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竞争性N-甲基-D-天冬氨酸(NMDA)拮抗剂AP5能诱导大鼠空间工作记忆出现与延迟相关的损伤,但非竞争性拮抗剂MK801则不会。

The competitive NMDA antagonist AP5, but not the non-competitive antagonist MK801, induces a delay-related impairment in spatial working memory in rats.

作者信息

Tonkiss J, Rawlins J N

机构信息

Center for Behavioral Development and Mental Retardation, Boston University School of Medicine, MA 02118.

出版信息

Exp Brain Res. 1991;85(2):349-58. doi: 10.1007/BF00229412.

DOI:10.1007/BF00229412
PMID:1680067
Abstract

Rats were trained to alternate responses on a discrete trial working memory task on a T-maze. In Experiment 1, the rats were then matched for choice accuracy and allocated to three treatment groups. These were: implantation of osmotic minipumps for intraventricular infusion of either (a) 15 mM D-2-amino-5-phosphonopentanoic acid (AP5) or (b) artificial cerebrospinal fluid (VEH); and an unoperated control group (UNOP). In Phase 1 we assessed alternation performance with a minimal delay between responses: the UNOP and VEH rats continued to choose accurately; the AP5 rats showed an impairment of choice accuracy, but recovered over days. In Phase 2 a 20-s delay between responses was enforced, and choice accuracy was assessed following injections either of saline or of Milacemide HCl (10 mg/kg). There was now a severe and enduring impairment of choice accuracy in the AP5 group, but Milacemide injections did not affect performance in any of the treatment groups. In Experiment 2 rats were trained in a similar way, and then given intraperitoneal injections of MK801 or of physiological saline in a within-subjects design and tested for T-maze performance with a minimal or a 20-s delay between responses. In the first Phase, MK801 was given 10-min before behavioural testing commenced; in the second Phase, it was given 28-40 min before behavioural testing commenced. The outcome depended critically on the time between drug injection and testing. There was a significant drug-induced impairment of choice accuracy in both Phases; but in Phase 1 there was no impairment in testing with a minimal retention interval and an impairment with a 20-s retention both retention intervals. We conclude that AP5, but not MK801, interferes with temporary memory storage in a delay-dependent manner.

摘要

大鼠在T型迷宫的离散试验工作记忆任务中接受交替反应训练。在实验1中,然后根据选择准确性将大鼠配对,并分配到三个治疗组。它们分别是:植入渗透微型泵以进行脑室内输注(a)15 mM D-2-氨基-5-膦酰戊酸(AP5)或(b)人工脑脊液(VEH);以及未手术的对照组(UNOP)。在第1阶段,我们在反应之间的延迟最小的情况下评估交替表现:UNOP和VEH大鼠继续准确选择;AP5大鼠表现出选择准确性受损,但数天内恢复。在第2阶段,强制反应之间延迟20秒,并在注射生理盐水或盐酸米拉西胺(10 mg/kg)后评估选择准确性。现在,AP5组的选择准确性出现严重且持久的受损,但米拉西胺注射对任何治疗组的表现均无影响。在实验2中,大鼠以类似方式训练,然后在受试者内设计中腹腔注射MK801或生理盐水,并在反应之间延迟最小或20秒的情况下测试T型迷宫表现。在第一阶段,在行为测试开始前10分钟给予MK801;在第二阶段,在行为测试开始前28-40分钟给予。结果严重取决于药物注射和测试之间的时间。在两个阶段均存在明显的药物诱导的选择准确性受损;但在第1阶段,在最小保留间隔的测试中没有受损,而在20秒保留间隔的测试中受损。我们得出结论,AP5而非MK801以延迟依赖的方式干扰临时记忆存储。

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