R01MH106629

NIH – National Institute of Mental Health

Regulation by Presynaptic NMDA Receptors of Non-Linear Postsynaptic Summation of the Cortical Input to CA1 Pyramidal Neurons

Buss, E. W., Jiang, Y.-Q., Santoro, B., Brann, D. H., Nicholson, D. A., Siegelbaum, S. A., & Sun, Q. (2024). Regulation by Presynaptic NMDA Receptors of Non-Linear Postsynaptic Summation of the Cortical Input to CA1 Pyramidal Neurons. Neuroscience. https://doi.org/10.1016/j.neuroscience.2024.06.005

Authors:

Eric W Buss

Yu-Qiu Jiang

Bina Santoro

David H Brann

Daniel A Nicholson

Steven A Siegelbaum

Qian Sun

Affiliated Authors:

Eric W Buss

Bina Santoro

David H Brann

Steven A Siegelbaum

Qian Sun

Columbia Affiliation:

Author Keywords:

ca1

ca2

hippocampus

nmda receptor

postsynaptic

presynaptic

biocytin

dizocilpine

isoflurane

receptors, n-methyl-d-aspartate

graphpad prism 9

imagej fiji

leica em cpc

leica lsm 700

leicalsm700

n methyl dextro aspartic acid receptor

animal experiment

animal model

animal tissue

article

brain cortex

current clamp technique

differential expression analysis

electrophysiological procedures

entorhinal cortex

excitatory postsynaptic potential

female

fluorescence intensity

gene deletion

hippocampal ca1 region

hippocampal ca2 region

immunogold electron microscopy

immunohistochemistry

long term depression

male

membrane steady potential

mouse

nerve cell plasticity

nonhuman

postsynaptic density

postsynaptic potential summation

purkinje cell

pyramidal nerve cell

stereotaxic surgery

stratum lacunosum moleculare

synapse vesicle

synaptic potential

synaptic transmission

temporal summation

voltage clamp technique

whole cell patch clamp

animal

c57bl mouse

cytology

drug effect

genetics

knockout mouse

metabolism

nerve ending

perforant nerve tract

physiology

ultrastructure

animals

ca1 region, hippocampal

excitatory postsynaptic potentials

mice

mice, inbred c57bl

mice, knockout

perforant pathway

presynaptic terminals

pyramidal cells

Grants:

R01MH130367 (NIH – National Institute of Mental Health)

R01MH129294 (NIH – National Institute of Mental Health)

R01MH106629 (NIH – National Institute of Mental Health)

R01MH104602 (NIH – National Institute of Mental Health)

K01MH117444 (NIH – National Institute of Mental Health)

Publication Type:

Article

Unique ID:

10.1016/j.neuroscience.2024.06.005

PMID:

38878815

DOI:

10.1016/j.neuroscience.2024.06.005

Journal:

Neuroscience

Publication Date:

2024-06-13

Data Source:

PubMed

Source Link:

View PubMed Record

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Record Created:

Wednesday, August 14, 2024 - 10:57

Social odor discrimination and its enhancement by associative learning in the hippocampal CA2 region

Hassan, S. I., Bigler, S., & Siegelbaum, S. A. (2023). Social odor discrimination and its enhancement by associative learning in the hippocampal CA2 region. Neuron, 111(14), 2232-2246.e5. https://doi.org/10.1016/j.neuron.2023.04.026

Authors:

Sami I Hassan

Shivani Bigler

Steven A Siegelbaum

Affiliated Authors:

Sami I Hassan

Shivani Bigler

Steven A Siegelbaum

Columbia Affiliation:

Subjects:

Odorants (MeSH)

CA2 Region, Hippocampal (MeSH)

Author Keywords:

associative learning

ca2

calcium imaging

hippocampus

social discrimination

social odors

social sensory coding

Grants:

R01MH104602 (NIH – National Institute of Mental Health)

R01MH106629 (NIH – National Institute of Mental Health)

