Literature DB >> 25754826

Gamma rhythms link prefrontal interneuron dysfunction with cognitive inflexibility in Dlx5/6(+/-) mice.

Kathleen K A Cho1, Renee Hoch2, Anthony T Lee1, Tosha Patel1, John L R Rubenstein2, Vikaas S Sohal3.   

Abstract

Abnormalities in GABAergic interneurons, particularly fast-spiking interneurons (FSINs) that generate gamma (γ; ∼30-120 Hz) oscillations, are hypothesized to disrupt prefrontal cortex (PFC)-dependent cognition in schizophrenia. Although γ rhythms are abnormal in schizophrenia, it remains unclear whether they directly influence cognition. Mechanisms underlying schizophrenia's typical post-adolescent onset also remain elusive. We addressed these issues using mice heterozygous for Dlx5/6, which regulate GABAergic interneuron development. In Dlx5/6(+/-) mice, FSINs become abnormal following adolescence, coinciding with the onset of cognitive inflexibility and deficient task-evoked γ oscillations. Inhibiting PFC interneurons in control mice reproduced these deficits, whereas stimulating them at γ-frequencies restored cognitive flexibility in adult Dlx5/6(+/-) mice. These pro-cognitive effects were frequency specific and persistent. These findings elucidate a mechanism whereby abnormal FSIN development may contribute to the post-adolescent onset of schizophrenia endophenotypes. Furthermore, they demonstrate a causal, potentially therapeutic, role for PFC interneuron-driven γ oscillations in cognitive domains at the core of schizophrenia.
Copyright © 2015 Elsevier Inc. All rights reserved.

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Year:  2015        PMID: 25754826      PMCID: PMC4503262          DOI: 10.1016/j.neuron.2015.02.019

Source DB:  PubMed          Journal:  Neuron        ISSN: 0896-6273            Impact factor:   17.173


  39 in total

1.  NMDA antagonists recreate signal-to-noise ratio and timing perturbations present in schizophrenia.

Authors:  John A Saunders; Michael J Gandal; Steve J Siegel
Journal:  Neurobiol Dis       Date:  2012-01-09       Impact factor: 5.996

2.  Erbb4 deletion from fast-spiking interneurons causes schizophrenia-like phenotypes.

Authors:  Isabel Del Pino; Cristina García-Frigola; Nathalie Dehorter; Jorge R Brotons-Mas; Efrén Alvarez-Salvado; María Martínez de Lagrán; Gabriele Ciceri; María Victoria Gabaldón; David Moratal; Mara Dierssen; Santiago Canals; Oscar Marín; Beatriz Rico
Journal:  Neuron       Date:  2013-09-18       Impact factor: 17.173

3.  Anterior cingulate cortex activation is related to learning potential on the WCST in schizophrenia patients.

Authors:  Anya Pedersen; Andreas Wilmsmeier; Karl H Wiedl; Jochen Bauer; Kerstin Kueppers; Katja Koelkebeck; Waldemar Kohl; Harald Kugel; Volker Arolt; Patricia Ohrmann
Journal:  Brain Cogn       Date:  2012-05-01       Impact factor: 2.310

4.  Pyramidal neurons in prefrontal cortex receive subtype-specific forms of excitation and inhibition.

Authors:  Anthony T Lee; Steven M Gee; Daniel Vogt; Tosha Patel; John L Rubenstein; Vikaas S Sohal
Journal:  Neuron       Date:  2013-12-19       Impact factor: 17.173

Review 5.  Prenatal ontogeny as a susceptibility period for cortical GABA neuron disturbances in schizophrenia.

Authors:  D W Volk; D A Lewis
Journal:  Neuroscience       Date:  2013-06-14       Impact factor: 3.590

6.  Interneurons are necessary for coordinated activity during reversal learning in orbitofrontal cortex.

Authors:  Gregory B Bissonette; Geoffrey Schoenbaum; Matthew R Roesch; Elizabeth M Powell
Journal:  Biol Psychiatry       Date:  2014-08-01       Impact factor: 13.382

7.  A critical role for NMDA receptors in parvalbumin interneurons for gamma rhythm induction and behavior.

Authors:  M Carlén; K Meletis; J H Siegle; J A Cardin; K Futai; D Vierling-Claassen; C Rühlmann; S R Jones; K Deisseroth; M Sheng; C I Moore; L-H Tsai
Journal:  Mol Psychiatry       Date:  2011-04-05       Impact factor: 15.992

8.  Gamma-range synchronization of fast-spiking interneurons can enhance detection of tactile stimuli.

Authors:  Joshua H Siegle; Dominique L Pritchett; Christopher I Moore
Journal:  Nat Neurosci       Date:  2014-08-24       Impact factor: 24.884

