Hartung, Henrike and Brockmann, Marco D and Pöschel, Beatrice and De Feo, Vito and Hanganu-Opatz, Ileana L (2016) Thalamic and Entorhinal Network Activity Differently Modulates the Functional Development of Prefrontal-Hippocampal Interactions. The Journal of Neuroscience, 36 (13). pp. 3676-3690. DOI https://doi.org/10.1523/jneurosci.3232-15.2016
Hartung, Henrike and Brockmann, Marco D and Pöschel, Beatrice and De Feo, Vito and Hanganu-Opatz, Ileana L (2016) Thalamic and Entorhinal Network Activity Differently Modulates the Functional Development of Prefrontal-Hippocampal Interactions. The Journal of Neuroscience, 36 (13). pp. 3676-3690. DOI https://doi.org/10.1523/jneurosci.3232-15.2016
Hartung, Henrike and Brockmann, Marco D and Pöschel, Beatrice and De Feo, Vito and Hanganu-Opatz, Ileana L (2016) Thalamic and Entorhinal Network Activity Differently Modulates the Functional Development of Prefrontal-Hippocampal Interactions. The Journal of Neuroscience, 36 (13). pp. 3676-3690. DOI https://doi.org/10.1523/jneurosci.3232-15.2016
Abstract
Precise information flow during mnemonic and executive tasks requires the coactivation of adult prefrontal and hippocampal networks in oscillatory rhythms. This interplay emerges early in life, most likely as an anticipatory template of later cognitive performance. At neonatal age, hippocampal theta bursts drive the generation of prefrontal theta-gamma oscillations. In the absence of direct reciprocal interactions, the question arises of which feedback mechanisms control the early entrainment of prefrontal-hippocampal networks. Here, we demonstrate that prefrontal-hippocampal activity couples with discontinuous theta oscillations and neuronal firing in both lateral entorhinal cortex and ventral midline thalamic nuclei of neonatal rats. However, these two brain areas have different contributions to the neonatal long-range communication. The entorhinal cortex mainly modulates the hippocampal activity via direct axonal projections. In contrast, thalamic theta bursts are controlled by the prefrontal cortex via mutual projections and contribute to hippocampal activity. Thus, the neonatal prefrontal cortex modulates the level of hippocampal activation by directed interactions with the ventral midline thalamus. Similar to the adult task-related communication, theta-band activity ensures the feedback control of long-range coupling in the developing brain.<h4>Significance statement</h4>Memories are encoded by finely tuned interactions within large-scale neuronal networks. This cognitive performance is not inherited, but progressively matures in relationship with the establishment of long-range coupling in the immature brain. The hippocampus initiates and unidirectionally drives the oscillatory entrainment of neonatal prefrontal cortex, yet feedback interactions that precisely control this early communication are still unresolved. Here, we identified distinct roles of entorhinal cortex and ventral midline thalamus for the functional development of prefrontal-hippocampal interactions. While entorhinal oscillations modulate the hippocampal activity by timing the neuronal firing via monosynaptic afferents, thalamic nuclei act as a relay station routing prefrontal activation back to hippocampus. Understanding the mechanisms of network maturation represents the prerequisite for assessing circuit dysfunction in neurodevelopmental disorders.
Item Type: | Article |
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Uncontrolled Keywords: | Action Potentials; Analysis of Variance; Animals; Animals, Newborn; Brain Mapping; Entorhinal Cortex; Hippocampus; Male; Neural Pathways; Neurons; Prefrontal Cortex; Rats; Rats, Wistar; Stilbamidines; Thalamus; Time Factors |
Divisions: | Faculty of Science and Health Faculty of Science and Health > Computer Science and Electronic Engineering, School of |
SWORD Depositor: | Unnamed user with email elements@essex.ac.uk |
Depositing User: | Unnamed user with email elements@essex.ac.uk |
Date Deposited: | 05 Feb 2024 08:41 |
Last Modified: | 30 Oct 2024 17:01 |
URI: | http://repository.essex.ac.uk/id/eprint/29796 |
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