SIRT6-CBP-dependent nuclear Tau accumulation and its role in protein synthesis

SIRT6-CBP-dependent nuclear Tau accumulation and its role in protein synthesis

Several neurodegenerative diseases present Tau accumulation as the main pathological marker. Tau post-translational modifications such as phosphorylation and acetylation are increased in neurodegeneration. Here, we show that Tau hyper-acetylation at residue 174 increases its own nuclear presence and...

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Veröffentlicht in:Cell reports (Cambridge) 2021-04, Vol.35 (4), p.109035-109035, Article 109035
Hauptverfasser: Portillo, Miguel, Eremenko, Ekaterina, Kaluski, Shai, Garcia-Venzor, Alfredo, Onn, Lior, Stein, Daniel, Slobodnik, Zeev, Zaretsky, Adam, Ueberham, Uwe, Einav, Monica, Brückner, Martina K., Arendt, Thomas, Toiber, Debra
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Sprache:eng
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acetylation
Alzheimer Disease - genetics
Alzheimer’s disease
CBP
Cell Biology
DNA damage
Humans
Life Sciences & Biomedicine
nuclear translocation
nucleoli
Protein Biosynthesis - genetics
protein translation
Science & Technology
SIRT6
Sirtuins - genetics
Sirtuins - metabolism
Tau
tau Proteins - metabolism
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container_issue 4
container_start_page 109035
container_title Cell reports (Cambridge)
container_volume 35
creator Portillo, Miguel
Eremenko, Ekaterina
Kaluski, Shai
Garcia-Venzor, Alfredo
Onn, Lior
Stein, Daniel
Slobodnik, Zeev
Zaretsky, Adam
Ueberham, Uwe
Einav, Monica
Brückner, Martina K.
Arendt, Thomas
Toiber, Debra
description Several neurodegenerative diseases present Tau accumulation as the main pathological marker. Tau post-translational modifications such as phosphorylation and acetylation are increased in neurodegeneration. Here, we show that Tau hyper-acetylation at residue 174 increases its own nuclear presence and is the result of DNA damage signaling or the lack of SIRT6, both causative of neurodegeneration. Tau-K174ac is deacetylated in the nucleus by SIRT6. However, lack of SIRT6 or chronic DNA damage results in nuclear Tau-K174ac accumulation. Once there, it induces global changes in gene expression, affecting protein translation, synthesis, and energy production. Concomitantly, Alzheimer’s disease (AD) case subjects show increased nucleolin and a decrease in SIRT6 levels. AD case subjects present increased levels of nuclear Tau, particularly Tau-K174ac. Our results suggest that increased Tau-K174ac in AD case subjects is the result of DNA damage signaling and SIRT6 depletion. We propose that Tau-K174ac toxicity is due to its increased stability, nuclear accumulation, and nucleolar dysfunction. [Display omitted] •DNA damage or SIRT6 absence leads to acetylation of Tau-K174 via CBP•Tau174ac shuttles to the nucleus, where it induces nucleolar activation•SIRT6 regulates Tau-174ac nuclear functions through its deacetylation•Tau174Q increases nucleolar activity and protein synthesis, leading to ATP depletion Portillo et al. show that acetylation of Tau-174 by CBP leads to its nuclear translocation, increasing nucleolar activity and protein synthesis capacity and resulting in ATP depletion. SIRT6 deacetylates nuclear Tau-174ac, preventing its accumulation. SIRT6 depletion, as in Alzheimer’s disease, increases Tau-174ac through the DNA damage response and impaired deacetylation.
doi_str_mv 10.1016/j.celrep.2021.109035
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Tau post-translational modifications such as phosphorylation and acetylation are increased in neurodegeneration. Here, we show that Tau hyper-acetylation at residue 174 increases its own nuclear presence and is the result of DNA damage signaling or the lack of SIRT6, both causative of neurodegeneration. Tau-K174ac is deacetylated in the nucleus by SIRT6. However, lack of SIRT6 or chronic DNA damage results in nuclear Tau-K174ac accumulation. Once there, it induces global changes in gene expression, affecting protein translation, synthesis, and energy production. Concomitantly, Alzheimer’s disease (AD) case subjects show increased nucleolin and a decrease in SIRT6 levels. AD case subjects present increased levels of nuclear Tau, particularly Tau-K174ac. Our results suggest that increased Tau-K174ac in AD case subjects is the result of DNA damage signaling and SIRT6 depletion. We propose that Tau-K174ac toxicity is due to its increased stability, nuclear accumulation, and nucleolar dysfunction. [Display omitted] •DNA damage or SIRT6 absence leads to acetylation of Tau-K174 via CBP•Tau174ac shuttles to the nucleus, where it induces nucleolar activation•SIRT6 regulates Tau-174ac nuclear functions through its deacetylation•Tau174Q increases nucleolar activity and protein synthesis, leading to ATP depletion Portillo et al. show that acetylation of Tau-174 by CBP leads to its nuclear translocation, increasing nucleolar activity and protein synthesis capacity and resulting in ATP depletion. SIRT6 deacetylates nuclear Tau-174ac, preventing its accumulation. 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Tau post-translational modifications such as phosphorylation and acetylation are increased in neurodegeneration. Here, we show that Tau hyper-acetylation at residue 174 increases its own nuclear presence and is the result of DNA damage signaling or the lack of SIRT6, both causative of neurodegeneration. Tau-K174ac is deacetylated in the nucleus by SIRT6. However, lack of SIRT6 or chronic DNA damage results in nuclear Tau-K174ac accumulation. Once there, it induces global changes in gene expression, affecting protein translation, synthesis, and energy production. Concomitantly, Alzheimer’s disease (AD) case subjects show increased nucleolin and a decrease in SIRT6 levels. AD case subjects present increased levels of nuclear Tau, particularly Tau-K174ac. Our results suggest that increased Tau-K174ac in AD case subjects is the result of DNA damage signaling and SIRT6 depletion. We propose that Tau-K174ac toxicity is due to its increased stability, nuclear accumulation, and nucleolar dysfunction. [Display omitted] •DNA damage or SIRT6 absence leads to acetylation of Tau-K174 via CBP•Tau174ac shuttles to the nucleus, where it induces nucleolar activation•SIRT6 regulates Tau-174ac nuclear functions through its deacetylation•Tau174Q increases nucleolar activity and protein synthesis, leading to ATP depletion Portillo et al. show that acetylation of Tau-174 by CBP leads to its nuclear translocation, increasing nucleolar activity and protein synthesis capacity and resulting in ATP depletion. SIRT6 deacetylates nuclear Tau-174ac, preventing its accumulation. 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subjects acetylation
Alzheimer Disease - genetics
Alzheimer’s disease
CBP
Cell Biology
DNA damage
Humans
Life Sciences & Biomedicine
nuclear translocation
nucleoli
Protein Biosynthesis - genetics
protein translation
Science & Technology
SIRT6
Sirtuins - genetics
Sirtuins - metabolism
Tau
tau Proteins - metabolism
title SIRT6-CBP-dependent nuclear Tau accumulation and its role in protein synthesis
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