Rolipram, a novel antidepressant drug, reverses the hypothermia and hypokinesia of monoamine-depleted mice by an action beyond postsynaptic monoamine receptors.

The antidepressant potential of rolipram and inhibitors of phosphodiesterase (PDE) which are selective for cyclic AMP has previously been ascribed to enhancement of central noradrenergic transmission by the combination of two mechanisms of action: increase of synthesis of noradrenaline and release (presynaptic component) and concomitant potentiation of noradrenaline signals due to inhibition of phosphodiesterase (postsynaptic component). To examine the contribution of the latter component to the antidepressant action, rolipram, ICI 63 197 or Ro 20-1724 were given to mice which were depleted of monoamines in the brain by combined pretreatment with reserpine, alpha-methyl-p-tyrosine and p-chlorophenylalanine. Rolipram, ICI 63 197 and Ro 20-1724 dose-dependently reversed the hypothermia and hypokinesia induced by this pretreatment. Imipramine and pargyline were inactive in this respect, indicating that their antidepressant effect depends on the availability of endogenous monoamines. The antihypothermic and antihypokinetic action of rolipram was not prevented by blockade of central beta-adrenergic or dopaminergic receptors. It is concluded that an action of rolipram, beyond postsynaptic receptors, essentially contributes to its antidepressant effect. The postsynaptic adenylate cyclase/cyclic AMP phosphodiesterase system is thought to be the most likely target. The unique properties of rolipram to stimulate both presynaptic and postsynaptic components of central neurotransmission should enable more efficient transduction of postsynaptic signals by circumventing presynaptic inhibitory feedback mechanisms, responsible for the delay in the therapeutic action of conventional antidepressant drugs.

Abecarnil enhances GABA-induced currents in acutely isolated cerebellar Purkinje cells.

The effect of abecarnil, a beta-carboline derivative acting at central gamma-aminobutyric acid (GABAA)/benzodiazepine receptors, on the response to GABA of isolated Purkinje cells acutely dissociated from rat cerebellar slices was studied. Using a rapid superfusion system to apply drugs and whole-cell voltage-clamp recording configuration, abecarnil was found to be of similar efficacy to diazepam (DZP) in enhancing GABA-mediated responses. Abecarnil potentiated GABA-induced chloride currents maximally by 241%, while DZP showed a maximal potentiation of 217%. However, abecarnil was more potent than DZP and exhibited different potentiation kinetics. While the response to DZP was fast and reversible, abecarnil after a 1-3 sec application initially produced only a very small enhancement of the GABA response. The effect then developed gradually even after cessation of abecarnil application, and depended on both abecarnil concentration and exposure time. It is suggested that abecarnil accumulates in the lipid membrane resulting in slow effect kinetics and prolonged presence at the benzodiazepine binding site. Abecarnil is a full agonist at the GABAA/benzodiazepine receptor on Purkinje cell somatic membranes.

Partial GABA agonist activity of SR 95531 on the binding of [35S]TBPS, [3H]DMCM and [3H]lormetazepam to rat brain membranes.

A recently developed series of pyridazinyl-GABA derivatives has been classified as GABA antagonists in electrophysiological, behavioral and biochemical experiments. These substances seemed superior to the classical GABA antagonist bicuculline because of their water-solubility, high potency and apparent selectivity for GABAA receptors. In the present study the most potent representative of this class, SR 95531 almost completely reversed the stimulatory or inhibitory effect of GABA on [3H]lormetazepam and [35S]TBPS binding, respectively. To a lesser extent, it antagonized the inhibition of [3H]DMCM binding by GABA. However, the interaction of SR 95531 with the GABA receptor seems to be of a complex nature since the compound enhanced the binding of [3H]lormetazepam by 28% at 37 degrees in the presence of 200 mM Cl-. Bicuculline inhibited [3H]lormetazepam binding under these conditions, presumably by antagonizing the effect of residual endogenous GABA. Similar to GABA and THIP, SR 95531 potently inhibited the binding of [3H]DMCM and [35S]TBPS, suggesting SR 95531 to be a partial agonist at the GABAA receptor.

