Literature DB >> 27103515

Repression of the eIF2α kinase PERK alleviates mGluR-LTD impairments in a mouse model of Alzheimer's disease.

Wenzhong Yang1, Xueyan Zhou1, Helena R Zimmermann1, Douglas R Cavener2, Eric Klann3, Tao Ma4.   

Abstract

Mounting evidence indicates that impairments of synaptic efficacy and/or plasticity may be a key step in the development of Alzheimer's disease (AD) pathophysiology. Among the 2 major forms of synaptic plasticity, long-term potentiation and long-term depression (LTD), much less is known about how LTD is regulated in AD and its molecular mechanisms. Recent studies indicate that metabotropic glutamate receptor 5 (mGluR5) may function as a receptor and/or co-receptor for amyloid beta. Herein, we examined mGluR-LTD in hippocampal slices from aged APP/PS1 mutant mice that model AD. Our findings demonstrate that mGluR-LTD is blocked in APP/PS1 mice, and that the mGluR-LTD failure is reversed by either genetically or pharmacologically suppressing the activity of PERK, a kinase for the mRNA translation factor eIF2α. These data are congruent with recent evidence that inhibition of eIF2α phosphorylation via PERK suppression and reversal of de novo protein synthesis deficits can mitigate cognitive deficits in neurodegenerative diseases. Together with reports indicating that mGluR5 may mediate amyloid beta synaptotoxicity, our findings offer insights into novel therapeutic targets for AD and other cognitive syndromes.
Copyright © 2016 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  Alzheimer's disease; PERK; Protein synthesis; Synaptic plasticity; eIF2α; mGluR-LTD

Mesh:

Substances:

Year:  2016        PMID: 27103515      PMCID: PMC4841914          DOI: 10.1016/j.neurobiolaging.2016.02.005

Source DB:  PubMed          Journal:  Neurobiol Aging        ISSN: 0197-4580            Impact factor:   4.673


  44 in total

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4.  Early-onset behavioral and synaptic deficits in a mouse model of Alzheimer's disease.

Authors:  J Steven Jacobsen; Chi-Cheng Wu; Jeffrey M Redwine; Thomas A Comery; Robert Arias; Mark Bowlby; Robert Martone; John H Morrison; Menelas N Pangalos; Peter H Reinhart; Floyd E Bloom
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5.  Soluble oligomers of beta amyloid (1-42) inhibit long-term potentiation but not long-term depression in rat dentate gyrus.

Authors:  Hai-Wei Wang; Joseph F Pasternak; Helen Kuo; Helen Ristic; Mary P Lambert; Brett Chromy; Kirsten L Viola; William L Klein; W Blaine Stine; Grant A Krafft; Barbara L Trommer
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6.  Amyloid-beta protein dimers isolated directly from Alzheimer's brains impair synaptic plasticity and memory.

Authors:  Ganesh M Shankar; Shaomin Li; Tapan H Mehta; Amaya Garcia-Munoz; Nina E Shepardson; Imelda Smith; Francesca M Brett; Michael A Farrell; Michael J Rowan; Cynthia A Lemere; Ciaran M Regan; Dominic M Walsh; Bernardo L Sabatini; Dennis J Selkoe
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7.  Dysregulation of the mTOR pathway mediates impairment of synaptic plasticity in a mouse model of Alzheimer's disease.

Authors:  Tao Ma; Charles A Hoeffer; Estibaliz Capetillo-Zarate; Fangmin Yu; Helen Wong; Michael T Lin; Davide Tampellini; Eric Klann; Robert D Blitzer; Gunnar K Gouras
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8.  Use-dependent effects of amyloidogenic fragments of (beta)-amyloid precursor protein on synaptic plasticity in rat hippocampus in vivo.

Authors:  J H Kim; R Anwyl; Y H Suh; M B Djamgoz; M J Rowan
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9.  Amyloid β-induced impairments in hippocampal synaptic plasticity are rescued by decreasing mitochondrial superoxide.

Authors:  Tao Ma; Charles A Hoeffer; Helen Wong; Cynthia A Massaad; Ping Zhou; Costantino Iadecola; Michael P Murphy; Robia G Pautler; Eric Klann
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10.  The eIF2α kinase PERK limits the expression of hippocampal metabotropic glutamate receptor-dependent long-term depression.

Authors:  Mimi A Trinh; Tao Ma; Hanoch Kaphzan; Aditi Bhattacharya; Marcia D Antion; Douglas R Cavener; Charles A Hoeffer; Eric Klann
Journal:  Learn Mem       Date:  2014-04-16       Impact factor: 2.460
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  42 in total

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3.  Genetic removal of eIF2α kinase PERK in mice enables hippocampal L-LTP independent of mTORC1 activity.

Authors:  Helena R Zimmermann; Wenzhong Yang; Brenna C Beckelman; Nicole P Kasica; Xueyan Zhou; Lucas Dufresne Galli; Alexey G Ryazanov; Tao Ma
Journal:  J Neurochem       Date:  2018-07       Impact factor: 5.372

4.  Local Inhibition of PERK Enhances Memory and Reverses Age-Related Deterioration of Cognitive and Neuronal Properties.

Authors:  Vijendra Sharma; Hadile Ounallah-Saad; Darpan Chakraborty; Mohammad Hleihil; Rapita Sood; Iliana Barrera; Efrat Edry; Sailendrakumar Kolatt Chandran; Shlomo Ben Tabou de Leon; Hanoch Kaphzan; Kobi Rosenblum
Journal:  J Neurosci       Date:  2017-12-01       Impact factor: 6.167

5.  Brain-specific repression of AMPKα1 alleviates pathophysiology in Alzheimer's model mice.

Authors:  Helena R Zimmermann; Wenzhong Yang; Nicole P Kasica; Xueyan Zhou; Xin Wang; Brenna C Beckelman; Jingyun Lee; Cristina M Furdui; C Dirk Keene; Tao Ma
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Review 6.  Fragile X and APP: a Decade in Review, a Vision for the Future.

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Review 7.  Regulation of mRNA Translation in Neurons-A Matter of Life and Death.

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Review 8.  Endoplasmic reticulum stress: New insights into the pathogenesis and treatment of retinal degenerative diseases.

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9.  Suppression of the kinase for elongation factor 2 alleviates mGluR-LTD impairments in a mouse model of Alzheimer's disease.

Authors:  Wenzhong Yang; Xueyan Zhou; Alexey G Ryazanov; Tao Ma
Journal:  Neurobiol Aging       Date:  2020-11-30       Impact factor: 4.673

10.  Protein expression alteration in hippocampus upon genetic repression of AMPKα isoforms.

Authors:  Wenzhong Yang; Xueyan Zhou; Xin Wang; Jingyun Lee; Dan Wu; Peiqing Sun; Cristina M Furdui; Tao Ma
Journal:  Hippocampus       Date:  2021-01-25       Impact factor: 3.899
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