9.  Activation of specific interneurons improves V1 feature selectivity and visual perception.

Authors:  Seung-Hee Lee; Alex C Kwan; Siyu Zhang; Victoria Phoumthipphavong; John G Flannery; Sotiris C Masmanidis; Hiroki Taniguchi; Z Josh Huang; Feng Zhang; Edward S Boyden; Karl Deisseroth; Yang Dan
Journal:  Nature       Date:  2012-08-16       Impact factor: 49.962

10.  Autistic-like behaviour in Scn1a+/- mice and rescue by enhanced GABA-mediated neurotransmission.

Authors:  Sung Han; Chao Tai; Ruth E Westenbroek; Frank H Yu; Christine S Cheah; Gregory B Potter; John L Rubenstein; Todd Scheuer; Horacio O de la Iglesia; William A Catterall
Journal:  Nature       Date:  2012-08-22       Impact factor: 49.962
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  132 in total

1.  Prefrontal cortical GABAergic signaling and impaired behavioral flexibility in aged F344 rats.

Authors:  B S Beas; J A McQuail; C Ban Uelos; B Setlow; J L Bizon
Journal:  Neuroscience       Date:  2016-02-09       Impact factor: 3.590

2.  Layer-specific excitation/inhibition balances during neuronal synchronization in the visual cortex.

Authors:  Hillel Adesnik
Journal:  J Physiol       Date:  2018-01-24       Impact factor: 5.182

3.  p75 Neurotrophin Receptor Activation Regulates the Timing of the Maturation of Cortical Parvalbumin Interneuron Connectivity and Promotes Juvenile-like Plasticity in Adult Visual Cortex.

Authors:  Elie Baho; Bidisha Chattopadhyaya; Marisol Lavertu-Jolin; Raffaele Mazziotti; Patricia N Awad; Pegah Chehrazi; Marianne Groleau; Celine Jahannault-Talignani; Elvire Vaucher; Fabrice Ango; Tommaso Pizzorusso; Laura Baroncelli; Graziella Di Cristo
Journal:  J Neurosci       Date:  2019-04-01       Impact factor: 6.167

4.  Diminished Fear Extinction in Adolescents Is Associated With an Altered Somatostatin Interneuron-Mediated Inhibition in the Infralimbic Cortex.

Authors:  Peter Koppensteiner; Richard Von Itter; Riccardo Melani; Christopher Galvin; Francis S Lee; Ipe Ninan
Journal:  Biol Psychiatry       Date:  2019-05-13       Impact factor: 13.382

5.  Distinct Physiological Maturation of Parvalbumin-Positive Neuron Subtypes in Mouse Prefrontal Cortex.

Authors:  Takeaki Miyamae; Kehui Chen; David A Lewis; Guillermo Gonzalez-Burgos
Journal:  J Neurosci       Date:  2017-04-13       Impact factor: 6.167

6.  Gamma oscillations organize top-down signalling to hypothalamus and enable food seeking.

Authors:  Marta Carus-Cadavieco; Maria Gorbati; Li Ye; Franziska Bender; Suzanne van der Veldt; Christin Kosse; Christoph Börgers; Soo Yeun Lee; Charu Ramakrishnan; Yubin Hu; Natalia Denisova; Franziska Ramm; Emmanouela Volitaki; Denis Burdakov; Karl Deisseroth; Alexey Ponomarenko; Tatiana Korotkova
Journal:  Nature       Date:  2017-02-01       Impact factor: 49.962

7.  The critical role of persistent sodium current in hippocampal gamma oscillations.

Authors:  Young-Jin Kang; Ethan M Clement; Stefan L Sumsky; Yangfei Xiang; In-Hyun Park; Sabato Santaniello; Lazar John Greenfield; Edgar Garcia-Rill; Bret N Smith; Sang-Hun Lee
Journal:  Neuropharmacology       Date:  2019-09-21       Impact factor: 5.250

8.  Tonic or Phasic Stimulation of Dopaminergic Projections to Prefrontal Cortex Causes Mice to Maintain or Deviate from Previously Learned Behavioral Strategies.

Authors:  Ian T Ellwood; Tosha Patel; Varun Wadia; Anthony T Lee; Alayna T Liptak; Kevin J Bender; Vikaas S Sohal
Journal:  J Neurosci       Date:  2017-07-24       Impact factor: 6.167

Review 9.  Casting a Wide Net: Role of Perineuronal Nets in Neural Plasticity.

Authors:  Barbara A Sorg; Sabina Berretta; Jordan M Blacktop; James W Fawcett; Hiroshi Kitagawa; Jessica C F Kwok; Marta Miquel
Journal:  J Neurosci       Date:  2016-11-09       Impact factor: 6.167

10.  Contemporary strategies for dissecting the neuronal basis of neurodevelopmental disorders.

Authors:  Dong-Oh Seo; Laura E Motard; Michael R Bruchas
Journal:  Neurobiol Learn Mem       Date:  2018-03-14       Impact factor: 2.877
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