Acute vagus nerve stimulation enhances reversal learning in rats

•A novel reversal learning task was developed in touchscreen operant chambers.•Vagus nerve stimulation (VNS) enhanced reversal learning.•Enhancing effects of VNS depended on stimulation frequency and timing of delivery.•Reversal learning was also enhanced by baclofen and atomoxetine.•Unlike the phar...

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Veröffentlicht in:	Neurobiology of learning and memory 2021-10, Vol.184 (C), p.107498-107498, Article 107498
Hauptverfasser:	Altidor, Lindsay K-P., Bruner, Matthew M., Deslauriers, Josue F., Garman, Tyler S., Ramirez, Saúl, Dirr, Elliott W., Olczak, Kaitlynn P., Maurer, Andrew P., Lamb, Damon G., Otto, Kevin J., Burke, Sara N., Bumanglag, Argyle V., Setlow, Barry, Bizon, Jennifer L.
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Sprache:	eng
Schlagworte:	Adrenergic Uptake Inhibitors Animals Atomoxetine Hydrochloride - pharmacology Baclofen - pharmacology Cognitive flexibility Conditioning, Operant - drug effects Conditioning, Operant - physiology Discrimination Learning - drug effects Discrimination Learning - physiology GABA-B Receptor Agonists - pharmacology Male Rats Rats, Inbred BN Reversal learning Reversal Learning - drug effects Reversal Learning - physiology Vagus Nerve Stimulation
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container_title	Neurobiology of learning and memory
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creator	Altidor, Lindsay K-P. Bruner, Matthew M. Deslauriers, Josue F. Garman, Tyler S. Ramirez, Saúl Dirr, Elliott W. Olczak, Kaitlynn P. Maurer, Andrew P. Lamb, Damon G. Otto, Kevin J. Burke, Sara N. Bumanglag, Argyle V. Setlow, Barry Bizon, Jennifer L.
description	•A novel reversal learning task was developed in touchscreen operant chambers.•Vagus nerve stimulation (VNS) enhanced reversal learning.•Enhancing effects of VNS depended on stimulation frequency and timing of delivery.•Reversal learning was also enhanced by baclofen and atomoxetine.•Unlike the pharmacological methods, VNS-induced enhancement had no off-target effects. Cognitive flexibility is a prefrontal cortex-dependent neurocognitive process that enables behavioral adaptation in response to changes in environmental contingencies. Electrical vagus nerve stimulation (VNS) enhances several forms of learning and neuroplasticity, but its effects on cognitive flexibility have not been evaluated. In the current study, a within-subjects design was used to assess the effects of VNS on performance in a novel visual discrimination reversal learning task conducted in touchscreen operant chambers. The task design enabled simultaneous assessment of acute VNS both on reversal learning and on recall of a well-learned discrimination problem. Acute VNS delivered in conjunction with stimuli presentation during reversal learning reliably enhanced learning of new reward contingencies. Enhancement was not observed, however, if VNS was delivered during the session but was not coincident with presentation of to-be-learned stimuli. In addition, whereas VNS delivered at 30 HZ enhanced performance, the same enhancement was not observed using 10 or 50 Hz. Together, these data show that acute VNS facilitates reversal learning and indicate that the timing and frequency of the VNS are critical for these enhancing effects. In separate rats, administration of the norepinephrine reuptake inhibitor atomoxetine also enhanced reversal learning in the same task, consistent with a noradrenergic mechanism through which VNS enhances cognitive flexibility.
