Elliott Richelson

Properties of monoamine oxidase in mouse neuroblastoma N1E-115 cells.

Abstract Monoamine oxidase (MAO) from adrenergic mouse neuroblastoma N1E-115 cells was compared to MAO found in rat and mouse brain, rat superior cervical ganglion, and human platelet. In comparison to MAO from brain and ganglion, mouse neuroblastoma MAO deaminated 5-hydroxytryptamine (5-HT) to a proportionately greater extent than all other substrates studied, with benzylamine deamination representing only 1 per cent that of 5-HT. Neuroblastoma MAO was over 1000 times more sensitive to inhibition by clorgyline than by deprenyl. With increasing concentrations of clorgyline, inhibition of tyramine deamination was represented by a simple sigmoid curve, suggesting the presence of primarily one form of MAO. Our results are consistent with evidence for a specific form of MAO associated with sympathetic neurons and suggest that neutoblastoma N1E-115 cells are highly enriched in MAO type A.

Antidepressant-Like Pharmacological Profile of a Novel Triple Reuptake Inhibitor, (1S,2S)-3-(Methylamino)-2-(naphthalen-2-yl)-1-phenylpropan-1-ol (PRC200-SS)

Due to the putative involvement of dopaminergic circuits in depression, triple reuptake inhibitors are being developed as a new class of antidepressant, which is hypothesized to produce a more rapid onset and better efficacy than current antidepressants selective for serotonin or norepinephrine neurotransmission. (1S,2S)-3-(Methylamino)-2-(naphthalen-2-yl)-1-phenylpropan-1-ol (PRC200-SS), a new triple reuptake inhibitor, potently bound to the human serotonin, norepinephrine, and dopamine transporters with Kd values of 2.3, 0.63, and 18 nM, respectively. Inhibition of serotonin, norepinephrine, and dopamine uptake by PRC200-SS was also shown in cells expressing the corresponding transporter (Ki values of 2.1, 1.5, and 61 nM, respectively). In vivo, PRC200-SS dose-dependently decreased immobility in the forced-swim test in rats and in the tail-suspension test in mice, models predictive of antidepressant activity, with effects comparable with imipramine. These results in the behavioral models did not seem to result from the stimulation of locomotor activity. Consistent with the in vitro data and behavioral effects, peripheral administration of PRC200-SS (5 and 10 mg/kg i.p.) significantly increased extracellular levels of serotonin and norepinephrine in the medial prefrontal cortex, and of serotonin and dopamine in the core of nucleus accumbens, with reduction of levels of 3,4-dihydroxyphenylacetic acid, homovanillic acid, and 5-hydroxyindoleacetic acid compared with levels for saline control. Furthermore, PRC200-SS self-administration, which was used as a marker of abuse liability, was not observed with rats. Therefore, it seems that PRC200-SS may represent a novel triple reuptake inhibitor and possess antidepressant activity.

SUBSTRATE AND INHIBITOR-RELATED CHARACTERISTICS OF MONOAMINE OXIDASE IN C6 RAT GLIAL CELLS

Cultured C6 rat glial cells preferentially deaminated 5‐hydroxytryptamine, tryptamine, dopamine and tyramine in comparison to phenylethylamine and benzylamine. Deamination of all substrates was uniformly sensitive to inhibition by clorgyline and relatively insensitive to deprenyl. These data together with the observations of simple sigmoid curves for the inhibition of tyramine deamination by both inhibitors suggest that C6 glial cells contain mainly monoamine oxidase type A, which previously had been suggested to be primarily an intraneuronal MAO type. As these findings are in agreement with other studies of brain MA0 activity in mitochondria separated from neuronal vs glial cell preparations, they help explain why MA0 activity measured with some substrates may be little affected by lesions or by drugs producing nerve ending degeneration.

