Effects of cereblon on stress-activated redox proteins and core behavior

[Display omitted] •Crbn−/− mice exhibit resilience to chronic ultra-mild stress.•Pathological phosphorylation of tau and α-synuclein is low in Crbn−/− mice.•Antioxidant, metabolic and chaperone proteins are overexpressed in Crbn−/− mice.•Proteins abundant in Crbn−/− mice cooperatively execute import...

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Published in	Brain research Vol. 1793; p. 148054
Main Authors	Akber, Uroos, Bong, Sunhwa, Park, Zee-Yong, Park, Chul-Seung
Format	Journal Article
Language	English
Published	Elsevier B.V 15.10.2022
Subjects	Antioxidants Cereblon Chaperones Depression Neurodegeneration Neurology Redox proteins WBL AD CRBN KO GSTM CUMS Depression 2D-PAGE Chaperones PRDX6 SOD1 DNAJA1 Antioxidants LC-MS/MS Cereblon Neurodegeneration α-syn ROS AMPK WT Redox proteins SR Peroxiredoxin Reactive oxygen species antioxidants neurodegeneration Superoxide dismutase1 AMP-activated protein kinase Liquid chromatography with tandem mass spectrometry Stress response chaperones α-synuclein Alzheimer’s disease Whole brain lysate Knock out DnaJ Heat Shock Protein Family (Hsp40) Member A1 Wild type Glutathione S-transferase Mu Two dimensional-polyacrylamide gel electrophoresis redox proteins Chronic ultra-mild stress depression
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ISSN	0006-8993 1872-6240 1872-6240
DOI	10.1016/j.brainres.2022.148054

