ACTIVITY IN BARREL CORTEX RELATED TO TRACE EYEBLINK CONDITIONING

ACTIVITY IN BARREL CORTEX RELATED TO TRACE EYEBLINK CONDITIONING

In mammals several memory systems are responsible for learning and storage of associative memory. Even apparently simple behavioral tasks, like Pavlovian conditioning, have been suggested to engage, for instance, implicit and explicit memory processes. Here we used single whisker tactile trace eyebl...

Full description

Saved in:
Bibliographic Details
Published in:eNeuro Vol. 10; no. 8; p. ENEURO.0206-23.2023
Main Authors: Silva-Prieto, May-Li, Hofmann, Julian Ivo, Schwarz, Cornelius
Format: Journal Article
Language:English
Published: United States Society for Neuroscience 01-08-2023
Subjects:
New Research
mouse
Pavlovian conditioning
trace conditioning
memory systems
spike plasticity
generalization
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:In mammals several memory systems are responsible for learning and storage of associative memory. Even apparently simple behavioral tasks, like Pavlovian conditioning, have been suggested to engage, for instance, implicit and explicit memory processes. Here we used single whisker tactile trace eyeblink conditioning (TTEBC) to investigate learning and its neuronal bases in the mouse barrel column, the primary neocortical tactile representation of one whisker. Behavioral analysis showed that conditioned responses (CR) are spatially highly restricted, they generalize from the principal whisker only to its direct neighbors. Within the respective neural representation, the principal column and its direct neighbors, spike activity showed a learning-related spike rate suppression starting during the late phase of conditioning stimulus (CS) presentation that was sustained throughout the stimulus-free trace period (Trace). Trial-by-trial analysis showed that learning-related activity was independent from the generation of eyelid movements within a trial, and set in around the steepest part of the learning curve. Optogenetic silencing of responses and their learning-related changes during CS and Trace epochs blocked CR acquisition, but not its recall after learning. Silencing during the Trace alone, which carried major parts of the learning-related changes, had no effect. In summary, we demonstrate specific barrel column spike rate plasticity during TTEBC that can be partially decoupled from the CR, the learned eye closure, a hallmark of implicit learning. Our results, thus, point to a possible role of the barrel column in contributing to other kinds of memory as well. Association learning relies on different memory systems. The Pavlovian eyeblink reflex conditioning paradigm already involves the generation of a new movement ('move the eyelid', implicit memory), and to learn the task contingencies ('know the rule of the game', explicit memory). Using this paradigm, we study the involvement of whisker-related mouse primary somatosensory cortex (S1) in different memory systems. With recording and causal stimulation techniques, we found spike plasticity in S1 during presentation of the conditioned stimulus that is causal for implicit learning. Notably, however, blocking learning-related changes during stimulus-free trace period did not impair implicit memory. We conclude that S1 activity is related to the implicit and at least one other memory system, presumably the explicit one.
Bibliography:ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
The authors declare no competing financial interests.
M.S.-P. and J.I.H. contributed equally to this work.
This work was supported by Deutsche Forschungsgemeinschaft Grant SCHW577/17-1.
Author contributions: M.S.-P., J.I.H., and C.S. designed research; M.S.-P., J.I.H., and C.S. performed research; M.S.-P. contributed unpublished reagents/analytic tools; M.S.-P., J.I.H., and C.S. analyzed data; M.S.-P., J.I.H., and C.S. wrote the paper.
ISSN:2373-2822
2373-2822
DOI:10.1523/ENEURO.0206-23.2023