Faculty Bibliography

Ibogaine is an indole alkaloid that has been of interest in recent years due to its putative efficacy in the treatment of drug dependence. For the most part, animal data have shown attenuation of some of the effects of stimulant drugs, for example, motor stimulation and self-administration. The mechanism of this inhibition of drug-induced behavior seems to suggest the action of the dopamine, serotonin, NMDA, kappa, and/or sigma receptor sites, as indicated by the affinity of ibogaine to receptor selective ligands in binding competition studies. However, affinity for receptors does not in itself indicate their involvement. In vitro perfusion studies have proven a useful model to study the effect of ibogaine on neurotransmitter systems and the functional effects of such interactions. This review summarizes these data and the support of multiple effects of ibogaine, and the potential importance of its action on serotonergic modulation of dopamine release

The effect of the nicotinic receptor agonist dimethylphenylpiperazinium iodide (DMPP) on the resting release of [3H]noradrenaline from superfused hippocampal slices was studied in rat. Continuous administration of DMPP at a concentration range of 1-100 microM increased the [3H]noradrenaline release in a dose-dependent manner. The response to DMPP was characterized by an immediate steep increase (peak response) followed by a sudden decline to a lower level that was constant with time (tall response) and still was significantly higher than the spontaneous release. Further analysis revealed that the release of noradrenaline in response to DMPP consists of two components. While nicotinic receptor antagonists (mecamylamine 10 microM, pancuronium 10 microM, pipecuronium 10 microM), the nonselective Ca-antagonist Cd2+ (125 microM) and tetrodotoxin (TTX, 1 microM) completely abolished the peak response (phase I), they had no effect on the tall response (phase II). Ca(2+)-free medium containing 1 mM EGTA also blocked phase I but in contrast with other drugs enhanced phase II. The release during phase I is subject to presynaptic feedback modulation, since the alpha 2-adrenoceptor agonist xylazine (3 microM) inhibited the DMPP-evoked stimulation of [3H]noradrenaline release, that inhibition was antagonized by a selective alpha 2-adrenoceptor antagonist, (+/-)-[7,8-(methylenedioxy)-14-alpha-hydroxyalloberbane hydrochloride [(+/-)-CH-38083] (2 microM). (+/-)-CH-38083 (2 microM) alone significantly enhanced the DMPP-evoked increase of [3H]noradrenaline release. Phase II was not effected by alpha 2-adrenergic drugs. Whereas the noradrenaline uptake blockers despramine (DMI, 1-10 microM), nisoxetine (1-10 microM), and nomifensine (10 microM) inhibited both phases, nomifensine at a concentration of 1 microM selectively blocked only phase II. Our data indicate that DMPP has a dual effect on the hippocampal noradrenaline release: phase I is a transient, nicotinic receptor-mediated exocytotic release, and phase II is a maintained, carrier-mediated process

In the present study we investigated the effect of different nicotinic agonists (dimethylphenyl-piperazinium-iodide (DMPP), (-)nicotine, cytisine, (-)-lobeline, and (-)epibatidine) and antagonists (mecamylamine and dihydro-beta-erythroidine) on the release of [3H]5-HT from hippocampal slices. The nicotinic agonists DMPP and lobeline and electrical field stimulation, released [3H]5-HT from the hippocampus; other nicotinic agonists, such as (-)-nicotine, cytisine, and (-)-epibatidine had no effect. Unlike lobeline-induced release of [3H]5-HT, the effect of DMPP (10 and 40 microM) was antagonized by mecamylamine (20 and 10 microM). The effect of DMPP was [Ca2+]o-independent. In experiments carried out at 7 degrees C, i.e. the membrane carrier proteins are inhibited and the release by lobeline was abolished while the DMPP-induced release of 5-HT was rather potentiated. It is proposed that the effect of DMPP and lobeline, to enhance the release of [3H]5-HT from the hippocampus, was mediated by two different mechanisms. While DMPP-induced 5-HT release can be linked to a non-classical nAChR activation ([Ca2+]o-independence), the effect of lobeline was likely mediated by uptake carriers

We compared the levels of amino acids in the free pool in 6 regions (cerebral cortex, olfactory bulb, substantia nigra, globus pallidus, caudate nucleus, and spinal cord) in the newborn rat brain. The amino acid distribution was heterogeneous, with the area of highest concentration containing 2-3 fold as much as the lowest area. These differences were considerably less than those previously found for adult brain. Although some areas often contained high levels of amino acids, and others mostly low levels, the distribution of the various amino acids was highly variable. This heterogeneity of distribution in the newborn brain was different from that in the adult brain. We conclude that there is significant heterogeneity of amino acid distribution, that it is different for each amino acid, and that it undergoes major changes during development

