Long-Term Memory for Spatial Locations in a Food-Storing Bird (Poecile atricapilla) Requires Activation of NMDA Receptors in the Hippocampal Formation During Learning.

Visual working memory allows us to maintain information in mind for use in ongoing cognition. Research on visual working memory often characterizes it within the context of its interaction with long-term memory (LTM). These embedded-processes models describe memory representations as existing in three potential states: inactivated LTM, including all representations stored in LTM; activated LTM, latent representations that can quickly be brought into an active state due to contextual priming or recency; and the focus of attention, an active but sharply limited state in which only a small number of items can be represented simultaneously. This chapter extends the embedded-processes framework of working memory. It proposes that working memory should be defined operationally based on neural activity. By defining working memory in this way, the important theoretical distinction between working memory and LTM is maintained, while still acknowledging that they operate together. It is additionally proposed that active working memory should be further subdivided into at least two subcomponent processes that index item-based storage and currently prioritized spatial locations. This fractionation of working memory is based on recent research that has found that the maintenance of information distinctly relies on item-based representations as well as prioritization of spatial locations. It is hoped that this updated framework of the definition of working memory within the embedded-processes model provides further traction for understanding how we maintain information in mind.

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NMDA receptors in mouse anterior piriform cortex initialize early odor preference learning and L-type calcium channels engage for long-term memory

Scientific Reports ◽

10.1038/srep35256 ◽

2016 ◽

Vol 6 (1) ◽

Cited By ~ 5

Author(s):

Bandhan Mukherjee ◽

Qi Yuan

Keyword(s):

Calcium Channels ◽

Nmda Receptors ◽

Piriform Cortex ◽

Preference Learning ◽

Long Term Memory ◽

Odor Preference ◽

Term Memory ◽

Anterior Piriform Cortex

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Specific requirement of NMDA receptors for long-term memory consolidation in Drosophila ellipsoid body

Nature Neuroscience ◽

10.1038/nn2005 ◽

2007 ◽

Vol 10 (12) ◽

pp. 1578-1586 ◽

Cited By ~ 104

Author(s):

Chia-Lin Wu ◽

Shouzhen Xia ◽

Tsai-Feng Fu ◽

Huaien Wang ◽

Ying-Hsiu Chen ◽

...

Keyword(s):

Nmda Receptors ◽

Memory Consolidation ◽

Long Term Memory ◽

Specific Requirement ◽

Term Memory ◽

Ellipsoid Body

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Long-term memory loss and the effects of tianeptine in young and aged mice

European Psychiatry ◽

10.1017/s0924933800005435 ◽

1993 ◽

Vol 8 (S2) ◽

pp. 81s-88s

Author(s):

C Lebrun ◽

R Jaffard

Keyword(s):

Hippocampal Formation ◽

Alcohol Intoxication ◽

Memory Loss ◽

Memory Deficits ◽

Long Term Memory ◽

Term Memory ◽

Long Term Retention ◽

Brain Target ◽

Different Levels

SummaryPrevious experiments have shown that tianeptine, a new psychotropic agent with antidepressant properties, improves performance in several learning and memory tasks in mice. In more recent investigations, tianeptine was found to completely alleviate working memory deficits produced by long-term alcohol intoxication and to prevent abnormal memory loss in aged animals (Jaffard et al, 1991b, 1991c). The aim of this paper was to examine how this last finding may be integrated in our understanding of brain mechanisms involved in memory loss. For this purpose, we present a brief review of experimental data and theories which, at different levels of analysis, seems to be relevant to this issue. Together with the subsequent examination of the conditions in which tianeptine was found to improve long-term retention, we suggest that: i) long-term memory loss would be largely determined by the initial encoding of information, so that ii) tianeptine would help aged animals to use spatial mapping or configural associations more efficiently at the time of initial acquisition. This, in turn, suggests that one of the main brain target sites for tianeptine in enhancing memory is the hippocampal formation.

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Mg2+ Block of Drosophila NMDA Receptors Is Required for Long-Term Memory Formation and CREB-Dependent Gene Expression

Neuron ◽

10.1016/j.neuron.2012.03.039 ◽

2012 ◽

Vol 74 (5) ◽

pp. 887-898 ◽

Cited By ~ 61

Author(s):

Tomoyuki Miyashita ◽

Yoshiaki Oda ◽

Junjiro Horiuchi ◽

Jerry C.P. Yin ◽

Takako Morimoto ◽

...

Keyword(s):

Gene Expression ◽

Nmda Receptors ◽

Memory Formation ◽

Long Term Memory ◽

Term Memory

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Pharmacological intervention of hippocampal CA3 NMDA receptors impairs acquisition and long-term memory retrieval of spatial pattern completion task

Learning & Memory ◽

10.1101/lm.1433209 ◽

2009 ◽

Vol 16 (6) ◽

pp. 387-394 ◽

Cited By ~ 18

Author(s):

L. Fellini ◽

C. Florian ◽

J. Courtey ◽

P. Roullet

Keyword(s):

Spatial Pattern ◽

Nmda Receptors ◽

Memory Retrieval ◽

Pharmacological Intervention ◽

Long Term Memory ◽

Pattern Completion ◽

Term Memory ◽

Completion Task ◽

Hippocampal Ca3

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Tracking the relation between gist and item memory over the course of long-term memory consolidation

10.1101/2021.01.05.425378 ◽

2021 ◽

Author(s):