doi_str_mv	10.1016/j.nlm.2021.107498
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Cognitive flexibility is a prefrontal cortex-dependent neurocognitive process that enables behavioral adaptation in response to changes in environmental contingencies. Electrical vagus nerve stimulation (VNS) enhances several forms of learning and neuroplasticity, but its effects on cognitive flexibility have not been evaluated. In the current study, a within-subjects design was used to assess the effects of VNS on performance in a novel visual discrimination reversal learning task conducted in touchscreen operant chambers. The task design enabled simultaneous assessment of acute VNS both on reversal learning and on recall of a well-learned discrimination problem. Acute VNS delivered in conjunction with stimuli presentation during reversal learning reliably enhanced learning of new reward contingencies. Enhancement was not observed, however, if VNS was delivered during the session but was not coincident with presentation of to-be-learned stimuli. 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Cognitive flexibility is a prefrontal cortex-dependent neurocognitive process that enables behavioral adaptation in response to changes in environmental contingencies. Electrical vagus nerve stimulation (VNS) enhances several forms of learning and neuroplasticity, but its effects on cognitive flexibility have not been evaluated. In the current study, a within-subjects design was used to assess the effects of VNS on performance in a novel visual discrimination reversal learning task conducted in touchscreen operant chambers. The task design enabled simultaneous assessment of acute VNS both on reversal learning and on recall of a well-learned discrimination problem. Acute VNS delivered in conjunction with stimuli presentation during reversal learning reliably enhanced learning of new reward contingencies. Enhancement was not observed, however, if VNS was delivered during the session but was not coincident with presentation of to-be-learned stimuli. In addition, whereas VNS delivered at 30 HZ enhanced performance, the same enhancement was not observed using 10 or 50 Hz. Together, these data show that acute VNS facilitates reversal learning and indicate that the timing and frequency of the VNS are critical for these enhancing effects. In separate rats, administration of the norepinephrine reuptake inhibitor atomoxetine also enhanced reversal learning in the same task, consistent with a noradrenergic mechanism through which VNS enhances cognitive flexibility.</description><subject>Adrenergic Uptake Inhibitors</subject><subject>Animals</subject><subject>Atomoxetine Hydrochloride - pharmacology</subject><subject>Baclofen - pharmacology</subject><subject>Cognitive flexibility</subject><subject>Conditioning, Operant - drug effects</subject><subject>Conditioning, Operant - physiology</subject><subject>Discrimination Learning - drug effects</subject><subject>Discrimination Learning - physiology</subject><subject>GABA-B Receptor Agonists - pharmacology</subject><subject>Male</subject><subject>Rats</subject><subject>Rats, Inbred BN</subject><subject>Reversal learning</subject><subject>Reversal Learning - drug effects</subject><subject>Reversal Learning - physiology</subject><subject>Vagus Nerve Stimulation</subject><issn>1074-7427</issn><issn>1095-9564</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2021</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNp9kMtKxDAUhoMo3h_AjRRXbjrm1ibFjTJ4gwE3ug5pejqToU01SQd8e1OqLl2dHPjOz58PoQuCFwST8ma7cF2_oJiStAteyT10THBV5FVR8v3pLXguOBVH6CSELcaEFJU8REeMM0ZxKY_R3b0ZI2Q7vR5D5sDvIAvR9mOnox1cBm6jnYGQediBD7rLOtDeWbfOrMu8juEMHbS6C3D-M0_R--PD2_I5X70-vSzvV7nhlMW8YFULdQMgZNPQ2lBm2hJIYVqG25rzSlAu60qUTENJTZF-I7AEXXJOoa0adoqu5twh9VPB2AhmYwbnwERFJJFClgm6nqEPP3yOEKLqbTDQddrBMAZFi0JQhjmVCSUzavwQgodWfXjba_-lCFaTXbVVya6a7KrZbrq5_Ikf6x6av4tfnQm4nQFIJnYW_FQUksDG-qlnM9h_4r8BqZGJ9g</recordid><startdate>202110</startdate><enddate>202110</enddate><creator>Altidor, Lindsay K-P.</creator><creator>Bruner, Matthew M.</creator><creator>Deslauriers, Josue F.</creator><creator>Garman, Tyler S.</creator><creator>Ramirez, Saúl</creator><creator>Dirr, Elliott W.</creator><creator>Olczak, Kaitlynn P.</creator><creator>Maurer, Andrew P.</creator><creator>Lamb, Damon G.</creator><creator>Otto, Kevin J.</creator><creator>Burke, Sara N.</creator><creator>Bumanglag, Argyle V.</creator><creator>Setlow, Barry</creator><creator>Bizon, Jennifer L.</creator><general>Elsevier Inc</general><general>Elsevier</general><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7X8</scope><scope>OTOTI</scope></search><sort><creationdate>202110</creationdate><title>Acute vagus nerve stimulation enhances reversal learning in rats</title><author>Altidor, Lindsay K-P. ; 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In addition, whereas VNS delivered at 30 HZ enhanced performance, the same enhancement was not observed using 10 or 50 Hz. Together, these data show that acute VNS facilitates reversal learning and indicate that the timing and frequency of the VNS are critical for these enhancing effects. In separate rats, administration of the norepinephrine reuptake inhibitor atomoxetine also enhanced reversal learning in the same task, consistent with a noradrenergic mechanism through which VNS enhances cognitive flexibility.</abstract><cop>United States</cop><pub>Elsevier Inc</pub><pmid>34332068</pmid><doi>10.1016/j.nlm.2021.107498</doi><tpages>1</tpages><oa>free_for_read</oa></addata></record>
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subjects	Adrenergic Uptake Inhibitors Animals Atomoxetine Hydrochloride - pharmacology Baclofen - pharmacology Cognitive flexibility Conditioning, Operant - drug effects Conditioning, Operant - physiology Discrimination Learning - drug effects Discrimination Learning - physiology GABA-B Receptor Agonists - pharmacology Male Rats Rats, Inbred BN Reversal learning Reversal Learning - drug effects Reversal Learning - physiology Vagus Nerve Stimulation
title	Acute vagus nerve stimulation enhances reversal learning in rats
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