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S 16924((R)-2-[1-[2-(2,3-二氢-苯并[1,4]二氧杂环己烯-5-基氧基)-乙基]-吡咯烷-3-基]-1-(4-氟-苯基)-乙酮),一种具有显著5-羟色胺(5-HT)1A激动剂特性的新型潜在抗精神病药物:II. 与氯氮平和氟哌啶醇相比的功能概况。

S 16924 ((R)-2-[1-[2-(2,3-dihydro-benzo[1,4] dioxin-5-yloxy)-ethyl]-pyrrolidin-3yl]-1-(4-fluoro-phenyl)-ethanone), a novel, potential antipsychotic with marked serotonin (5-HT)1A agonist properties: II. Functional profile in comparison to clozapine and haloperidol.

作者信息

Millan M J, Schreiber R, Dekeyne A, Rivet J M, Bervoets K, Mavridis M, Sebban C, Maurel-Remy S, Newman-Tancredi A, Spedding M, Muller O, Lavielle G, Brocco M

机构信息

Institut de Recherches Servier, Centre de Recherches de Croissy, Psychopharmacology Department, 125, Chemin de Ronde, 78290-Croissy-sur-Seine, Paris, France.

出版信息

J Pharmacol Exp Ther. 1998 Sep;286(3):1356-73.

PMID:9732399
Abstract

S 16924 antagonized locomotion provoked by dizocilpine and cocaine, reduced conditioned avoidance responses and blocked climbing elicited by apomorphine, models predictive of control of the positive symptoms of schizophrenia: its median inhibitory dose (ID)50 was 0.96 mg/kg, s.c. vs. 1.91 for clozapine and 0.05 for haloperidol. Rotation elicited in unilateral, substantia nigra-lesioned rats by the D1 agonist, SKF 38393, and by the D2 agonist, quinpirole, was blocked equipotently by S 16924 (0.8 and 1. 7) and clozapine (0.6 and 2.0), whereas haloperidol preferentially blocked quinpirole (0.02) vs. SKF 38393 (1.8). S 16924 more potently inhibited the head-twitches elicited by 1-(2, 5-dimethoxy-4-iodophenyl)-2-aminopropane (DOI) and the locomotion provoked by phencyclidine than it inhibited the locomotion elicited by amphetamine (ID50s = 0.15 and 0.02 vs. 2.4). Clozapine showed a similar preference (0.04 and 0.07 vs. 8.6), but not haloperidol (0. 07 and 0.08 vs. 0.04). The discriminative stimulus (DS) properties of DOI were also blocked by S 16924 (ID50 = 0.17) and clozapine (0. 05) but not by haloperidol (>0.16). S 16924 fully (100%) generalized [effective dose (ED)50 = 0.7] to a clozapine DS and clozapine (0.23) fully generalized to a S 16924 DS whereas haloperidol (>/=0.08) only partially generalized (</=50%) to their DS in each case. Power spectra analysis of electroencephalograms from frontal cortex showed that both S 16924 (2.0) and clozapine (5.0) reinforced frequencies in the 7 to 8 Hz range whereas haloperidol (0.5) preferentially reinforced frequencies in the 10 to 14 Hz range. In a model of perturbation of cognitive-attentional function, significant latent inhibition was obtained with S 16924 (0.08) and clozapine (0.16), but not haloperidol (0.0063 and 0.04): higher doses of S 16924 (2.5), clozapine (5.0) and haloperidol (0.1) all blocked disruption of latent inhibition by amphetamine (1.5). Catalepsy was provoked by haloperidol (0.04-0.63) but not by S 16924 (>/=80.0) or clozapine (>/=80.0). Further, S 16924 (ID50 = 3.2) and clozapine (5.5) inhibited induction of catalepsy by haloperidol. This action of S 16924 was abolished by the 5-HT1A receptor antagonist, WAY 100,635 (0.16), which less markedly attenuated the anticataleptic action of clozapine. Further, although gnawing elicited by methylphenidate was inhibited by S 16924 (ID50 = 8.4), clozapine (19.6) and haloperidol (0.04), only the action of S 16924 was blocked by WAY 100,635 (0.16). Haloperidol potently (0.01-0.16, approximately 24-fold) increased prolactin levels whereas they were less markedly affected by S 16924 (2.5-40.0, 4-fold) and clozapine (10.0-40.0, 3-fold). Clozapine displayed high affinity at cloned, human, muscarinic (M1) and native, histamine (H1) receptors (Kis = 4.6 and 5.4 nM, respectively), whereas S 16924 (>1000 and 158) and haloperidol (>1000 and 453) displayed low affinity. In conclusion, S 16924 displays a profile of activity in diverse models of potential antipsychotic and extrapyramidal properties similar to that of clozapine and different to that of haloperidol. In particular, reflecting its partial agonist actions at 5-HT1A receptors, S 16924 inhibits rather than induces catalepsy in rats. However, in contrast to clozapine, S 16924 displays only low affinity for muscarinic and histaminic receptors.

