus: asymmetrical generalization with FG 7142.

Male rats were trained to discriminate the stimulus properties of the beta-carbolines 1,2,3,4-tetrahydro-beta-carboline (THBC) (15.0 mg/kg) or FG 7142 (5.0 mg/kg) from vehicle in a two-lever, food-motivated operant task. Consistent with the serotonergic properties of THBC, administration of the 5HT1B agonists TFMPP and mCPP to THBC-trained rats resulted in THBC-appropriate responding. Norharmane, a beta-carboline metabolite of THBC, also mimicked the THBC discriminative stimulus. In contrast, the benzodiazepine receptor partial inverse agonist FG 7142, the anxiogenic/convulsant pentylenetetrazole (PTZ), two physiological stressors and the alpha 2 adrenergic antagonists yohimbine and idazoxan failed to produce THBC-appropriate responding. In the FG 7142-trained rats, THBC and norharmane dose-dependently mimicked the FG 7142 discriminative stimulus. This generalization was not based upon the serotonergic properties of THBC and norharmane since administration of the serotonin agonist mCPP to FG 7142-trained rats failed to produce FG 7142-appropriate responding. The ability of THBC to substitute for the FG 7142 discriminative stimulus was antagonized by the benzodiazepine receptor mixed agonist/antagonist CGS 9896 and the benzodiazepine receptor antagonist RO 15-1788, indicating that THBC produces an inverse agonist stimulus in FG 7142-trained rats. These results suggest that THBC produces a discriminative stimulus which consists of both serotonergic and inverse agonist components.     

Body temperature discriminates between full and partial benzodiazepine receptor agonists

The benzodiazepine full agonist loprazolam and the beta-carboline ZK 93423 produced hypothermia in mice (1-30 mg/kg i.p.). Maximal effects were seen at relatively low doses of these compounds. In contrast, the partial agonists Ro 17-1812 (a benzodiazepine) and ZK 91296 (a beta-carboline), did not modify rectal temperature at doses up to 30 mg/kg i.p. (which would be receptor saturating). Body temperature may therefore be a useful test for discriminating between full and partial agonists at the benzodiazepine receptor.     

Antagonizing the anticonvulsant effect of ethanol using drugs acting at the benzodiazepine/GABA receptor complex

The ability of various benzodiazepine receptor ligands to antagonize the anticonvulsant action of ethanol was investigated using intravenous infusion of the GABA antagonist bicuculline. The partial inverse agonists FG 7142, RO 15-4513 and RO 15-3505 produced dose-related reductions in seizure threshold. These compounds also partially reversed the anticonvulsant action of ethanol. However, the magnitude of the effects in each case was only equivalent to the reduction in seizure threshold caused by each compound when administered alone. This is the proconvulsant effect of each compound merely subtracted from the anticonvulsant effect of ethanol. ZK 93426, a benzodiazepine receptor antagonist which alone failed to alter seizure threshold, did not affect the anticonvulsant action of ethanol. Both RO 15-4513 and RO 15-3505 also lowered the seizure threshold of barbiturate-treated mice, again in a subtractive fashion. The ability of RO 15-4513 and other inverse agonists to antagonize the anticonvulsant effect of ethanol appears to result from their intrinsic proconvulsant properties.     

Effects of prenatal exposure to benzodiazepine-related drugs on early development and adult social behaviour in Swiss mice--III. Inverse agonists.

1. The present experiment examined, using a battery of tests, the effects of in utero exposure to the benzodiazepine inverse agonists DMCM and FG 7142 upon the early development and adult behaviour of Swiss Mice. 2. Early development was respectively retarded and augmented by treatments with the higher and lower doses of DMCM. FG 7142 suppressed later development. DMCM retarded righting reflex on certain days. FG 7142 had a significant, biphasic effect on eye opening. 3. Adult social behaviour was examined using the resident-intruder paradigm, by determining the time spent in broad behavioural categories. Male offspring of dams treated with DMCM showed increased threat. FG 7142 had no significant effects.     

DMCM: a potent convulsive benzodiazepine receptor ligand

DMCM (methyl 6,7-dimethoxy-4-ethyl-beta-carboline-3-carboxylate) is a very potent convulsant with high affinity for specific benzodiazepine binding sites. A number of compounds were compared for their ability to prevent seizures induced by DMCM and pentylenetetrazol. DMCM seizures were antagonized by benzodiazepine (BZ) receptor antagonists, such as Ro 15-1788, CGS 8216 and several beta-carboline-3-carboxylates, which all fail to inhibit pentylenetetrazol seizures. The benzodiazepines diazepam, clonazepam and lorazepam as well as valproate, ethosuximid, phenobarbital, primidone, diphenylhydantoin and carbamazepine antagonized both DMCM and pentylenetetrazol. Muscimol and gamma-vinyl-GABA did not inhibit DMCM seizures whereas THIP showed a weak and selective effect against DMCM. Valproate showed a relatively potent (60 mg/kg i.p.) and competitive antagonism of short duration. Baclofen antagonized DMCM at 3 mg/kg. Valproate and baclofen were at least 5 times more potent against DMCM-induced than against pentylenetetrazol-induced seizures. DMCM most probably induces the seizures by selective impairment of the functions mediated by the GABA/BZ receptor-chloride channel complex (inverse agonism) and therefore differs from GABA receptor blockers.