Noradrenergic modulation of rhythmic neural activity shapes selective attention

During moments involving selective attention, the thalamus orchestrates the preferential processing of prioritized information by coordinating rhythmic neural activity within a distributed frontoparietal network. The timed release of neuromodulators from subcortical structures dynamically sculpts ne...

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Published in	Trends in cognitive sciences Vol. 26; no. 1; pp. 38 - 52
Main Authors	Dahl, Martin J., Mather, Mara, Werkle-Bergner, Markus
Format	Journal Article
Language	English
Published	England Elsevier Ltd 01.01.2022
Subjects	cognitive aging Humans locus coeruleus Locus Coeruleus - physiology noradrenaline norepinephrine Norepinephrine - pharmacology Norepinephrine - physiology rhythmic neural activity selective attention norepinephrine noradrenaline rhythmic neural activity locus coeruleus selective attention cognitive aging
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ISSN	1364-6613 1879-307X 1879-307X
DOI	10.1016/j.tics.2021.10.009

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Abstract	During moments involving selective attention, the thalamus orchestrates the preferential processing of prioritized information by coordinating rhythmic neural activity within a distributed frontoparietal network. The timed release of neuromodulators from subcortical structures dynamically sculpts neural synchronization in thalamocortical networks to meet current attentional demands. In particular, noradrenaline modulates the balance of cortical excitation and inhibition, as reflected by thalamocortical alpha synchronization (~8–12 Hz). These neuromodulatory adjustments facilitate the selective processing of prioritized information. Thus, by disrupting effective rhythmic coordination in attention networks, age-related locus coeruleus (LC) degeneration can impair higher levels of neural processing. In sum, findings across different levels of analysis and modalities shed light on how the noradrenergic modulation of neural synchronization helps to shape selective attention. Neural synchronization, particularly in the alpha frequency band (~8–12 Hz), supports routing prioritized information through thalamocortical attention networks.The noradrenergic locus coeruleus (LC) has long been regarded as the nexus of a global arousal system, unable to innervate attention-relevant specific cortical networks. Recent evidence reveals a more specialized neuromodulatory system, which biases processing in thalamocortical circuits according to attentional demands.Transient LC activations facilitate the selective processing of relevant information by flexibly adjusting local cortical excitability via thalamocortical alpha synchronization.However, with advancing age, the LC harbors toxins and Alzheimer’s-related tau precursors, making it susceptible to neurodegeneration, which may disrupt synchronization in the aging brain.
AbstractList	During moments involving selective attention, the thalamus orchestrates the preferential processing of prioritized information by coordinating rhythmic neural activity within a distributed frontoparietal network. The timed release of neuromodulators from subcortical structures dynamically sculpts neural synchronization in thalamocortical networks to meet current attentional demands. In particular, noradrenaline modulates the balance of cortical excitation and inhibition, as reflected by thalamocortical alpha synchronization (~8-12 Hz). These neuromodulatory adjustments facilitate the selective processing of prioritized information. Thus, by disrupting effective rhythmic coordination in attention networks, age-related locus coeruleus (LC) degeneration can impair higher levels of neural processing. In sum, findings across different levels of analysis and modalities shed light on how the noradrenergic modulation of neural synchronization helps to shape selective attention.During moments involving selective attention, the thalamus orchestrates the preferential processing of prioritized information by coordinating rhythmic neural activity within a distributed frontoparietal network. The timed release of neuromodulators from subcortical structures dynamically sculpts neural synchronization in thalamocortical networks to meet current attentional demands. In particular, noradrenaline modulates the balance of cortical excitation and inhibition, as reflected by thalamocortical alpha synchronization (~8-12 Hz). These neuromodulatory adjustments facilitate the selective processing of prioritized information. Thus, by disrupting effective rhythmic coordination in attention networks, age-related locus coeruleus (LC) degeneration can impair higher levels of neural processing. In sum, findings across different levels of analysis and modalities shed light on how the noradrenergic modulation of neural synchronization helps to shape selective attention. During moments involving selective attention, the thalamus orchestrates the preferential processing of prioritized information by coordinating rhythmic neural activity within a distributed frontoparietal network. The timed release of neuromodulators from subcortical structures dynamically sculpts neural synchronization in thalamocortical networks to meet