Hippocampus–Prefrontal Coupling Regulates Recognition Memory for Novelty Discrimination
| Autor: | Li Xu, Peter Stratton, Pankaj Sah, Conrad C. Y. Lee, Ehsan Arabzadeh, Roger Marek, Cong Wang, Sam Merlin, Christoph Nolan, Teri M. Furlong |
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| Rok vydání: | 2021 |
| Předmět: |
Male
Theta activity Prefrontal Cortex Hippocampus Context (language use) Optogenetics Discrimination Learning Rats Sprague-Dawley Memory Neural Pathways Animals Prefrontal cortex Research Articles Recognition memory Neurons musculoskeletal neural and ocular physiology General Neuroscience Novelty Recognition Psychology Rats Coupling (electronics) nervous system Psychology Neuroscience psychological phenomena and processes |
| Zdroj: | J Neurosci |
| ISSN: | 1529-2401 0270-6474 |
| Popis: | Recognition memory provides the ability to distinguish familiar from novel objects and places, and is important for recording and updating events to guide appropriate behavior. The hippocampus (HPC) and medial prefrontal cortex (mPFC) have both been implicated in recognition memory, but the nature of HPC–mPFC interactions, and its impact on local circuits in mediating this process is not known. Here we show that novelty discrimination is accompanied with higher theta activity (4–10 Hz) and increased c-Fos expression in both these regions. Moreover, theta oscillations were highly coupled between the HPC and mPFC during recognition memory retrieval for novelty discrimination, with the HPC leading the mPFC, but not during initial learning. Principal neurons and interneurons in the mPFC responded more strongly during recognition memory retrieval compared with learning. Optogenetic silencing of HPC input to the mPFC disrupted coupled theta activity between these two structures, as well as the animals' (male Sprague Dawley rats) ability to differentiate novel from familiar objects. These results reveal a key role of monosynaptic connections between the HPC and mPFC in novelty discrimination via theta coupling and identify neural populations that underlie this recognition memory-guided behavior.SIGNIFICANCE STATEMENTMany memory processes are highly dependent on the interregional communication between the HPC and mPFC via neural oscillations. However, how these two brain regions coordinate their oscillatory activity to engage local neural populations to mediate recognition memory for novelty discrimination is poorly understood. This study revealed that the HPC and mPFC theta oscillations and their temporal coupling is correlated with recognition memory-guided behavior. During novel object recognition, the HPC drives mPFC interneurons to effectively reduce the activity of principal neurons. This study provides the first evidence for the requirement of the HPC–mPFC pathway to mediate recognition memory for novelty discrimination and describes a mechanism for how this memory is regulated. |
| Databáze: | OpenAIRE |
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