Tolerance to the benzodiazepine diazepam in an animal model of anxiolytic activity.

The antipunishment properties of diazepam (DZP) were investigated in mice treated acutely, or following nine daily treatments with either DZP (5 mg/kg, PO) or its vehicle. Acutely, or following chronic vehicle treatment, DZP produced a dose-related increase in activity punished by footshock. Following chronic DZP, test doses of DZP given 24 or 48 h following the last chronic treatment were no longer, or less effective in enhancing punished activity. Effects on unpunished activity were unaffected. In a study of the time course of tolerance development, tolerance was not seen after one or three daily treatments but was present after 6 days. Following establishment of tolerance by 9 days' treatment, the antipunishment activity of DZP reappeared after 8 days' withdrawal and was restored to acute levels after 16 days. Tolerance was not associated with changes in benzodiazepine (BZ) receptor affinity or numbers, but the ability of GABA to enhance BZ binding was increased. There was no change in the ability of DZP or the convulsant beta-carboline DMCM to modulate 35S-TBPS binding. The mechanism of tolerance to the antipunishment properties of DZP therefore remains unknown.

Close correlation between behavioural response and binding in vivo for inhibitors of the rolipram-sensitive phosphodiesterase.

The antidepressant rolipram interacts in vitro with a binding site in brain tissue labeled by 3H-rolipram. A 3H-rolipram binding assay was employed in vivo to compare the affinity of rolipram-related compounds and reference phosphodiesterase (PDE) inhibitors with their potency in behavioural measures for potential antidepressant property. In two species, mice and rats, the potency of a number of compounds to antagonise reserpine-induced hypothermia (mice) and to induce head twitches (rats) was determined, as well as their potency to displace 3H-rolipram from forebrain binding sites in vivo. The treatment schedules for the two series of experiments were identical. Significant correlations between pharmacological effects and displacement of 3H-rolipram binding in vivo were observed in both species. Since the reference PDE inhibitors closely fit into the binding-pharmacological activity relationship, the PDE inhibitory properties of the substances involved are discussed.

Comparison of several benzodiazepine receptor ligands in two models of anxiolytic activity in the mouse: an analysis based on fractional receptor occupancies.

This study compared the effects of the beta-carboline anxiolytic, abecarnil, with other benzodiazepine receptor (BZR) ligands, including the full agonists diazepam and alprazolam, and the partial agonists ZK 95962 and bretazenil (Ro 16-6028), and alpidem, in the mouse four-plate test and plus-maze. The efficacy and potency of each compound was related to the fraction of BZR occupied by the drug. Abecarnil was efficacious in both tests and showed anxiolytic effects comparable with alprazolam and diazepam. In the four-plate test, abecarnil, bretazenil, and ZK 95962 had selective effects on releasing exploratory locomotor activity suppressed by footshock (punished crossings). None of these compounds significantly altered non-punished crossings. In contrast, diazepam and alprazolam increased both unpunished and punished crossings at low to medium doses (receptor occupancies of approximately 20-60%). The number of punished and unpunished crossings fell to control levels or below at higher, more sedative doses (approximately 80% receptor occupancy). Alpidem had very weak anxiolytic-like effects in this test and markedly reduced unpunished crossings at relatively low receptor occupancies (> 15%). In the plus-maze, abecarnil increased the time spent in the open arms and the percentage open arm entries to an extent equal to that observed following diazepam or alprazolam administration. Bretazenil and ZK 95962 had weak effects on the measures of anxiolytic activity in this test. Alpidem also had little anxiolytic-like activity in the plus-maze but markedly reduced the total number of arm entries.(ABSTRACT TRUNCATED AT 250 WORDS)

Autoradiographic mapping of a selective cyclic adenosine monophosphate phosphodiesterase in rat brain with the antidepressant [3H]rolipram.

