Norzotepine, a Major Metabolite of Zotepine, Exerts Atypical Antipsychotic-Like and Antidepressant-Like Actions through Its Potent Inhibition of Norepinephrine Reuptake

Shobo, Miwako; Yamada, Hiroshi; Mihara, Takuma; Yamamoto, Norio; Katsuoka, Masaaki; Harada, Kensuke; Ni, Keni; Matsuoka, Naoki

doi:10.1124/jpet.110.166264

Cited by 14 publications

(8 citation statements)

References 38 publications

(45 reference statements)

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“…As described previously, 17 methamphetamine (METH)-induced hyperlocomotion was used to determine the appropriate drug doses for the experiments described above. Briefly, mice were administered quetiapine, haloperidol or vehicle 30 min, 8 h or 12 h before METH challenge.…”

Section: Methodsmentioning

confidence: 99%

Unique pharmacological actions of atypical neuroleptic quetiapine: possible role in cell cycle/fate control

Kondo¹,

Tajinda

Colantuoni

et al. 2013

Transl Psychiatry

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Quetiapine is an atypical neuroleptic with a pharmacological profile distinct from classic neuroleptics that function primarily via blockade of dopamine D2 receptors. In the United States, quetiapine is currently approved for treating patients with schizophrenia, major depression and bipolar I disorder. Despite its widespread use, its cellular effects remain elusive. To address possible mechanisms, we chronically treated mice with quetiapine, haloperidol or vehicle and examined quetiapine-specific gene expression change in the frontal cortex. Through microarray analysis, we observed that several groups of genes were differentially expressed upon exposure to quetiapine compared with haloperidol or vehicle; among them, Cdkn1a, the gene encoding p21, exhibited the greatest fold change relative to haloperidol. The quetiapine-induced downregulation of p21/Cdkn1a was confirmed by real-time polymerase chain reaction and in situ hybridization. Consistent with single gene-level analyses, functional group analyses also indicated that gene sets associated with cell cycle/fate were differentially regulated in the quetiapine-treated group. In cortical cell cultures treated with quetiapine, p21/Cdkn1a was significantly downregulated in oligodendrocyte precursor cells and neurons, but not in astrocytes. We propose that cell cycle-associated intervention by quetiapine in the frontal cortex may underlie a unique efficacy of quetiapine compared with typical neuroleptics.

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Section: Methodsmentioning

confidence: 99%

Unique pharmacological actions of atypical neuroleptic quetiapine: possible role in cell cycle/fate control

Kondo¹,

Tajinda

Colantuoni

et al. 2013

Transl Psychiatry

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“…The reserpineinduced hypothermia test is commonly used when developing pharmacological profiles in vivo [17]. Using this model, we evaluated the effect of hypothermia on tumor immune tolerance in vivo.…”

Section: Whole-body Hypothermia Increased Tumor Immune Tolerance In Vivomentioning

confidence: 99%

Hypothermic microenvironment plays a key role in tumor immune subversion

Liu

et al. 2013

International Immunopharmacology

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“…Asia (brand names-Lodopin, Zoleptil, Nipolept) [5]. However, very limited clinical research was done on zotepine.…”

Section: Introductionmentioning

confidence: 99%

“…ZTP acts against dopamine (D2) receptor and serotonin 5-HT2A receptor [5]. ZTP belongs to BCS class II that is practically insoluble in water (0.046 μg/L) and highly lipophilic (log P 5.6) [7].…”

Section: Introductionmentioning

confidence: 99%

Intranasal Zotepine Nanosuspension: intended for improved brain distribution in rats

et al. 2019

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Background Zotepine (ZTP), an antipsychotic drug is well tolerated and particularly effective for treating negative symptoms of psychosis. But is limited by low oral bioavailability caused by substantial first pass metabolism and thereby less amount of drug reaches the brain due to blood brain barrier (BBB). Objectives Since ZTP displays dose dependent side effects, purpose of the contemporary study is to develop zotepine loaded nanosuspension (ZTP-NS) for increased brain targeting in rats at lower doses. Methods ZTP-NS is prepared by two techniques viz., sonoprecipitation (SP) and combination technique (high pressure homogenization preceded by precipitation) by employing various stabilizers. Optimized ZTP-NS was characterized for particle size, solid state, morphology and solubility. In vitro drug release of ZTP and formulations was conducted using Franz diffusion cell. Stability study was performed at different temperature conditions. Pharmacokinetic study was performed in Wistar rats to determine the bioavailability and brain distribution of ZTP after intra-nasal (IN) and intravenous (IV) administration. Histopathology of brain was done after repeated administration of IN ZTP dispersion and NS up to 14 days. Results The optimized ZTP-NS formulated with Pluronic F-127 (0.3%w/v), Hydroxypropyl methyl cellulose E15 (0.3%w/v) and soya lecithin (0.4%w/v) showed particle size of 519.26 ± 10.44 nm & 330.2 ± 12.90 nm and zeta potential of −21.7 ± 1.39 mV and − 18.26 ± 1.64 mV with sonoprecipitation and combination technique respectively. In vitro drug release was high (81.79 ± 3.23%) for ZTP-NS prepared by combination technique. Intranasal NS resulted in high brain concentrations of 8.6 fold (sonoprecipitation) and 10.79-fold hike in AUC 0-24h in contrast to intravenous ZTP solution. Histopathology results reveal no significant changes in brain microscopic images. Conclusion ZTP-NS was successfully developed, characterized and found that nanosuspension is a favorable approach for intranasal delivery of zotepine.

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Norzotepine, a Major Metabolite of Zotepine, Exerts Atypical Antipsychotic-Like and Antidepressant-Like Actions through Its Potent Inhibition of Norepinephrine Reuptake

Cited by 14 publications

References 38 publications

Unique pharmacological actions of atypical neuroleptic quetiapine: possible role in cell cycle/fate control

Unique pharmacological actions of atypical neuroleptic quetiapine: possible role in cell cycle/fate control

Hypothermic microenvironment plays a key role in tumor immune subversion

Intranasal Zotepine Nanosuspension: intended for improved brain distribution in rats

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