Driving fast-spiking cells induces gamma rhythm and controls sensory responses
Jessica A. Cardin,Marie Carlén,Marie Carlén,Konstantinos Meletis,Konstantinos Meletis,Ulf Knoblich,Feng Zhang,Karl Deisseroth,Li-Huei Tsai,Li-Huei Tsai,Li-Huei Tsai,Christopher I. Moore +11 more
TLDR
The timing of a sensory input relative to a gamma cycle determined the amplitude and precision of evoked responses and provided the first causal evidence that distinct network activity states can be induced in vivo by cell-type-specific activation.Abstract:
Corticalgammaoscillations(20280Hz)predictincreasesinfocusedattention,andfailureingammaregulationisahallmark of neurological and psychiatric disease. Current theory predicts that gamma oscillations are generated by synchronous activity of fast-spiking inhibitory interneurons, with the resulting rhythmic inhibition producing neural ensemble synchrony by generating a narrow window for effective excitation. We causally tested these hypotheses in barrel cortex in vivo by targeting optogenetic manipulation selectively to fast-spiking interneurons. Here we show that light-driven activation of fast-spiking interneurons atvariedfrequencies (82200Hz) selectivelyamplifies gamma oscillations. Incontrast, pyramidal neuron activation amplifies only lower frequency oscillations, a cell-type-specific double dissociation. We found that the timing of a sensory input relative to a gamma cycle determined the amplitude and precision of evoked responses. Our data directly support the fast-spiking-gamma hypothesis and provide the first causal evidence that distinct network activity states can be induced in vivo by cell-type-specific activation.read more
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Shaping functional architecture by oscillatory alpha activity : gating by inhibition
Ole Jensen,Ali Mazaheri +1 more
TL;DR: It is proposed that information is gated by inhibiting task-irrelevant regions, thus routing information to task-relevant regions and the empirical support for this framework is discussed.
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Mechanisms of Gamma Oscillations
György Buzsáki,Xiao Jing Wang +1 more
TL;DR: The cellular and synaptic mechanisms underlying gamma oscillations are reviewed and empirical questions and controversial conceptual issues are outlined, finding that gamma-band rhythmogenesis is inextricably tied to perisomatic inhibition.
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Rhythms for Cognition: Communication through Coherence.
TL;DR: Several rhythms and their interplay render neuronal communication effective, precise, and selective in neuronal groups.
Journal ArticleDOI
Neurophysiological and Computational Principles of Cortical Rhythms in Cognition
TL;DR: A plethora of studies will be reviewed on the involvement of long-distance neuronal coherence in cognitive functions such as multisensory integration, working memory, and selective attention, and implications of abnormal neural synchronization are discussed as they relate to mental disorders like schizophrenia and autism.
Journal ArticleDOI
Optogenetics in neural systems.
TL;DR: A primer on the application of optogenetics in neuroscience is provided, focusing on the single-component tools and highlighting important problems, challenges, and technical considerations.
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A Randomized Trial of Deep-Brain Stimulation for Parkinson's Disease
Günther Deuschl,Carmen Schade-Brittinger,Paul Krack,Jens Volkmann,Helmut Schäfer,Kai Bötzel,C. Daniels,Angela Deutschländer,Ulrich Dillmann,Wilhelm Eisner,Doreen Gruber,Wolfgang Hamel,Jan Herzog,Rüdiger Hilker,Stephan Klebe,Manja Kloss,J. Koy,Martin Krause,Andreas Kupsch,Delia Lorenz,Stefan Lorenzl,H. Maximilian Mehdorn,Jean Richard Moringlane,Wolfgang H. Oertel,Marcus O. Pinsker,Heinz Reichmann,Alexander Reuss,Gerd-Helge Schneider,Alfons Schnitzler,Ulrich Steude,Volker Sturm,Lars Timmermann,Volker M. Tronnier,Thomas Trottenberg,Lars Wojtecki,Elisabeth Wolf,Werner Poewe,Jürgen Voges +37 more
TL;DR: In this six-month study of patients under 75 years of age with severe motor complications of Parkinson's disease, neurostimulation of the subthalamic nucleus was more effective than medical management alone.