Rolipram is a clinically effective antidepressant with selective cAMP phosphodiesterase (PDE) inhibiting properties. (+/-)-[3H]Rolipram binds with high affinity (Kd = 2.52 +/- 0.47 nM) to sections of rat brain (Hill number = 0.90 +/- 0.05). Binding is stereospecific. Association of (+/-) [3H]rolipram to sections is rapid (47% of specific binding in the first minute, kobs = 0.52 min-1). Dissociation of (+/-)-[3H]rolipram exhibits non first order kinetics (3 component model; t1/2 = 2.5 min, 50 min and 6 h, respectively). A number of PDE inhibitors reduce (+/-)-[3H]rolipram binding to the level of nonspecific binding ((-)-rolipram, IC50 = 0.9 nM; (+/-)-rolipram, IC50 = 1.5 nM; Ro 20-1724, IC50 = 11 nM; ICI 63.197, IC50 = 35 nM; medazepam, IC50 = 240 nM; diazepam, IC50 = 1200 nM; IBMX, IC50 = 3800 nM). In vitro autoradiography reveals high binding site densities in the cerebellum, olfactory bulb, lateral septal nucleus, frontal cortex, subiculum and CA1 of hippocampus. Most of the labeled structures are part of the limbic system. In vivo autoradiography of (+/-)-[3H]rolipram binding shows much more nonspecific binding than in vitro, nevertheless the distribution pattern of (+/-)-[3H]rolipram binding sites is similar. A comparison of the distribution pattern of (+/-)-[3H]rolipram binding sites with that of an antidepressant (monoamine oxidase inhibitor, monoamine uptake inhibitor) reveals no overlap. Limited, though significant correlations exist with the distribution of beta 1-adrenergic, adenosine1 and glutamate/quisqualate receptors as well as protein kinase C, but not with beta 2-adrenergic receptors and forskolin binding sites.

Co-existence of kindling induced by the beta-carboline, FG 7142, and tolerance to diazepam following chronic treatment in mice.

The effect of chronic treatment with the beta-carboline, FG 7142, followed by chronic treatment with diazepam (DZP) on the acute effects of DZP and FG 7142 were studied. Mice were treated for 16 days with FG 7142 (40 mg/kg i.p.) followed by treatment with DZP (5 or 20 mg/kg i.p.) for 9 days. At the end of this period, the anticonvulsant, antipunishment and locomotor sedative properties of a test dose of DZP were assessed, as were the convulsant properties of FG 7142. During the chronic treatment with FG 7142, 80% of the mice developed clonic convulsions in response to the beta-carboline, and this increased sensitivity to FG 7142 (kindling) remained following the chronic DZP treatment. Thus long-term treatment with DZP does not reverse the changes which occur during FG 7142-induced kindling. Chronic treatment with DZP for 9 days gave rise to tolerance to its pharmacological effects as assessed in the 4-plate test of antipunishment activity, in a test of locomotor sedation, and by its ability to increase the convulsant threshold of intravenously administered pentylenetetrazol. The development of tolerance to DZP was not affected by a prior chronic treatment with FG 7142. Nor were the acute effects induced by DZP altered by a prior chronic treatment with FG 7142. Apart from reducing its own convulsant threshold, chronic treatment with FG 7142 had no effect in any of the experiments. These results suggest that kindling induced by FG 7142 and tolerance to DZP depend on different mechanisms. In neither case were the pharmacological changes induced by chronic administration reflected by changes in the biochemical measures of the coupling between benzodiazepine binding sites and gamma-aminobutyric acid (GABA) receptors.

Stereospecific binding of the antidepressant rolipram to brain protein structures.

