Current events
Date: Mar 9th
Time: 09:30 am
Place : 2nd Floor Conference Room, Gonda building.
Title : "Dynamics of Retrieval Strategies for Remote Memories"
Speaker: Thomas Rogerson
Summary:
Prevailing theory suggests that long-term memories are encoded via a two-phase process requiring early involvement of the hippocampus followed by the neocortex. Contextual fear memories in rodents rely on the hippocampus immediately following training but are unaffected by hippocampal lesions or pharmacological inhibition weeks later. With fast optogenetic methods, we examine the real-time contribution of hippocampal CA1 excitatory neurons to remote memory and find that contextual fear memory recall, even weeks after training, can be reversibly abolished by temporally precise optoge- netic inhibition of CA1. When this inhibition is extended to match the typical time course of phar- macological inhibition, remote hippocampus depen- dence converts to hippocampus independence, suggesting that long-term memory retrieval normally depends on the hippocampus but can adaptively shift to alternate structures. Further revealing the plasticity of mechanisms required for memory recall, we confirm the remote-timescale importance of the anterior cingulate cortex (ACC) and implicate CA1 in ACC recruitment for remote recall.
Relevant Reading Material:
Cell. 2011 Oct 28;147(3):678-89. Epub 2011 Oct 20. Dynamics of retrieval strategies for remote memories. Goshen I, Brodsky M, Prakash R, Wallace J, Gradinaru V, Ramakrishnan C, Deisseroth K.