在获得社会传递的食物偏好期间,海马体和前额皮质中的乙酰胆碱释放。
Acetylcholine release in the hippocampus and prelimbic cortex during acquisition of a socially transmitted food preference.
机构信息
Department of Psychology, University of Illinois at Urbana-Champaign, Champaign, IL 61820, USA.
出版信息
Neurobiol Learn Mem. 2011 Oct;96(3):498-503. doi: 10.1016/j.nlm.2011.08.004. Epub 2011 Aug 30.
Interference with cholinergic functions in hippocampus and prefrontal cortex impairs learning and memory for social transmission of food preference, suggesting that acetylcholine (ACh) release in the two brain regions may be important for acquiring the food preference. This experiment examined release of ACh in the hippocampus and prefrontal cortex of rats during training for social transmission of food preference. After demonstrator rats ate a food with novel flavor and odor, a social transmission of food preference group of rats was allowed to interact with the demonstrators for 30 min, while in vivo microdialysis collected samples for later measurement of ACh release with HPLC methods. A social control group observed a demonstrator that had eaten food without novel flavor and odor. An odor control group was allowed to smell but not ingest food with novel odor. Rats in the social transmission but not control groups preferred the novel food on a trial 48 h later. ACh release in prefrontal cortex, with probes that primarily sampled prelimbic cortex, did not increase during acquisition of the social transmission of food preference, suggesting that training-initiated release of ACh in prelimbic cortex is not necessary for acquisition of the food preference. In contrast, ACh release in the hippocampus increased substantially (200%) upon exposure to a rat that had eaten the novel food. Release in the hippocampus increased significantly less (25%) upon exposure to a rat that had eaten normal food and did not increase significantly in the rats exposed to the novel odor; ACh release in the social transmission group was significantly greater than that of the either of the control groups. Thus, ACh release in the hippocampus but not prelimbic cortex distinguished well the social transmission vs. control conditions, suggesting that cholinergic mechanisms in the hippocampus but not prelimbic cortex are important for acquiring a socially transmitted food preference.
海马体和前额叶皮质中的胆碱能功能干扰会损害对食物偏好的社会传递的学习和记忆,这表明这两个脑区的乙酰胆碱 (ACh) 释放可能对获得食物偏好很重要。本实验研究了在社交传递食物偏好的训练过程中大鼠海马体和前额叶皮质中 ACh 的释放。在示教大鼠吃了具有新颖味道和气味的食物后,允许社交传递食物偏好组的大鼠与示教大鼠互动 30 分钟,同时通过活体微透析收集样本,以后用 HPLC 方法测量 ACh 的释放。社交对照组观察了吃了没有新颖味道和气味的食物的示教大鼠。气味对照组被允许闻但不摄入具有新颖气味的食物。在 48 小时后的试验中,社交传递组而非对照组的大鼠更喜欢新颖食物。在社交传递而非控制组中,在获得食物偏好的过程中,前额叶皮质中的 ACh 释放没有增加,这表明训练引发的前扣带回皮层中的 ACh 释放对于获得食物偏好不是必需的。相比之下,当暴露于已经吃了新奇食物的大鼠时,海马体中的 ACh 释放会显著增加(200%)。当暴露于吃了正常食物的大鼠或暴露于新奇气味的大鼠时,海马体中的 ACh 释放增加幅度较小(25%);社交传递组的 ACh 释放显著高于对照组中的任何一组。因此,海马体而非前扣带回皮层中的 ACh 释放很好地区分了社交传递与对照条件,这表明海马体中的胆碱能机制而非前扣带回皮层中的胆碱能机制对于获得社交传递的食物偏好很重要。
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