The characteristics for the binding of the selective cAMP phosphodiesterase inhibitor and antidepressant agent rolipram to brain and peripheral organs were investigated. (+/-)-[3H]Rolipram equilibrium binding and Scatchard analysis revealed saturable, reversible, stereospecific, Mg2+-dependent and heat-sensitive binding with an apparent Hill number of 1. Binding was detected both to membrane-bound and soluble sites, with dissociation constants Kd of 1.2 and 2.4 nM, respectively, and binding site concentrations (Bmax) of 19.3 and 23.6 pmol/g rat forebrain. The (-)-enantiomer of rolipram was ca. 20 times more effective than the (+)-enantiomer in displacing (+/-)-[3H]rolipram from membranes. Rolipram bound to brain tissue of all mammalian species tested including man, while tissue from bird and fish showed less binding. Organs other than brain exhibited only negligible binding. Only specific cAMP phosphodiesterase inhibitors (ICI 63.197, Ro 20-1724) were potent competitors, while rolipram itself was inactive in a variety of receptor binding assays of neuroactive ligands. The kinetics of (-)-[3H]rolipram binding to the particulate fraction revealed a complex association and dissociation behaviour. The nature of the rolipram binding protein(s) is not clear, but the low affinity binding site evident from binding kinetics may represent a rolipram-sensitive phosphodiesterase isoenzyme also common to some peripheral organs, while the high affinity binding site(s) may be related to PDE isoenzymes more confined to the central nervous system.

Effects of forskolin on spontaneous behavior, rectal temperature and brain cAMP levels of rats: interaction with rolipram.

The effects of systemically administered forskolin, a direct activator of the catalytic subunit of adenylate cyclase, on locomotor activity, rectal temperature and the incidence of grooming and head twitches were studied in rats. Forskolin, 0.1-25 mg/kg, decreased locomotor activity and lowered rectal temperature. The incidence of grooming and head twitches increased dose-dependently after forskolin, 6.25 25 mg/kg. The combination of a threshold dose of forskolin with a threshold dose of the cAMP-selective phosphodiesterase (PDE) inhibitor rolipram resulted in a marked, statistically significant enhancement of the behavioral, hypothermic and brain cAMP elevating effect. The present findings support the assumption that enhanced brain cAMP availability is associated with a characteristic behavioral syndrome in rats as was previously shown with dibutyryl cAMP or neurotropic cAMP-selective PDE inhibitors like rolipram. Ro 20-1724 or ICI 63 147.

Beta-carbolines with agonistic and inverse agonistic properties at benzodiazepine receptors of the rat.

The anxiogenic or anxiolytic properties of five beta-carbolines were assessed in rats trained in two-lever operant chambers to operate one lever to obtain food reward when treated with a training drug, and the other when treated with saline. Two such drug-discrimination tests were used, employing either chlordiazepoxide (CDP) or pentylenetetrazol (PTZ) as training drugs. The benzodiazepine (BZ) agonist, ZK 93 423, substituted for the CDP cue and antagonized the PTZ cue. The inverse agonists DMCM and FG 7142 showed the opposite effects. An antagonist, ZK 93 426, antagonized the CDP cue but did not substitute for PTZ, while a partial agonist was identified as CDP-like but only partially antagonized the PTZ cue. An anxiolytic profile (substitution for CDP and antagonism of PTZ) was associated with GABA ratios of about 2, and an anxiogenic profile with GABA ratios less than 1. The antagonist and partial agonist displayed intermediate values. These observations are generally consistent with the beta-carbolines modulating anxiety through their activity at BZ receptors influencing GABAergic neurotransmission.

Modulation of anxiety by beta-carbolines and other benzodiazepine receptor ligands: relationship of pharmacological to biochemical measures of efficacy.