Neurotensin agonists: Potential in the treatment of schizophrenia

Neurotensin (NT) is a neuropeptide that, for decades, has been implicated in the biology of schizophrenia. It is closely associated with, and is thought to modulate, dopaminergic and other neurotransmitter systems involved in the pathophysiology of various neuropsychiatric diseases, including schizophrenia.This review outlines the neurochemistry and function of the NT system and the data implicating its role in schizophrenia. The data suggest that NT receptor agonists have the potential to be used as novel therapeutic agents for the treatment of schizophrenia, with the added benefits of (i) not causing weight gain, an adverse effect that is problematic with some of the currently used atypical antipsychotic drugs; and (ii) helping patients to stop smoking, a behaviour that is highly prevalent in those with schizophrenia.

Analgesic synergy of neurotensin receptor subtype 2 agonist NT79 and morphine.

Neurotensin (NT) is a tridecapeptide with naloxone-independent analgesic action. NT exerts its effects through three molecularly cloned receptor subtypes, NTS1, NTS2, and NTS3. The analgesic efficacy of NT agonists depends on their activation of NTS1 and/or NTS2. NT79 is an NTS2-selective agonist without hypothermic and hypotensive effects, produces analgesic effects in animal models of visceral (writhing), but not thermal (hot plate) pain. This study extends previous study with NT79 to test its efficacy in an animal model of persistent pain (formalin test) and to determine whether there is analgesic synergy between NT79 and morphine on visceral and persistent pain. NT79 enhanced the analgesic potency of morphine in the writhing test. In the persistent pain model, NT79 and morphine attenuated formalin-induced lifting and biting during the inflammatory phase. NT79 and morphine alone significantly blocked the lifting but not the biting response, which involves the activity of spinal nociceptive circuits. However, the combination of NT79 and morphine attenuated both lifting and biting responses, results indicating both spinal and supraspinal modulation of persistent nociception. Isobolographic analyses show analgesic synergism between NT79 and morphine in persistent pain, thus providing a promise of therapy for pain while minimizing adverse effects associated with morphine use.

A microwell assay method for the biochemical study of cultured cells

Abstract Methods for the study of transport and enzyme activity in replicate populations of cells cultured in microwells have been presented. In addition to being rapid and reproducible, the methods are economical with respect to time and money. Evidence for the reproducibility and effectiveness of the methods has been reported along with some results from our transport studies to further illustrate the procedures.

Sensorimotor gating in NTS1 and NTS2 null mice: effects of d-amphetamine, dizocilpine, clozapine and NT69L.

SUMMARY Pre-pulse inhibition (PPI) of the acoustic startle reflex is deficient in patients with schizophrenia. This deficiency is mimicked in mice by the use of the psychotomimetic drugs d-amphetamine and dizolcipine. Antipsychotic drugs such as clozapine are used to treat schizophrenic patients and are also administered to mice to prevent PPI disruption. Neurotensin (NT) produces antipsychotic-like effects when injected into rodent brain through its effects at NT subtype 1 (NTS1) and 2 (NTS2) receptors. We hypothesized that the NT receptor agonist (NT69L) would prevent PPI disruption in mice challenged with d-amphetamine (10 mg kg–1) and dizocilpine (1 mg kg–1). We investigated the role of NTS1 and NTS2 in PPI using wild-type (WT), NTS1 (NTS1–/–) and NTS2 (NTS2–/–) knockout mice, via its disruption by psychotomimetic drugs, as well as the ability of clozapine and NT69L to block these PPI disruptions. There were no differences in baseline PPI across the three genotypes. d-Amphetamine and dizocilpine disrupted PPI in WT and NTS2–/– mice but not in NTS1–/– mice. In WT mice, clozapine (1 mg kg–1) and NT69L (1 mg kg–1) significantly blocked d-amphetamine-induced disruption of PPI. Similarly, in WT mice, clozapine significantly blocked dizocilpine-induced PPI disruption, but NT69L did not. In NTS2–/– mice clozapine blocked d-amphetamine-but not dizocilpine-induced PPI disruption, while NT69L blocked both d-amphetamine- and dizocilpine-induced PPI disruption. Our results indicate that NTS1 seems essential for d-amphetamine and dizocilpine disruption of PPI. Additionally, this report provides support to the hypothesis that NT analogs could be used as novel antipsychotic drugs.

