Svarnik Olga E, Bulava Alexandra I, Alexandrov Yuri I
V.B. Shvyrkov Laboratory of Neural Bases of Mind, Institute of Psychology of Russian Academy of Sciences Moscow, Russia ; Laboratory of Systems Neurophysiology and Neuronal Interfaces, Neuroscience Department, Kurchatov NBICS-Center Moscow, Russia.
Front Behav Neurosci. 2013 Jul 4;7:78. doi: 10.3389/fnbeh.2013.00078. eCollection 2013.
Learning is known to be accompanied by induction of c-Fos expression in cortical neurons. However, not all neurons are involved in this process. What the c-Fos expression pattern depends on is still unknown. In the present work we studied whether and to what degree previous animal experience about Task 1 (the first phase of an instrumental learning) influenced neuronal c-Fos expression in the retrosplenial cortex during acquisition of Task 2 (the second phase of an instrumental learning). Animals were progressively shaped across days to bar-press for food at the left side of the experimental chamber (Task 1). This appetitive bar-pressing behavior was shaped by nine stages ("9 stages" group), five stages ("5 stages" group) or one intermediate stage ("1 stage" group). After all animals acquired the first skill and practiced it for five days, the bar and feeder on the left, familiar side of the chamber were inactivated, and the animals were allowed to learn a similar instrumental task at the opposite side of the chamber using another pair of a bar and a feeder (Task 2). The highest number of c-Fos positive neurons was found in the retrosplenial cortex of "1 stage" animals as compared to the other groups. The number of c-Fos positive neurons in "5 stages" group animals was significantly lower than in "1 stage" animals and significantly higher than in "9 stages" animals. The number of c-Fos positive neurons in the cortex of "9 stages" animals was significantly higher than in home caged control animals. At the same time, there were no significant differences between groups in such behavioral variables as the number of entrees into the feeder or bar zones during Task 2 learning. Our results suggest that c-Fos expression in the retrosplenial cortex during Task 2 acquisition was influenced by the previous learning history.
已知学习过程伴随着皮质神经元中c-Fos表达的诱导。然而,并非所有神经元都参与这一过程。c-Fos表达模式取决于什么仍然未知。在本研究中,我们探究了先前动物在任务1(工具性学习的第一阶段)中的经历是否以及在何种程度上影响了在任务2(工具性学习的第二阶段)获取过程中脾后皮质中神经元c-Fos的表达。动物在数天内逐渐被训练在实验箱左侧按压杠杆获取食物(任务1)。这种食欲性的按压杠杆行为通过九个阶段(“9阶段”组)、五个阶段(“5阶段”组)或一个中间阶段(“1阶段”组)进行塑造。在所有动物掌握了第一项技能并练习五天后,将实验箱左侧熟悉一侧的杠杆和喂食器停用,然后让动物在实验箱的另一侧使用另一对杠杆和喂食器学习类似的工具性任务(任务2)。与其他组相比,在“1阶段”动物的脾后皮质中发现的c-Fos阳性神经元数量最多。“5阶段”组动物中c-Fos阳性神经元的数量显著低于“1阶段”动物,且显著高于“9阶段”动物。“9阶段”动物皮质中c-Fos阳性神经元的数量显著高于笼养对照动物。同时,在任务2学习期间,各组在进入喂食器或杠杆区域的次数等行为变量上没有显著差异。我们的结果表明,任务2获取过程中脾后皮质中的c-Fos表达受先前学习经历的影响。
