Thalamic Spindles Promote Memory Formation during Sleep through Triple Phase-Locking of Cortical, Thalamic, and Hippocampal Rhythms

Charles Francois V. Latchoumane; Hong Viet V. Ngo; Jan Born; Hee Sup Shin

doi:10.1016/j.neuron.2017.06.025

Thalamic Spindles Promote Memory Formation during Sleep through Triple Phase-Locking of Cortical, Thalamic, and Hippocampal Rhythms

Charles Francois V. Latchoumane, Hong Viet V. Ngo, Jan Born^*, Hee Sup Shin

^*Korrespondierende/r Autor/-in für diese Arbeit

University of Science and Technology (UST)

394 Zitate (Scopus)

Abstract

While the interaction of the cardinal rhythms of non-rapid-eye-movement (NREM) sleep—the thalamo-cortical spindles, hippocampal ripples, and the cortical slow oscillations—is thought to be critical for memory consolidation during sleep, the role spindles play in this interaction is elusive. Combining optogenetics with a closed-loop stimulation approach in mice, we show here that only thalamic spindles induced in-phase with cortical slow oscillation up-states, but not out-of-phase-induced spindles, improve consolidation of hippocampus-dependent memory during sleep. Whereas optogenetically stimulated spindles were as efficient as spontaneous spindles in nesting hippocampal ripples within their excitable troughs, stimulation in-phase with the slow oscillation up-state increased spindle co-occurrence and frontal spindle-ripple co-occurrence, eventually resulting in increased triple coupling of slow oscillation-spindle-ripple events. In-phase optogenetic suppression of thalamic spindles impaired hippocampus-dependent memory. Our results suggest a causal role for thalamic sleep spindles in hippocampus-dependent memory consolidation, conveyed through triple coupling of slow oscillations, spindles, and ripples. Latchoumane et al. demonstrate a causal role of sleep spindles in memory formation. They show that optogenetic induction of thalamic spindles, when phase-locked to the slow oscillation up-state, enhances the triple coupling of slow oscillations-spindles-ripples together with hippocampus-dependent memory consolidation.

Originalsprache	Englisch
Zeitschrift	Neuron
Jahrgang	95
Ausgabenummer	2
Seiten (von - bis)	424-435.e6
ISSN	0896-6273
DOIs	https://doi.org/10.1016/j.neuron.2017.06.025
Publikationsstatus	Veröffentlicht - 19.07.2017

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This work was supported by the grant IBS-R001-D1 from the Institute for Basic Science, Korea, the Deutsche Forschungsgemeinschaft (Tr-SFB 654 ?Plasticity and Sleep?), and the German Federal Ministry of Education and Research (01GI0925 and 01GQ0973). We thank Matthias M?lle, Eunyoung Bang, Boyoung Lee, Yooncheol Jang, Joon-Hyuk Lee, and Seung-eun Lee for experimental support. This work was supported by the grant IBS-R001-D1 from the Institute for Basic Science , Korea, the Deutsche Forschungsgemeinschaft ( Tr-SFB 654 “Plasticity and Sleep”), and the German Federal Ministry of Education and Research ( 01GI0925 and 01GQ0973 ). We thank Matthias Mölle, Eunyoung Bang, Boyoung Lee, Yooncheol Jang, Joon-Hyuk Lee, and Seung-eun Lee for experimental support.

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Forschungsschwerpunkt: Gehirn, Hormone, Verhalten - Center for Brain, Behavior and Metabolism (CBBM)

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2.23-04 Kognitive, systemische und Verhaltensneurobiologie
2.23-03 Experimentelle und theoretische Netzwerk-Neurowissenschaften

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10.1016/j.neuron.2017.06.025

