Tau inhibits PKA by nuclear proteasome‐dependent PKAR2α elevation with suppressed CREB/GluA1 phosphorylation
Intraneuronal accumulation of wild‐type tau plays a key role in Alzheimer's disease, while the mechanisms underlying tauopathy and memory impairment remain unclear. Here, we report that overexpressing full‐length wild‐type human tau (hTau) in mouse hippocampus induces learning and memory defici...
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| Published in: | Aging cell Vol. 19; no. 1; pp. e13055 - n/a |
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01-01-2020
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| Abstract | Intraneuronal accumulation of wild‐type tau plays a key role in Alzheimer's disease, while the mechanisms underlying tauopathy and memory impairment remain unclear. Here, we report that overexpressing full‐length wild‐type human tau (hTau) in mouse hippocampus induces learning and memory deficits with remarkably reduced levels of multiple synapse‐ and memory‐associated proteins. Overexpressing hTau inhibits the activity of protein kinase A (PKA) and decreases the phosphorylation level of cAMP‐response element binding protein (CREB), GluA1, and TrkB with reduced BDNF mRNA and protein levels both in vitro and in vivo. Simultaneously, overexpressing hTau increased PKAR2α (an inhibitory subunit of PKA) in nuclear fraction and inactivated proteasome activity. With an increased association of PKAR2α with PA28γ (a nuclear proteasome activator), the formation of PA28γ‐20S proteasome complex remarkably decreased in the nuclear fraction, followed by a reduced interaction of PKAR2α with 20S proteasome. Both downregulating PKAR2α by shRNA and upregulating proteasome by expressing PA28γ rescued hTau‐induced PKA inhibition and CREB dephosphorylation, and upregulating PKA improved hTau‐induced cognitive deficits in mice. Together, these data reveal that intracellular tau accumulation induces synapse and memory impairments by inhibiting PKA/CREB/BDNF/TrkB and PKA/GluA1 signaling, and deficit of PA28γ‐20S proteasome complex formation contributes to PKAR2α elevation and PKA inhibition.
Tau overexpressed decreases the formation of PA28γ‐20S proteasome complex by increasing the association of PKAR2α (an inhibitory subunit of PKA) with PA28γ (a nuclear proteasome activator), which leads to reduced PKAR2α degradation in ubiquitin‐independent proteasome degradation pathway mediated by PA28γ‐20S proteasome complex. PKA inhibition by elevated PKAR2α in nuclear fraction finally induces synapse impairments and memory deficits by inhibiting PKA/CREB/BDNF/TrkB and PKA/GluA1 signaling. |
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| AbstractList | Intraneuronal accumulation of wild-type tau plays a key role in Alzheimer's disease, while the mechanisms underlying tauopathy and memory impairment remain unclear. Here, we report that overexpressing full-length wild-type human tau (hTau) in mouse hippocampus induces learning and memory deficits with remarkably reduced levels of multiple synapse- and memory-associated proteins. Overexpressing hTau inhibits the activity of protein kinase A (PKA) and decreases the phosphorylation level of cAMP-response element binding protein (CREB), GluA1, and TrkB with reduced BDNF mRNA and protein levels both in vitro and in vivo. Simultaneously, overexpressing hTau increased PKAR2α (an inhibitory subunit of PKA) in nuclear fraction and inactivated proteasome activity. With an increased association of PKAR2α with PA28γ (a nuclear proteasome activator), the formation of PA28γ-20S proteasome complex remarkably decreased in the nuclear fraction, followed by a reduced interaction of PKAR2α with 20S proteasome. Both downregulating PKAR2α by shRNA and upregulating proteasome by expressing PA28γ rescued hTau-induced PKA inhibition and CREB dephosphorylation, and upregulating PKA improved hTau-induced cognitive deficits in mice. Together, these data reveal that intracellular tau accumulation induces synapse and memory impairments by inhibiting PKA/CREB/BDNF/TrkB and PKA/GluA1 signaling, and deficit of PA28γ-20S proteasome complex formation contributes to PKAR2α elevation and PKA inhibition. Intraneuronal accumulation of wild‐type tau plays a key role in Alzheimer's disease, while the mechanisms underlying tauopathy and memory impairment remain unclear. Here, we report that overexpressing full‐length wild‐type human tau (hTau) in mouse hippocampus induces learning and memory deficits with remarkably reduced levels of multiple synapse‐ and memory‐associated proteins. Overexpressing hTau inhibits the activity of protein kinase A (PKA) and decreases the phosphorylation level of cAMP‐response element binding protein (CREB), GluA1, and TrkB with reduced BDNF mRNA and protein levels both in vitro and in vivo. Simultaneously, overexpressing hTau increased PKAR2α (an inhibitory subunit of PKA) in nuclear fraction and inactivated proteasome activity. With an increased association of PKAR2α with PA28γ (a nuclear proteasome activator), the formation of PA28γ‐20S proteasome complex remarkably decreased in the nuclear fraction, followed by a reduced interaction of PKAR2α with 20S proteasome. Both downregulating PKAR2α by shRNA and upregulating proteasome by expressing PA28γ rescued hTau‐induced PKA inhibition and CREB dephosphorylation, and upregulating PKA improved hTau‐induced cognitive deficits in mice. Together, these data reveal that intracellular tau accumulation induces synapse and memory impairments by inhibiting PKA/CREB/BDNF/TrkB and PKA/GluA1 signaling, and deficit of PA28γ‐20S proteasome complex formation contributes to PKAR2α elevation and PKA inhibition. Tau overexpressed decreases the formation of PA28γ‐20S proteasome complex by increasing the association of PKAR2α (an inhibitory subunit of PKA) with PA28γ (a nuclear proteasome activator), which leads to reduced PKAR2α degradation in ubiquitin‐independent proteasome degradation pathway mediated by PA28γ‐20S proteasome complex. PKA inhibition by elevated PKAR2α in nuclear fraction finally induces synapse impairments and memory deficits by inhibiting PKA/CREB/BDNF/TrkB and PKA/GluA1 signaling. |