摘要

S 16924可拮抗地佐环平与可卡因引发的运动,减少条件性回避反应,并阻断阿扑吗啡引发的攀爬行为,这些模型可预测对精神分裂症阳性症状的控制:其半数抑制剂量(ID)50为0.96mg/kg,皮下注射,而氯氮平为1.91,氟哌啶醇为0.05。D1激动剂SKF 38393和D2激动剂喹吡罗在单侧黑质损伤大鼠中引发的旋转行为,被S 16924(0.8和1.7)和氯氮平(0.6和2.0)等效阻断,而氟哌啶醇对喹吡罗(0.02)的阻断作用优于对SKF 38393(1.8)的阻断作用。S 16924比抑制苯丙胺引发的运动更有效地抑制1-(2,5-二甲氧基-4-碘苯基)-2-氨基丙烷(DOI)引发的头部抽搐和苯环利定引发的运动(ID50分别为0.15和0.02,而苯丙胺为2.4)。氯氮平表现出类似的偏好(0.04和0.07,而苯丙胺为8.6),但氟哌啶醇没有(0.07和0.08,而苯丙胺为0.04)。DOI的辨别刺激(DS)特性也被S 16924(ID50 = 0.17)和氯氮平(0.05)阻断,但未被氟哌啶醇阻断(>0.16)。S 16924完全(100%)泛化[有效剂量(ED)50 = 0.7]至氯氮平DS,氯氮平(0.23)完全泛化至S 16924 DS,而氟哌啶醇(> /= 0.08)在每种情况下仅部分泛化(</= 50%)至其DS。额叶皮质脑电图的功率谱分析表明,S 16924(2.0)和氯氮平(5.0)均增强7至8Hz范围内的频率,而氟哌啶醇(0.5)优先增强10至14Hz范围内的频率。在认知-注意力功能扰动模型中,S 16924(0.08)和氯氮平(0.16)可产生显著的潜伏抑制,但氟哌啶醇不能(0.0063和0.04):更高剂量的S 16924(2.5)、氯氮平(5.0)和氟哌啶醇(0.1)均可阻断苯丙胺(1.5)对潜伏抑制的破坏。氟哌啶醇(0.04 - 0.63)可引发僵住症,但S 16924(> /= 80.0)或氯氮平(> /= 80.0)不会。此外,S 16924(ID50 = 3.2)和氯氮平(5.5)可抑制氟哌啶醇诱导的僵住症。S 16924的这一作用被5-HT1A受体拮抗剂WAY 100,635(0.16)消除,而该拮抗剂对氯氮平抗僵住症作用的减弱作用不明显。此外,虽然哌醋甲酯引发的啃咬行为被S 16924(ID50 = 8.4)、氯氮平(19.6)和氟哌啶醇(0.04)抑制,但只有S 16924的作用被WAY 100,635(0.16)阻断。氟哌啶醇可强效(0.01 - 0.16,约24倍)升高催乳素水平,而S 16924(2.5 - 40.0,4倍)和氯氮平(10.0 - 40.0,3倍)对其影响较小。氯氮平对克隆的人毒蕈碱(M1)受体和天然组胺(H1)受体具有高亲和力(Kis分别为4.6和5.4 nM),而S 16924(>1000和158)以及氟哌啶醇(>1000和453)具有低亲和力。总之,S 16924在多种潜在抗精神病和锥体外系特性模型中的活性谱与氯氮平相似,与氟哌啶醇不同。特别是,S 16924在5-HT1A受体上表现出部分激动剂作用,可抑制而非诱导大鼠的僵住症。然而,与氯氮平相比,S 16924对毒蕈碱和组胺受体仅表现出低亲和力。

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