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Abstract	[Display omitted] •Crbn−/− mice exhibit resilience to chronic ultra-mild stress.•Pathological phosphorylation of tau and α-synuclein is low in Crbn−/− mice.•Antioxidant, metabolic and chaperone proteins are overexpressed in Crbn−/− mice.•Proteins abundant in Crbn−/− mice cooperatively execute important biological pathways. The mechanisms underlying the vulnerability and resilience of an individual to stress are only partly understood. Response to stress is determined by behavioral and biochemical changes in the brain. Chronic ultra-mild stress (CUMS) induces an anhedonic-like state in mice that resembles symptoms of human depression. This study reports the role of cereblon (CRBN) in regulating the metabolic and antioxidant status of neuronal tissues in the mouse model of CUMS. Intriguingly, Crbn−/− (KO) mice showed resilient responsiveness, both at the behavioral and proteomic levels. Several core behaviors were also differentially altered by CUMS in KO mice. Liquid chromatography with tandem mass spectrometry (LC-MS/MS)-based proteome analysis of whole brain lysate (WBL) showed an enriched chaperonic, metabolic, and antioxidant status in the brains of KO subjects, including several members of DNAJ chaperones, creatine kinase, quinone oxidoreductase, superoxide dismutase (SOD1), glutathione S-transferase Mu (GSTM), peroxiredoxin-6 (PRDX6), and thioredoxin. Pathological phosphorylation as characterized by aggregation of tau and α-synuclein (α-syn) was significantly reduced in the neuronal tissues of KO mouse model of CUMS as compared to wild type (WT) mice. Furthermore, significantly increased SOD1 activity and reduced lipid peroxidation were observed in Crbn-KO systems. Integrated signaling pathways were also identified in CRBN-specific sub-networks constructed from protein-protein interaction analysis by STRING. The present study highlights the roles of CRBN in regulating the stress response (SR) and reshaping metabolic status in the brains of mice exposed to CUMS. A better understanding of the molecular mechanisms of depression and neurodegeneration can improve the development of novel treatments.
AbstractList	The mechanisms underlying the vulnerability and resilience of an individual to stress are only partly understood. Response to stress is determined by behavioral and biochemical changes in the brain. Chronic ultra-mild stress (CUMS) induces an anhedonic-like state in mice that resembles symptoms of human depression. This study reports the role of cereblon (CRBN) in regulating the metabolic and antioxidant status of neuronal tissues in the mouse model of CUMS. Intriguingly, Crbn-/- (KO) mice showed resilient responsiveness, both at the behavioral and proteomic levels. Several core behaviors were also differentially altered by CUMS in KO mice. Liquid chromatography with tandem mass spectrometry (LC-MS/MS)-based proteome analysis of whole brain lysate (WBL) showed an enriched chaperonic, metabolic, and antioxidant status in the brains of KO subjects, including several members of DNAJ chaperones, creatine kinase, quinone oxidoreductase, superoxide dismutase (SOD1), glutathione S-transferase Mu (GSTM), peroxiredoxin-6 (PRDX6), and thioredoxin. Pathological phosphorylation as characterized by aggregation of tau and α-synuclein (α-syn) was significantly reduced in the neuronal tissues of KO mouse model of CUMS as compared to wild type (WT) mice. Furthermore, significantly increased SOD1 activity and reduced lipid peroxidation were observed in Crbn-KO systems. Integrated signaling pathways were also identified in CRBN-specific sub-networks constructed from protein-protein interaction analysis by STRING. The present study highlights the roles of CRBN in regulating the stress response (SR) and reshaping metabolic status in the brains of mice exposed to CUMS. A better understanding of the molecular mechanisms of depression and neurodegeneration can improve the development of novel treatments.The mechanisms underlying the vulnerability and resilience of an individual to stress are only partly understood. Response to stress is determined by behavioral and biochemical changes in the brain. Chronic ultra-mild stress (CUMS) induces an anhedonic-like state in mice that resembles symptoms of human depression. This study reports the role of cereblon (CRBN) in regulating the metabolic and antioxidant status of neuronal tissues in the mouse model of CUMS. Intriguingly, Crbn-/- (KO) mice showed resilient responsiveness, both at the behavioral and proteomic levels. Several core behaviors were also differentially altered by CUMS in KO mice. Liquid chromatography with tandem mass spectrometry (LC-MS/MS)-based proteome analysis of whole brain lysate (WBL) showed an enriched chaperonic, metabolic, and antioxidant status in the brains of KO subjects, including several members of DNAJ chaperones, creatine kinase, quinone oxidoreductase, superoxide dismutase (SOD1), glutathione S-transferase Mu (GSTM), peroxiredoxin-6 (PRDX6), and thioredoxin. Pathological phosphorylation as characterized by aggregation of tau and α-synuclein (α-syn) was significantly reduced in the neuronal tissues of KO mouse model of CUMS as compared to wild type (WT) mice. Furthermore, significantly increased SOD1 activity and reduced lipid peroxidation were observed in Crbn-KO systems. Integrated signaling pathways were also identified in CRBN-specific sub-networks constructed from protein-protein interaction analysis by STRING. The present study highlights the roles of CRBN in regulating the stress response (SR) and reshaping metabolic status in the brains of mice exposed to CUMS. A better understanding of the molecular mechanisms of depression and neurodegeneration can improve the development of novel treatments. Graphical abstract [Display omitted] •Crbn−/− mice exhibit resilience to chronic ultra-mild stress.•Pathological phosphorylation of tau and α-synuclein is low in Crbn−/− mice.•Antioxidant, metabolic and chaperone proteins are overexpressed in Crbn−/− mice.•Proteins abundant in Crbn−/− mice cooperatively execute important biological pathways. The mechanisms underlying the vulnerability and resilience of an individual to stress are only partly understood. Response to stress is determined by behavioral and biochemical changes in the brain. Chronic ultra-mild stress (CUMS) induces an anhedonic-like state in mice that resembles symptoms of human depression. This study reports the role of cereblon (CRBN) in regulating the metabolic and antioxidant status of neuronal tissues in the mouse model of CUMS. Intriguingly, Crbn−/− (KO) mice showed resilient responsiveness, both at the behavioral and proteomic levels. Several core behaviors were also differentially altered by CUMS in KO mice. Liquid chromatography with tandem mass spectrometry (LC-MS/MS)-based proteome analysis of whole brain lysate (WBL) showed an enriched chaperonic, metabolic, and antioxidant status in the brains of KO subjects, including several members of DNAJ chaperones, creatine kinase, quinone oxidoreductase, superoxide dismutase (SOD1), glutathione S-transferase Mu (GSTM), peroxiredoxin-6 (PRDX6), and thioredoxin. Pathological phosphorylation as characterized by aggregation of tau and α-synuclein (α-syn) was significantly reduced in the neuronal tissues of KO mouse model of CUMS as compared to wild type (WT) mice. Furthermore, significantly increased SOD1 activity and reduced lipid peroxidation were observed in Crbn-KO systems. Integrated signaling pathways were also identified in CRBN-specific sub-networks constructed from protein-protein interaction analysis by STRING. The present study highlights the roles of CRBN in regulating the stress response (SR) and reshaping metabolic status in the brains of mice exposed to CUMS. A better understanding of the molecular mechanisms of depression and neurodegeneration can improve the development of novel treatments.
ArticleNumber	148054
Author	Akber, Uroos Park, Zee-Yong Park, Chul-Seung Bong, Sunhwa
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Keywords	WBL AD CRBN KO GSTM CUMS Depression 2D-PAGE Chaperones PRDX6 SOD1 DNAJA1 Antioxidants LC-MS/MS Cereblon Neurodegeneration α-syn ROS AMPK WT Redox proteins SR Peroxiredoxin Reactive oxygen species antioxidants neurodegeneration Superoxide dismutase1 AMP-activated protein kinase Liquid chromatography with tandem mass spectrometry Stress response chaperones α-synuclein Alzheimer’s disease Whole brain lysate Knock out DnaJ Heat Shock Protein Family (Hsp40) Member A1 Wild type Glutathione S-transferase Mu Two dimensional-polyacrylamide gel electrophoresis redox proteins Chronic ultra-mild stress depression
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Snippet	[Display omitted] •Crbn−/− mice exhibit resilience to chronic ultra-mild stress.•Pathological phosphorylation of tau and α-synuclein is low in Crbn−/−... Graphical abstract The mechanisms underlying the vulnerability and resilience of an individual to stress are only partly understood. Response to stress is determined by...
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SubjectTerms	Antioxidants Cereblon Chaperones Depression Neurodegeneration Neurology Redox proteins
Title	Effects of cereblon on stress-activated redox proteins and core behavior
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