Ibogaine, an indole alkaloid with proposed antiaddictive properties, has structural similarity to serotonin and has been shown to have affinity to the kappa-opioid binding site. In addition to the dopamine system, the serotonin system is a major target for cocaine action and the opioid system can affect the serotonin system. Therefore, the present study examined the effect of ibogaine on cocaine-induced, electrically evoked efflux of [3H]dopamine and [3H]serotonin from striatal tissue incubated in vitro, and their modulation by the kappa-opioid system. Cocaine (10(-6) M) added in vitro increased tthe fractional efflux of both [3H]dopamine (FRS2/FRS1 = 2.42 +/- 0.36) and [3H]serotonin (FRS2/FRS1 = 1.31 +/- 0.06). Mice treated in vivo with ibogaine (40 mg/kg or 2 times 40 mg/kg, IP) and killed 2 or 18 h later still showed the cocaine-induced increase in [3H]dopamine, but [3H]serotonin efflux was not increased. The 5-HTIB agonist CGS-12066A (10(-6) M, added in vitro) increased [3H]dopamine release, but did not alter cocaine-induced efflux of [3H]dopamine. CGS-12066A did not affect [3H]serotonin release, but the cocaine-induced increase in [3H]serotonin was inhibited. CGS-12066A (1 mg/kg, SC) potentiated cocaine (25 mg/kg, SC)-induced locomotor activity. Ibogaine pretreatment reduced both the cocaine and the CGS-12066A cocaine-induced increase in locomotor activity. The kappa-opioid agonist U-62066 (10(-6) M, added in vitro) reduced both [3H] dopamine and [3H]serotonin release. This inhibitory effect was blocked by in vivo administration ibogaine. U-62066 did not alter cocaine-induced [3H]dopamine efflux, but reduced cocaine-induced [3H]serotonin efflux. In striatal tissue from ibogaine-pretreated mice, U-62066 restored the cocaine-induced increase in [3H]serotonin release. U-62066 (1 mg/kg, SC) potentiated cocaine-induced behavior and maintained an increased locomotor activity after ibogaine treatment. The results suggest that ibogaine may block the cocainemediated effects on serotonergic transmission, that subsequently modulate dopamine release. The kappa-opioid modulation of serotonergic transmission is also involved

The effect of 7-nitroindazole (7-NI), an inhibitor of neuronal nitric oxide synthase (nNOS) on the dimethylphenylpiperazinium(DMPP)-evoked release of [3H]noradrenaline ([3H]NA) from rat hippocampal slices was studied. The effect of DMPP (20 microM) to increase the basal release of [3H]NA was significantly potentiated by 7-NI (40 microM). In our previous study we showed that the response to DMPP has two components, a nicotinic receptor-mediated, [Ca2+]-dependent exocytosis followed by a [Ca2+]-independent, uptake blocker-sensitive carrier-mediated release. To clarify which part of the response was affected by the inhibition of nNOS, we investigated the effect of 7-NI on the nicotine-evoked NA release (nicotine has only receptor-mediated effect) and on the DMPP-evoked NA release in Ca(2+)-free medium where the receptor-mediated component is abolished. Nicotine (100 microM) significantly increased the basal release of [3H]NA but this release was not affected, whereas in Ca(2+)-free medium the response to DMPP (20 microM) was still potentiated by 7-NI (40 microM). In the presence of the NA uptake blocker desipramine (10 microM) DMPP (20 microM) was unable to provoke NA release independently from the presence or absence of 7-NI (40 microM). Our data show that 7-NI influences the carrier-mediated component of DMPP-evoked [3H]NA release, which indicates that nitric oxide produced by nNOS may play a role in the regulation of the NA uptake carrier

We examined the cerebral metabolism of L-deprenyl and its fluoro-derivative pF-deprenyl, assaying the parent compounds, their metabolites desmethyl deprenyl, L-amphetamine, and L-methamphetamine, and the fluoro analogs of these metabolites. We compared the levels of the metabolites after subcutaneous injection with those after intracerebral administration (via microdialysis) of the parent compounds. The assay of the parent compounds and their metabolites was by GC-MS measurement of the components of brain microdialysate samples. After their subcutaneous administration, deprenyl and F-deprenyl rapidly entered the brain and then their concentration decreased, with an approximate half-life of 4.5 h. After the intracerebral administration the diffusion from the site of administration was minor. A small fraction (a few percent) of the intracerebrally administered deprenyl was metabolized in situ in the brain possibly by a nonenzymatic process. Metabolism of pF-deprenyl was somewhat more rapid. The higher cerebral levels of metabolites after the subcutaneous administration indicate their exogenous origin-metabolism of parent compounds in the periphery and penetration of the brain by the metabolites