Several beta-carbolines and other benzodiazepines (BZ) receptor ligands have been investigated for anxiolytic or anxiogenic action in 4 unrelated animal models of anxiety using rats. The substances could be grouped into essentially 2 groups. The first, anxiolytics, exhibited antipunishment activity in a lick-suppression test, antagonised the discriminative stimulus provided by pentylenetetrazol, resembled chlordiazepoxide (CDP) in a drug discrimination test, and reduced the rise in plasma corticosterone levels following swim stress. Such substances included several benzodiazepines, the beta-carboline ZK 93 423, and the triazolapyridazine CL 218 872. A subgroup of anxiolytics were active in only some of these tests. They included two beta-carbolines, ZK 91 296 and ZK 95 962, and the pyrazoloquinoline CGS 9896, and these 3 substances were also distinguishable in not producing rate-decreasing effects in any of the 3 operant tests. The second group were anxiogenic in that they produced a discriminative stimulus resembling that of PTZ, they antagonised the CDP cue, exhibited propunishment effects in the lick-suppression test, and themselves caused increases in plasma corticosterone in otherwise unstressed animals. Such substances included the beta-carbolines DMCM, FG 7142 and ZK 90 886, and the pyrazoloquinoline CGS 8216. Two substances, Ro 15-1788 and ZK 93 426 had little or only weak activity in any test. The classification of these substances into anxiolytics or anxiogenics could be predicted qualitatively both by their ability to enhance (anxiolytics) or decrease the binding of 35S-TBPS to rat brain membranes and by whether their own binding was increased (anxiolytics) by adding the GABA agonist muscimol to the in vitro incubation medium. For the limited number of substances for which full data was available, there was also a quantitative relationship between the degree of enhancement of 35S-TBPS binding by a substance and its potency in the CDP cue test when such potency was expressed as numbers of BZ receptors occupied at the ED50 value in the pharmacological test. Furthermore, for the anxiolytics, activity in the CDP cue correlated significantly with potency in 2 other tests. Otherwise, surprisingly weak correlations existed between potencies in the different tests. In particular, the beta-carboline ZK 95 962 was highly potent in antagonising the PTZ cue but inactive in both a conflict test and in protecting against stress. These results are discussed in terms of differences in the neuropharmacologies of the 4 tests and in selectivity of the BZ receptor ligands for subtypes of BZ receptor.

High density of benzodiazepine binding sites in the substantia innominata of the rat.

In order to study the neuronal basis of the pharmacological interactions between benzodiazepine receptor ligands and cortical cholinergic turnover, we examined the regional distribution of specific benzodiazepine binding sites using in vitro autoradiography. In the basal forebrain, the substantia innominata contained a high density of [3H]lormetazepam (LMZ) binding sites (Bmax = 277 fmol/mg tissue; Kd = 0.55 nM). The label could be displaced by diazepam (IC50 = 100 nM), the benzodiazepine receptor antagonist beta-carboline ZK 93426 (45 nM) and the partial inverse agonist beta-carboline FG 7142 (540 nM). It is hypothesized that the amnesic effects of benzodiazepine receptor agonists are exerted through benzodiazepine receptors which are situated on cholinergic neurons in the substantia innominata and are involved in a tonic inhibition of cortical acetylcholine release. The benzodiazepine receptor antagonist ZK 93426 may exert its nootropic effects via benzodiazepine receptors in the substantia innominata and, consequently, by disinhibiting cortical acetylcholine release.

Discriminative stimulus properties of the stereoisomers of the phosphodiesterase inhibitor rolipram.

The discriminative stimulus properties of the specific type IV phosphodiesterase inhibitor, rolipram, and its two stereoisomers were assessed using standard two-lever drug discrimination procedures in which responding on the appropriate lever was reinforced on a FR10 schedule. In three separate drug cues based on training rats to discriminate the racemate (0.2 mg/kg, IP), the (-)-isomer (0.1 mg/kg), or the (+)-isomer (2 mg/kg) from vehicle, all forms substituted for one another, differing only in potency. In keeping with published reports, the (-)-isomer was the more potent form, the (+)-isomer being approximately 10 times less potent. Several phosphodiesterase (PDE) inhibitors were found to substitute for the racemate cue, their potencies in the behavioural measure correlating with their potency in displacing [3H]rolipram from its forebrain binding sites in vivo (r = 0.95), suggesting that the discriminative stimulus depends on an action of the drug upon this site. Because rolipram has been reported to possess antidepressant activity, the ability of the tricyclic antidepressant imipramine to substitute for rolipram was investigated; doses of 10 and 20 mg/kg did not substitute. Amphetamine (0.156-1.25 mg/kg) also was inactive. Lisuride gave rise to drug-appropriate responding in 50% of rats only at a dose of 0.078 mg/kg, which severely disrupted responding. It is concluded that the rolipram discriminative stimulus is dependent on the selective PDE inhibitory activity of the drug, and that it does not constitute a cue based on the antidepressant property of rolipram.