Novel Therapy for Nicotine Addiction in Alcohol Dependent Rats

Background: NT69L, a non-selective neurotensin agonist, provides a potential novel therapy for nicotine addiction in alcoholics by interacting with the common neurotransmitter circuits supporting the rewarding process for both nicotine and alcohol. Considering the behavioral effects of NT69L in attenuating nicotine self-administration in rats and alcohol consumption in mice, this study was designed to assess the effects of NT69L on nicotine self-administration in alcoholdependent rats. nMethods: Wistar rats pre-exposed to alcohol vapor or air were allowed to self-infuse nicotine (0.03 mg/kg/infusion) or saline. When the rats reached a stable level of responding, the effect of pretreatment with NT69L (1 mg/kg i.p.) on the reinforcing effect of nicotine was determined. The effect of NT69L on withdrawal signs caused by the discontinuation of nicotine and alcohol were recorded. Additionally, the effect of NT69L on dopamine and glutamate in the nucleus accumbens of rats that were co-injected with nicotine (0.5 mg/kg s.c.) and alcohol (1 g/kg i.p.) was determined with the use of in vivo microdialysis with HPLC and capillary electrophoresis. nResults: Animals self-infused nicotine at a significantly (P<0.05) higher rate compared to saline in both air and alcohol vapor exposed groups. Acute treatment with a single injection of NT69L significantly (P<0.05) reduced nicotine self-infusion in both the alcohol vapor and the air exposed groups for 5 days post-injection. NT69L also reduced the withdrawal signs associated with the discontinuation of alcohol and nicotine administration. Additionally, NT69L attenuated the alcohol- and nicotine-induced increase in dopamine and glutamate in the nucleus accumbens. nConclusion: NT agonists may represent a potential novel therapy to treat alcohol and nicotine addiction simultaneously by modulating dopamine and glutamate.

Design, synthesis and pharmacological evaluation of active pyrrole based, nonpeptidic analogues of neurotensin(8-13)

We report the design, synthesis and pharmacological analysis of pyrrole based, nonpeptidic analogues of neurotensin(8-13) for testing further our reported multiple template approach to developing nonpeptidic mimetics of neuropeptides and for developing nonpeptidic mimetics of neurotensin(8-13) as potential drug candidates for the treatments of neuropsychiatric diseases such as schizophrenia and Parkinson’s disease. Three newly synthesized pyrrole analogues (mimics-4, -5 and -6) designed by the multiple template approach have been found to be more active in binding to the neurotensin receptor than the previously reported indole based mimics-1 and -2, which are a partial nonpeptidic antagonist and an agonist of neurotensin(8-13), respectively. The results support the theory of the multiple template approach and provide insights into the rational design of more potent neurotensin mimetics and into the library design for rational screening for effective nonpeptide compounds by combinatorial chemistry.

Neurotensin Agonist Attenuates Nicotine Potentiation to Cocaine Sensitization

Tobacco usage typically precedes illicit drug use in adolescent and young adult populations. Several animal studies suggest nicotine increases the risk for subsequent cocaine abuse, and may be a negative prognostic factor for treatment of cocaine addiction; i.e., a “gateway drug”. Neurotensin (NT) is a 13-amino acid neuropeptide that modulates dopamine, acetylcholine, glutamate, and GABA neurotransmission in brain reward pathways. NT69L, a NT(8-13) analog, blocks behavioral sensitization (an animal model for psychostimulant addiction) to nicotine, and nicotine self-administration in rats. The present study tested the effect of NT69L on the potentiating effects of nicotine on cocaine-induced locomotor sensitization. Male Wistar rats were injected daily for seven days with nicotine or saline (control) followed by four daily injections of cocaine. NT69L was administered 30 min prior to the last cocaine injection. Behavior was recorded with the use of activity chambers. Subchronic administration of nicotine enhanced cocaine-induced behavioral sensitization in Wistar rats, consistent with an hypothesized gateway effect. These behavioral effects of cocaine were attenuated by pretreatment with NT69L. The effect of the neurotensin agonist on cocaine sensitization in the nicotine treated group indicated a possible therapeutic effect for cocaine addiction, even in the presence of enhanced behavioral sensitization induced by nicotine.