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SFB 654: Plastizität und Schlaf
Born, J. (Sprecher*in, Koordinator*in), Verleger, R. (Projektleiter*in (PI)), Witt, K. (Projektleiter*in (PI)), Gais, S. (Projektleiter*in (PI)), Kimmig, H. (Projektleiter*in (PI)), Backhaus, J. (Projektleiter*in (PI)), Junghanns, K. (Projektleiter*in (PI)), Marshall, L. (Projektleiter*in (PI)), Martinetz, T. (Projektleiter*in (PI)), Mölle, M. (Projektleiter*in (PI)), Deuschl, G. (Projektleiter*in (PI)), Mehdorn, H. M. (Projektleiter*in (PI)), Volkmann, J. (Projektleiter*in (PI)), Claussen, J. C. (Projektleiter*in (PI)), Göder, R. (Projektleiter*in (PI)), Anders, S. (Projektleiter*in (PI)), Binkofski, F. (Projektleiter*in (PI)), Büchel, C. (Projektleiter*in (PI)), Ehrlich, I. (Projektleiter*in (PI)), Baving, L. (Projektleiter*in (PI)), Prehn-Kristensen, A. (Projektleiter*in (PI)), Bartsch, T. (Projektleiter*in (PI)), Sirota, A. (Projektleiter*in (PI)), Münte, T. (Projektleiter*in (PI)), Heldmann, M. (Projektleiter*in (PI)), Diekelmann, S. (Projektleiter*in (PI)), Rauss, K. (Projektleiter*in (PI)), Sato, T. (Projektleiter*in (PI)), Krägeloh-Mann, I. (Projektleiter*in (PI)), Wilke, M. (Projektleiter*in (PI)), Hallschmid, M. (Projektleiter*in (PI)), Schmid, S. (Projektleiter*in (PI)), Kern, W. (Projektleiter*in (PI)), Perras, B. (Projektleiter*in (PI)), Poets, C. F. (Projektleiter*in (PI)), Sayk, F. (Projektleiter*in (PI)), Oster, H. (Projektleiter*in (PI)), Lehnert, H. (Projektleiter*in (PI)), Baier, P. C. (Projektleiter*in (PI)), Oltmanns, K. (Projektleiter*in (PI)), Fritsche, A. (Projektleiter*in (PI)), Preissl, H. (Projektleiter*in (PI)), Ernst, M. (Projektleiter*in (PI)), Zabel, P. (Projektleiter*in (PI)), Solbach, W. (Projektleiter*in (PI)), Kalies, K. (Projektleiter*in (PI)), Westermann, J. (Projektleiter*in (PI)), Rose-John, S. (Projektleiter*in (PI)), Lange, T. (Projektleiter*in (PI)), Rammensee, H. G. (Projektleiter*in (PI)), Autenrieth, S. E. (Projektleiter*in (PI)), Köhl, J. (Projektleiter*in (PI)) & Ehlers, M. (Projektleiter*in (PI))
01.01.05 → 31.12.17
Projekt: DFG Verbundprojekte › DFG Sonderforschungsbereiche / Transregios (SFB/TR)

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@article{1ad05c7b44424f93be8a591023791d2b,

title = "Thalamic Spindles Promote Memory Formation during Sleep through Triple Phase-Locking of Cortical, Thalamic, and Hippocampal Rhythms",

abstract = "While the interaction of the cardinal rhythms of non-rapid-eye-movement (NREM) sleep—the thalamo-cortical spindles, hippocampal ripples, and the cortical slow oscillations—is thought to be critical for memory consolidation during sleep, the role spindles play in this interaction is elusive. Combining optogenetics with a closed-loop stimulation approach in mice, we show here that only thalamic spindles induced in-phase with cortical slow oscillation up-states, but not out-of-phase-induced spindles, improve consolidation of hippocampus-dependent memory during sleep. Whereas optogenetically stimulated spindles were as efficient as spontaneous spindles in nesting hippocampal ripples within their excitable troughs, stimulation in-phase with the slow oscillation up-state increased spindle co-occurrence and frontal spindle-ripple co-occurrence, eventually resulting in increased triple coupling of slow oscillation-spindle-ripple events. In-phase optogenetic suppression of thalamic spindles impaired hippocampus-dependent memory. Our results suggest a causal role for thalamic sleep spindles in hippocampus-dependent memory consolidation, conveyed through triple coupling of slow oscillations, spindles, and ripples. Latchoumane et al. demonstrate a causal role of sleep spindles in memory formation. They show that optogenetic induction of thalamic spindles, when phase-locked to the slow oscillation up-state, enhances the triple coupling of slow oscillations-spindles-ripples together with hippocampus-dependent memory consolidation.",

author = "Latchoumane, \{Charles Francois V.\} and Ngo, \{Hong Viet V.\} and Jan Born and Shin, \{Hee Sup\}",

note = "Funding Information: This work was supported by the grant IBS-R001-D1 from the Institute for Basic Science, Korea, the Deutsche Forschungsgemeinschaft (Tr-SFB 654 ?Plasticity and Sleep?), and the German Federal Ministry of Education and Research (01GI0925 and 01GQ0973). We thank Matthias M?lle, Eunyoung Bang, Boyoung Lee, Yooncheol Jang, Joon-Hyuk Lee, and Seung-eun Lee for experimental support. Funding Information: This work was supported by the grant IBS-R001-D1 from the Institute for Basic Science , Korea, the Deutsche Forschungsgemeinschaft ( Tr-SFB 654 “Plasticity and Sleep”), and the German Federal Ministry of Education and Research ( 01GI0925 and 01GQ0973 ). We thank Matthias M{\"o}lle, Eunyoung Bang, Boyoung Lee, Yooncheol Jang, Joon-Hyuk Lee, and Seung-eun Lee for experimental support. Publisher Copyright: {\textcopyright} 2017 Elsevier Inc. Copyright: Copyright 2017 Elsevier B.V., All rights reserved.",

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month = jul,

day = "19",

doi = "10.1016/j.neuron.2017.06.025",

language = "English",

volume = "95",

pages = "424--435.e6",

journal = "Neuron",

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T1 - Thalamic Spindles Promote Memory Formation during Sleep through Triple Phase-Locking of Cortical, Thalamic, and Hippocampal Rhythms

AU - Latchoumane, Charles Francois V.

