应生命科学与技术学院李钰教授邀请,我校兼职博士生导师香港城市大学贺菊方教授将于6月18日来我校开展学术交流,欢迎感兴趣的老师和同学积极参加!
报告题目:大脑记忆开关的发现过程(Discovery of the Memory-Writing Switch in the Brain)
讲座一
时间:6月18日9:00-10:30
地点:科学园2A栋1013室
讲座二
时间:6月19 14:00-15:30
地点:科学园2E栋411室
讲座内容:
Discovery of the Memory-Writing Switch in the Brain
ABSTRACT:
Patients with damage to the medial temporal lobe show deficits in forming new declarative memories but can still recall older memories, suggesting that the medial temporal lobe is necessary for encoding memories in the neocortex. Here, we found that cortical projection neurons in the perirhinal and entorhinal cortices were mostly immunopositive for cholecystokinin (CCK). Local infusion of CCK in the auditory cortex of anesthetized rats induced plastic changes that enabled cortical neurons to potentiate their responses or to start responding to an auditory stimulus that was paired with a tone that robustly triggered action potentials. CCK infusion also enabled auditory neurons to start responding to a light stimulus that was paired with a noise burst. In vivo intracellular recordings in the auditory cortex showed that synaptic strength was potentiated after two pairings of presynaptic and postsynaptic activity in the presence of CCK. Infusion of a CCKB antagonist in the auditory cortex prevented the formation of a visuo-auditory association in awake rats. Finally, activation of the entorhinal cortex potentiated neuronal responses in the auditory cortex, which was suppressed by infusion of a CCKB antagonist. Together, these findings suggest that the medial temporal lobe influences neocortical plasticity via CCK-positive cortical projection neurons in the entorhinal cortex.
In the second part of the experiment, the bilaterally electrode-implanted rat was trained to retrieve water-reward from either the leftmost or the rightmost hole depending on which hemisphere of the auditory cortex stimulation was triggered after it initiated the trial. After the stimulation site of one hemisphere was infused with CCK, a previously irrelevant light stimulus was then paired with the electrical stimulation of the infused hemisphere for multiple sessions in the anesthetized rat. The auditory cortex neurons responded to the light stimulus in both anesthetized and behavioral conditions. All rats approached to the “engineered” hole after they triggered light stimulus instead of electrical stimulation of the auditory cortex one week after the first conditioning. The behavioral experiment revealed that the artificially memory was transferred to the behavioral action, providing a scientific foundation for “memory implantation”.
Supported by the Hong Kong Research Grants Council (CRF09/9, 561410, 561111, 561212, T13-607/12R).
Keywords: Auditory cortex; Neural plasticity; Long-term potentiation; Entorhinal cortex; Hippocampal system; Memory formation.