| Audience | Academic |
| Author | Wei, Linyu Ye, Jinwang Tao, Xiaoqing Wang, Jian‐Zhi Liu, Huanhuan Zuo, Yue Ke, Dan Yin, Yaling Fang, Lin Yin, Ying |
| AuthorAffiliation | 2 Department of Physiology and Neurobiology School of Basic Medical Sciences Xinxiang Medical University Xinxiang China 3 School of Pharmacy Xinxiang Medical University Xinxiang China 5 Co‐innovation Center of Neurodegeneration Nantong University Nantong China 4 Department of Physiology School of Basic Medicine Tongji Medical College Huazhong University of Science and Technology Wuhan China 1 Department of Pathophysiology School of Basic Medicine Key Laboratory of Ministry of Education of China for Neurological Disorders Tongji Medical College Huazhong University of Science and Technology Wuhan China |
| AuthorAffiliation_xml | – name: 4 Department of Physiology School of Basic Medicine Tongji Medical College Huazhong University of Science and Technology Wuhan China – name: 3 School of Pharmacy Xinxiang Medical University Xinxiang China – name: 2 Department of Physiology and Neurobiology School of Basic Medical Sciences Xinxiang Medical University Xinxiang China – name: 5 Co‐innovation Center of Neurodegeneration Nantong University Nantong China – name: 1 Department of Pathophysiology School of Basic Medicine Key Laboratory of Ministry of Education of China for Neurological Disorders Tongji Medical College Huazhong University of Science and Technology Wuhan China |
| Author_xml | – sequence: 1 givenname: Jinwang surname: Ye fullname: Ye, Jinwang organization: Huazhong University of Science and Technology – sequence: 2 givenname: Yaling orcidid: 0000-0003-0160-196X surname: Yin fullname: Yin, Yaling email: yalingyin@xxmu.edu.cn organization: Xinxiang Medical University – sequence: 3 givenname: Huanhuan surname: Liu fullname: Liu, Huanhuan organization: Xinxiang Medical University – sequence: 4 givenname: Lin surname: Fang fullname: Fang, Lin organization: Huazhong University of Science and Technology – sequence: 5 givenname: Xiaoqing surname: Tao fullname: Tao, Xiaoqing organization: Huazhong University of Science and Technology – sequence: 6 givenname: Linyu surname: Wei fullname: Wei, Linyu organization: Xinxiang Medical University – sequence: 7 givenname: Yue surname: Zuo fullname: Zuo, Yue organization: Xinxiang Medical University – sequence: 8 givenname: Ying surname: Yin fullname: Yin, Ying organization: Huazhong University of Science and Technology – sequence: 9 givenname: Dan surname: Ke fullname: Ke, Dan organization: Huazhong University of Science and Technology – sequence: 10 givenname: Jian‐Zhi surname: Wang fullname: Wang, Jian‐Zhi email: wangjz@mail.hust.edu.cn organization: Nantong University |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/31668016$$D View this record in MEDLINE/PubMed |
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| Copyright | 2019 The Authors. published by the Anatomical Society and John Wiley & Sons Ltd. 2019 The Authors. Aging Cell published by the Anatomical Society and John Wiley & Sons Ltd. COPYRIGHT 2019 John Wiley & Sons, Inc. Copyright © 2020 The Anatomical Society and John Wiley & Sons Ltd |
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| Keywords | proteasome CREB PKA PA28γ Tau GluA1 synaptic plasticity |
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| License | Attribution 2019 The Authors. Aging Cell published by the Anatomical Society and John Wiley & Sons Ltd. This is an open access article under the terms of the http://creativecommons.org/licenses/by/4.0/ License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited. |
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| Notes | ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 Jinwang Ye and Yaling Yin contributed equally to this work. |
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| SubjectTerms | Alzheimer's disease Brain-derived neurotrophic factor Cognitive ability CREB CREB-Binding Protein - metabolism Cyclic adenylic acid Cyclic AMP response element-binding protein Cyclic AMP-Dependent Protein Kinases - drug effects Dephosphorylation GluA1 Humans Kinases Memory mRNA Neurodegenerative diseases Neuronal Plasticity - genetics Original PA28γ Phosphorylation PKA proteasome Proteasome activator Protein binding Protein kinase A Protein kinases Proteins RNA Signal Transduction Synapses - metabolism synaptic plasticity Tau Tau protein tau Proteins - metabolism TrkB receptors |
| Title | Tau inhibits PKA by nuclear proteasome‐dependent PKAR2α elevation with suppressed CREB/GluA1 phosphorylation |
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