使用脑桥刺激作为条件刺激的大鼠的眨眼条件反射。

John H Freeman, Christine A Rabinak
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引用次数: 31

摘要

先前对兔子和雪貂的研究发现,电刺激脑桥核或小脑中脚可以作为条件刺激(CS)在眨眼条件反射中发挥作用(Bao, Chen, & Thompson, 2000;Hesslow, Svensson, & Ivarsson, 1999;斯坦梅茨,1990;斯坦梅茨,拉旺,&汤普森,1985;1989;Steinmetz et al., 1986;Tracy, Thompson, Krupa, & Thompson, 1998)。目前的研究使用电刺激脑桥核作为CS来建立大鼠的眨眼条件反射。本研究的目的是开发一种直接激活啮齿动物CS通路的方法,并比较不同哺乳动物眨眼条件反射的神经回路。大鼠通过植入脑桥核的双极电极与眶周非条件刺激(US)配对给予电刺激。配对训练之后是消隐训练。一组大鼠在接受肌间位前核注入肌醇后进行配对训练。同时给予CS和US两种刺激的大鼠,CRs发展迅速,并表现出灭绝。实验前注射Muscimol可导致眨眼CR的可逆丧失。结果表明,电刺激脑桥核可作为啮齿动物的CS,并且CS途径在大鼠、兔子和雪貂中相似。此外,muscimol失活后cr的损失表明,由脑桥刺激产生的条件反射依赖于小脑机制。
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Eyeblink conditioning in rats using pontine stimulation as a conditioned stimulus.

Previous studies using rabbits and ferrets found that electrical stimulation of the pontine nuclei or middle cerebellar peduncle could serve as a conditioned stimulus (CS) in eyeblink conditioning (Bao, Chen, & Thompson, 2000; Hesslow, Svensson, & Ivarsson, 1999; Steinmetz, 1990; Steinmetz, Lavond, & Thompson, 1985; 1989; Steinmetz et al., 1986; Tracy, Thompson, Krupa, & Thompson, 1998). The current study used electrical stimulation of the pontine nuclei as a CS to establish eyeblink conditioning in rats. The goals of this study were to develop a method for directly activating the CS pathway in rodents and to compare the neural circuitry underlying eyeblink conditioning in different mammalian species. Rats were given electrical stimulation through a bipolar electrode implanted in the pontine nuclei paired with a periorbital shock unconditioned stimulus (US). Paired training was followed by extinction training. A subset of rats was given a test session of paired training after receiving an infusion of muscimol into the anterior interpositus nucleus. Rats given paired presentations of the stimulation CS and US developed CRs rapidly and showed extinction. Muscimol infusion prior to the test session resulted in a reversible loss of the eyeblink CR. The results demonstrate that electrical stimulation of the pontine nuclei can be used as a CS in rodents and that the CS pathway is similar in rats, rabbits, and ferrets. In addition, the loss of CRs following muscimol inactivation shows that the conditioning produced with pontine stimulation depends on cerebellar mechanisms.

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