F31MH126622 (NIH – National Institute of Mental Health)

Publication Type:

Article

Unique ID:

10.1016/j.neuron.2023.04.026

PMID:

37192623

DOI:

10.1016/j.neuron.2023.04.026

Journal:

Neuron

Publication Date:

2023-07-19

Data Source:

PubMed

Source Link:

View PubMed Record

View Scopus Record

Record Created:

Friday, August 9, 2024 - 14:02

A direct lateral entorhinal cortex to hippocampal CA2 circuit conveys social information required for social memory

Lopez-Rojas, J., de Solis, C. A., Leroy, F., Kandel, E. R., & Siegelbaum, S. A. (2022). A direct lateral entorhinal cortex to hippocampal CA2 circuit conveys social information required for social memory. Neuron, 110(9), 1559-1572.e4. https://doi.org/10.1016/j.neuron.2022.01.028

Authors:

Jeffrey Lopez-Rojas

Christopher A. de Solis

Felix Leroy

Eric R. Kandel

Steven A. Siegelbaum

Affiliated Authors:

Jeffrey Lopez-Rojas

Christopher A. de Solis

Felix Leroy

Eric R. Kandel

Steven A. Siegelbaum

Columbia Affiliation:

Subjects:

Entorhinal Cortex (MeSH)

Hippocampus (MeSH)

Author Keywords:

ca2

entorhinal cortex

hippocampus

lateral entorhinal cortex

social memory

Grants:

R01MH106629 (NIH – National Institute of Mental Health)

R01MH104602 (NIH – National Institute of Mental Health)

Publication Type:

Article

Unique ID:

10.1016/j.neuron.2022.01.028

PMID:

35180391

DOI:

10.1016/j.neuron.2022.01.028

Journal:

Neuron

Publication Date:

2022-05-04

Data Source:

Scopus

Source Link:

View Scopus Record

View Web of Science Record

View PubMed Record

Record Created:

Wednesday, February 12, 2025 - 09:27

Frequency-dependent synaptic dynamics differentially tune CA1 and CA2 pyramidal neuron responses to cortical input

Sun, Q., Buss, E. W., Jiang, Y.-Q., Santoro, B., Brann, D. H., Nicholson, D. A., & Siegelbaum, S. A. (2021). Frequency-Dependent Synaptic Dynamics Differentially Tune CA1 and CA2 Pyramidal Neuron Responses to Cortical Input. The Journal of Neuroscience, 41(39), 8103–8110. https://doi.org/10.1523/jneurosci.0451-20.2021

Authors:

Qian Sun

Eric W. Buss

Yu-Qiu Jiang

Bina Santoro

David H. Brann

Daniel A. Nicholson

Steven A. Siegelbaum

Affiliated Authors:

Qian Sun

Eric W. Buss

Bina Santoro

David H. Brann

Steven A. Siegelbaum

Columbia Affiliation:

Subjects:

CA1 Region, Hippocampal (MeSH)

CA2 Region, Hippocampal (MeSH)

Cerebral Cortex (MeSH)

Excitatory Postsynaptic Potentials (MeSH)

Pyramidal Cells (MeSH)

Synapses (MeSH)

Author Keywords:

ca1

ca2

nmdar

hippocampus

perforant path

synaptic

Grants:

K01MH117444 (NIH – National Institute of Mental Health)

R01MH106629 (NIH – National Institute of Mental Health)

R01MH104602 (NIH – National Institute of Mental Health)

Publication Type:

Article

Unique ID:

10.1523/JNEUROSCI.0451-20.2021

PMID:

34385360

DOI:

10.1523/JNEUROSCI.0451-20.2021

Journal:

Journal of Neuroscience

Publication Date:

2021-09-29

Data Source:

Scopus

Source Link:

View Scopus Record

View Web of Science Record

View PubMed Record

Record Created:

Tuesday, June 10, 2025 - 10:40