AU - Ngo, Hong Viet V.

AU - Born, Jan

AU - Shin, Hee Sup

N1 - Funding Information: This work was supported by the grant IBS-R001-D1 from the Institute for Basic Science, Korea, the Deutsche Forschungsgemeinschaft (Tr-SFB 654 ?Plasticity and Sleep?), and the German Federal Ministry of Education and Research (01GI0925 and 01GQ0973). We thank Matthias M?lle, Eunyoung Bang, Boyoung Lee, Yooncheol Jang, Joon-Hyuk Lee, and Seung-eun Lee for experimental support. Funding Information: This work was supported by the grant IBS-R001-D1 from the Institute for Basic Science , Korea, the Deutsche Forschungsgemeinschaft ( Tr-SFB 654 “Plasticity and Sleep”), and the German Federal Ministry of Education and Research ( 01GI0925 and 01GQ0973 ). We thank Matthias Mölle, Eunyoung Bang, Boyoung Lee, Yooncheol Jang, Joon-Hyuk Lee, and Seung-eun Lee for experimental support. Publisher Copyright: © 2017 Elsevier Inc. Copyright: Copyright 2017 Elsevier B.V., All rights reserved.

PY - 2017/7/19

Y1 - 2017/7/19

N2 - While the interaction of the cardinal rhythms of non-rapid-eye-movement (NREM) sleep—the thalamo-cortical spindles, hippocampal ripples, and the cortical slow oscillations—is thought to be critical for memory consolidation during sleep, the role spindles play in this interaction is elusive. Combining optogenetics with a closed-loop stimulation approach in mice, we show here that only thalamic spindles induced in-phase with cortical slow oscillation up-states, but not out-of-phase-induced spindles, improve consolidation of hippocampus-dependent memory during sleep. Whereas optogenetically stimulated spindles were as efficient as spontaneous spindles in nesting hippocampal ripples within their excitable troughs, stimulation in-phase with the slow oscillation up-state increased spindle co-occurrence and frontal spindle-ripple co-occurrence, eventually resulting in increased triple coupling of slow oscillation-spindle-ripple events. In-phase optogenetic suppression of thalamic spindles impaired hippocampus-dependent memory. Our results suggest a causal role for thalamic sleep spindles in hippocampus-dependent memory consolidation, conveyed through triple coupling of slow oscillations, spindles, and ripples. Latchoumane et al. demonstrate a causal role of sleep spindles in memory formation. They show that optogenetic induction of thalamic spindles, when phase-locked to the slow oscillation up-state, enhances the triple coupling of slow oscillations-spindles-ripples together with hippocampus-dependent memory consolidation.

AB - While the interaction of the cardinal rhythms of non-rapid-eye-movement (NREM) sleep—the thalamo-cortical spindles, hippocampal ripples, and the cortical slow oscillations—is thought to be critical for memory consolidation during sleep, the role spindles play in this interaction is elusive. Combining optogenetics with a closed-loop stimulation approach in mice, we show here that only thalamic spindles induced in-phase with cortical slow oscillation up-states, but not out-of-phase-induced spindles, improve consolidation of hippocampus-dependent memory during sleep. Whereas optogenetically stimulated spindles were as efficient as spontaneous spindles in nesting hippocampal ripples within their excitable troughs, stimulation in-phase with the slow oscillation up-state increased spindle co-occurrence and frontal spindle-ripple co-occurrence, eventually resulting in increased triple coupling of slow oscillation-spindle-ripple events. In-phase optogenetic suppression of thalamic spindles impaired hippocampus-dependent memory. Our results suggest a causal role for thalamic sleep spindles in hippocampus-dependent memory consolidation, conveyed through triple coupling of slow oscillations, spindles, and ripples. Latchoumane et al. demonstrate a causal role of sleep spindles in memory formation. They show that optogenetic induction of thalamic spindles, when phase-locked to the slow oscillation up-state, enhances the triple coupling of slow oscillations-spindles-ripples together with hippocampus-dependent memory consolidation.

UR - https://www.scopus.com/pages/publications/85021793353

U2 - 10.1016/j.neuron.2017.06.025

DO - 10.1016/j.neuron.2017.06.025

M3 - Journal articles

C2 - 28689981

AN - SCOPUS:85021793353

SN - 0896-6273

VL - 95

SP - 424-435.e6

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JF - Neuron

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ER -

Thalamic Spindles Promote Memory Formation during Sleep through Triple Phase-Locking of Cortical, Thalamic, and Hippocampal Rhythms

Abstract

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