Tima Zeng ◽

Alexa Tompary ◽

Anna C. Schapiro ◽

Sharon L. Thompson-Schill

Keyword(s):

Memory Consolidation ◽

Item Memory ◽

Long Term Memory ◽

Local Center ◽

Term Memory ◽

The World ◽

Human Participants ◽

Spatial Locations ◽

Over Time

AbstractOur experiences in the world support memories not only of specific episodes but also of the generalities (the ‘gist’) across related experiences. It remains unclear how these two types of memories evolve and influence one another over time. 173 human participants encoded spatial locations from a distribution and reported both item memory (specific locations) and gist memory (center for the locations) across one to two months. After one month, gist memory was preserved relative to item memory, despite a persistent positive correlation between them. Critically, item memories were biased towards the gist over time; however, with a spatial outlier item, the local center excluding the outlier became the source of bias, instead of the reported center overweighting the outlier. Our results suggest that the extraction of gist is sensitive to the regularities of items, and that the gist starts to guide item memories over longer durations as their relative strengths change.

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PKMζ traces hippocampal LTP maintenance and spatial long-term memory

10.1101/2020.02.05.936146 ◽

2020 ◽

Author(s):

Changchi Hsieh ◽

Panayiotis Tsokas ◽

Ain Chung ◽

Claudia Garcia-Jou ◽

Edith Lesburguères ◽

...

Keyword(s):

Fluorescent Protein ◽

Hippocampal Formation ◽

Hippocampal Slices ◽

Pyramidal Cells ◽

Long Term Potentiation ◽

Memory Storage ◽

Long Term Memory ◽

Term Memory ◽

Ca1 Pyramidal Cells

PKMζ is an autonomously active, atypical PKC isoform crucial for maintaining synaptic long-term potentiation (LTP) and long-term memory. Unlike other PKCs that are transiently activated by short-lived second messengers, PKMζ is persistently activated by long-lasting increases in the amount of the autonomously active kinase during LTP and long-term memory maintenance. Thus, localizing persistent increases in PKMζ might reveal traces of physiological LTP maintenance in the circuitry of the brain during long-term memory storage. Using quantitative immunohistochemistry validated by the lack of staining in PKMζ-null mice, we visualized the amount and distribution of PKMζ during LTP maintenance and spatial long-term memory storage in the hippocampal formation of wild-type mice. Strong afferent stimulation of Schaffer collateral/commissural fibers inducing LTP maintenance increases PKMζ in CA1 pyramidal cells for 2 hours in hippocampal slices. Active place avoidance spatial conditioning increases PKMζ in CA1 pyramidal cells of the hippocampal formation from 1 day to at least 1 month. The increases in PKMζ coincide with the location of cells marked during long-term memory training by Arc promoter-mediated expression of a fluorescent protein, including at dendritic spines. We conclude that increased PKMζ forms persistent traces in CA1 pyramidal cells that are sites of molecular information storage during LTP maintenance and spatial long-term memory.Graphical AbstractPKMζ-immunohistochemistry reveals persistent increased PKMζ in the hippocampus during (A) LTP maintenance, and (B) spatial long-term memory storage.

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Forgetting of long-term memory requires activation of NMDA receptors, L-type voltage-dependent Ca2+ channels, and calcineurin

Scientific Reports ◽

10.1038/srep22771 ◽

2016 ◽

Vol 6 (1) ◽

Cited By ~ 35

Author(s):

Ricardo Marcelo Sachser ◽

Fabiana Santana ◽

Ana Paula Crestani ◽

Paula Lunardi ◽

Lizeth Katherine Pedraza ◽

...

Keyword(s):

Nmda Receptors ◽

Long Term Memory ◽

Term Memory ◽

Voltage Dependent ◽

Ca2 Channels

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Alpha-band oscillations track the retrieval of precise spatial representations from long-term memory

10.1101/207860 ◽

2018 ◽

Cited By ~ 3

Author(s):

David W. Sutterer ◽

Joshua J. Foster ◽

John T. Serences ◽

Edward K. Vogel ◽

Edward Awh

Keyword(s):

Memory Retrieval ◽

Time Course ◽

Long Term Memory ◽

Term Memory ◽

Continuous Space ◽

Multiple Modalities ◽

Oscillatory Power ◽

Spatial Memories ◽

Spatial Locations

AbstractA hallmark of episodic memory is the phenomenon of mentally re-experiencing the details of past events, and a well-established concept is that the neuronal activity that mediates encoding is reinstated at retrieval. Evidence for reinstatement has come from multiple modalities, including functional Magnetic Resonance Imaging (fMRI) and electroencephalography (EEG). These EEG studies have shed light on the time-course of reinstatement, but have been limited to distinguishing between a few categories and/or limited measures of memory strength. The goal of this work was to investigate whether recently developed experimental and technical approaches, namely an inverted encoding model applied to alpha oscillatory power in conjunction with sensitive tests of memory retrieval in a continuous space, can track and reconstruct memory retrieval of specific spatial locations. In Experiment 1, we establish that an inverted encoding model applied to multivariate alpha topography can track retrieval of precise spatial memories. In Experiment 2, we demonstrate that the pattern of multivariate alpha activity at study is similar to the pattern observed during retrieval. Finally, we observe that these encoding models predict memory retrieval behavior, including the accuracy and latency of recall. These findings highlight the broad potential for using encoding models to characterize long-term memory retrieval.

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