Astrocytes contribute to the functional differentiation of the hippocampal longitudinal axis during reward and aversion processing in the adult male rat
Amir Rezagholizadeh , Amir Shojaei , Narges Hosseinmardi , Javad Mirnajafi-Zadeh , Kristi Anne Kohlmeier , Yaghoub Fathollahi
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引用次数: 0
Abstract
This study aims to investigate whether glial cells, in particular putative astrocytes, contribute to functional distinctions between the dorsal (DH), intermediate (IH), and ventral (VH) hippocampus. To evaluate this, we performed three different behavioral tasks (i.e., Morris water maze; MWM, Passive avoidance; PA, T-maze place preference; TPP) to determine whether the DH, IH, and VH are necessary for each task. Sensitivity of behavioral tasks was confirmed using lidocaine (2 %, 1 μl) reversible inactivation. Subsequently, we examined the effects of silencing astrocytes, using fluorocitrate (FC, 1 mM/1 μl), into the DH, IH, and VH on these tasks. The effects of drugs were examined separately. We observed that injection of FC into the DH resulted in a significant impairment in MWM performance. In contrast, while FC injections into the IH or VH did not prevent platform localization during the acquisition phase, rats showed difficulty recalling the target zone during the retrieval phase. In the PA test, FC injection into the VH impaired task learning and memory. During the acquisition phase, FC injection into the DH or IH did not differ from the control in the number of shocks; however, during retrieval, there was a significant decrease in the latency before entering the dark chamber. The TPP test performance was impaired by FC injection in the IH. In sum, we show that glial cells, especially astrocytes in specific functional regions of the hippocampus, play distinct roles in processing aversive and rewarding experiences and contribute to the functional organization of the hippocampal longitudinal axis.
本研究旨在探讨神经胶质细胞(尤其是假定星形胶质细胞)是否有助于区分背侧(DH)、中间(IH)和腹侧(VH)海马的功能。为了评估这一点,我们进行了三种不同的行为任务(即莫里斯水迷宫(Morris water maze; MWM)、被动回避(Passive avoidance; PA)和T迷宫位置偏好(T-maze place preference; TPP)),以确定DH、IH和VH是否为每种任务所必需。利多卡因(2 %,1 μl)可逆性失活证实了行为任务的敏感性。随后,我们使用柠檬酸氟(FC,1 mM/1 μl)检测了在 DH、IH 和 VH 中沉默星形胶质细胞对这些任务的影响。我们对药物的影响进行了单独研究。我们观察到,向 DH 注射 FC 会导致 MWM 成绩明显下降。相反,虽然向 IH 或 VH 注射 FC 并不妨碍大鼠在习得阶段进行平台定位,但大鼠在检索阶段却很难回忆起目标区域。在 PA 测试中,向 VH 注射 FC 会损害任务学习和记忆。在获得阶段,向DH或IH注射FC在冲击次数上与对照组没有差异;但在检索阶段,大鼠进入暗室前的潜伏期显著缩短。在 IH 注射 FC 会影响 TPP 测试成绩。总之,我们的研究表明,神经胶质细胞,尤其是海马特定功能区的星形胶质细胞,在处理厌恶和奖励体验时发挥着不同的作用,并对海马纵轴的功能组织做出了贡献。
期刊介绍:
Neuroscience publishes papers describing the results of original research on any aspect of the scientific study of the nervous system. Any paper, however short, will be considered for publication provided that it reports significant, new and carefully confirmed findings with full experimental details.