current attentional demands. In particular, noradrenaline modulates the balance of cortical excitation and inhibition, as reflected by thalamocortical alpha synchronization (~8–12 Hz). These neuromodulatory adjustments facilitate the selective processing of prioritized information. Thus, by disrupting effective rhythmic coordination in attention networks, age-related locus coeruleus (LC) degeneration can impair higher levels of neural processing. In sum, findings across different levels of analysis and modalities shed light on how the noradrenergic modulation of neural synchronization helps to shape selective attention. Neural synchronization, particularly in the alpha frequency band (~8–12 Hz), supports routing prioritized information through thalamocortical attention networks.The noradrenergic locus coeruleus (LC) has long been regarded as the nexus of a global arousal system, unable to innervate attention-relevant specific cortical networks. Recent evidence reveals a more specialized neuromodulatory system, which biases processing in thalamocortical circuits according to attentional demands.Transient LC activations facilitate the selective processing of relevant information by flexibly adjusting local cortical excitability via thalamocortical alpha synchronization.However, with advancing age, the LC harbors toxins and Alzheimer’s-related tau precursors, making it susceptible to neurodegeneration, which may disrupt synchronization in the aging brain. During moments involving selective attention, the thalamus orchestrates the preferential processing of prioritized information by coordinating rhythmic neural activity within a distributed frontoparietal network. The timed release of neuromodulators from subcortical structures dynamically sculpts neural synchronization in thalamocortical networks to meet current attentional demands. In particular, noradrenaline modulates the balance of cortical excitation and inhibition, as reflected by thalamocortical alpha synchronization (~8-12 Hz). These neuromodulatory adjustments facilitate the selective processing of prioritized information. Thus, by disrupting effective rhythmic coordination in attention networks, age-related locus coeruleus (LC) degeneration can impair higher levels of neural processing. In sum, findings across different levels of analysis and modalities shed light on how the noradrenergic modulation of neural synchronization helps to shape selective attention. During moments involving selective attention, the thalamus orchestrates the preferential processing of prioritized information by coordinating rhythmic neural activity within a distributed frontoparietal network. The timed release of neuromodulators from subcortical structures dynamically sculpts neural synchronization in thalamocortical networks to meet current attentional demands. In particular, noradrenaline modulates the balance of cortical excitation and inhibition, as reflected by thalamocortical alpha synchronization (~8–12 Hz). These neuromodulatory adjustments facilitate the selective processing of prioritized information. Thus, by disrupting effective rhythmic coordination in attention networks, age-related locus coeruleus degeneration can impair higher levels of neural processing. In sum, findings across different levels of analysis and modalities shed light on how the noradrenergic modulation of neural synchronization helps to shape selective attention.
Author	Dahl, Martin J. Mather, Mara Werkle-Bergner, Markus
AuthorAffiliation	2 Davis School of Gerontology, University of Southern California, 90089 Los Angeles, CA, USA 1 Center for Lifespan Psychology, Max Planck Institute for Human Development, 14195 Berlin, Germany
AuthorAffiliation_xml	– name: 1 Center for Lifespan Psychology, Max Planck Institute for Human Development, 14195 Berlin, Germany – name: 2 Davis School of Gerontology, University of Southern California, 90089 Los Angeles, CA, USA
Author_xml	– sequence: 1 givenname: Martin J. surname: Dahl fullname: Dahl, Martin J. email: dahl@mpib-berlin.mpg.de organization: Center for Lifespan Psychology, Max Planck Institute for Human Development, 14195 Berlin, Germany – sequence: 2 givenname: Mara surname: Mather fullname: Mather, Mara organization: Davis School of Gerontology, University of Southern California, 90089 Los Angeles, CA, USA – sequence: 3 givenname: Markus surname: Werkle-Bergner fullname: Werkle-Bergner, Markus organization: Center for Lifespan Psychology, Max Planck Institute for Human Development, 14195 Berlin, Germany
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/34799252$$D View this record in MEDLINE/PubMed
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Snippet	During moments involving selective attention, the thalamus orchestrates the preferential processing of prioritized information by coordinating rhythmic neural...
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SubjectTerms	cognitive aging Humans locus coeruleus Locus Coeruleus - physiology noradrenaline norepinephrine Norepinephrine - pharmacology Norepinephrine - physiology rhythmic neural activity selective attention
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Title	Noradrenergic modulation of rhythmic neural activity shapes selective attention
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