Tau drives translational selectivity by interacting with ribosomal proteins

Shon A. Koren; Matthew J. Hamm; Shelby E. Meier; Blaine E. Weiss; Grant K. Nation; Emad A. Chishti; Juan Pablo Arango; Jing Chen; Haining Zhu; Eric M. Blalock; Jose F. Abisambra

doi:10.1007/s00401-019-01970-9

Tau drives translational selectivity by interacting with ribosomal proteins

Shon A. Koren
, Matthew J. Hamm
, Shelby E. Meier
, Blaine E. Weiss
, Grant K. Nation
, Emad A. Chishti
, Juan Pablo Arango
, Jing Chen
, Haining Zhu
, Eric M. Blalock
, Jose F. Abisambra

Producción científica: Article › revisión exhaustiva

88 Citas (Scopus)

Resumen

There is a fundamental gap in understanding the consequences of tau–ribosome interactions. Tau oligomers and filaments hinder protein synthesis in vitro, and they associate strongly with ribosomes in vivo. Here, we investigated the consequences of tau interactions with ribosomes in transgenic mice, in cells, and in human brain tissues to identify tau as a direct modulator of ribosomal selectivity. First, we performed microarrays and nascent proteomics to measure changes in protein synthesis. Using regulatable rTg4510 tau transgenic mice, we determined that tau expression differentially shifts both the transcriptome and the nascent proteome, and that the synthesis of ribosomal proteins is reversibly dependent on tau levels. We further extended these results to human brains and found that tau pathologically interacts with ribosomal protein S6 (rpS6 or S6), a crucial regulator of translation. Consequently, protein synthesis under translational control of rpS6 was reduced under tauopathic conditions in Alzheimer’s disease brains. Our data establish tau as a driver of RNA translation selectivity. Moreover, since regulation of protein synthesis is critical for learning and memory, aberrant tau–ribosome interactions in disease could explain the linkage between tauopathies and cognitive impairment.

Idioma original	English
Páginas (desde-hasta)	571-583
Número de páginas	13
Publicación	Acta Neuropathologica
Volumen	137
N.º	4
DOI	https://doi.org/10.1007/s00401-019-01970-9
Estado	Published - abr 1 2019

Nota bibliográfica

Publisher Copyright:
© 2019, The Author(s).

Financiación

Funding This work was funded by NIH R01NS077284 (HZ) and Alzheimer’s Association NIRG-14-322441, Department of Defense AZ140097, NIH/NIMHD L32 MD009205-01, NIH 1R21NS093440, NIH/NINDS 1R01 NS091329-01 (JFA). Brain samples were obtained from the University of Kentucky ADC, which is supported by NIH/ NIA P30 AG028383. The University of Kentucky Proteomics Core is supported by NIH/NIGMS P20GM103486, NIH/NCI P30CA177558, NIH S10RR029127. We thank Dr. Peter Nelson,?Ela Patel, and Sonya Anderson, the University of Kentucky Alzheimer?s Disease Center (UK-ADC). We also thank Dr. Steven Estus and James Simpson for their technical support, Dr. Peter Davies for his generous contribution of the PHF1 antibody, and Dr. Chad Dickey for the inspiration for this work and?developing and sharing the iHEK cell lines and the tau plasmids.

Financiadores	Número del financiador
Alzheimer’s Association, and Cure Alzheimer’s Fund	NIRG-14-322441
NCI/NIH	P30CA177558
NIH/NIGMS	P20GM103486
NIH/NIMHD	1R21NS093440, L32 MD009205-01
NIH/NINDS	1R01 NS091329-01
University of Kentucky ADC
University of Kentucky Alzheimer Disease Center
National Institutes of Health (NIH)	R01NS077284
U.S. Department of Defense	AZ140097
National Institute on Aging	P30 AG028383
National Center for Research Resources	S10RR029127

ODS de las Naciones Unidas

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Good health and well being

ASJC Scopus subject areas

Pathology and Forensic Medicine
Clinical Neurology
Cellular and Molecular Neuroscience

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title = "Tau drives translational selectivity by interacting with ribosomal proteins",

abstract = "There is a fundamental gap in understanding the consequences of tau–ribosome interactions. Tau oligomers and filaments hinder protein synthesis in vitro, and they associate strongly with ribosomes in vivo. Here, we investigated the consequences of tau interactions with ribosomes in transgenic mice, in cells, and in human brain tissues to identify tau as a direct modulator of ribosomal selectivity. First, we performed microarrays and nascent proteomics to measure changes in protein synthesis. Using regulatable rTg4510 tau transgenic mice, we determined that tau expression differentially shifts both the transcriptome and the nascent proteome, and that the synthesis of ribosomal proteins is reversibly dependent on tau levels. We further extended these results to human brains and found that tau pathologically interacts with ribosomal protein S6 (rpS6 or S6), a crucial regulator of translation. Consequently, protein synthesis under translational control of rpS6 was reduced under tauopathic conditions in Alzheimer{\textquoteright}s disease brains. Our data establish tau as a driver of RNA translation selectivity. Moreover, since regulation of protein synthesis is critical for learning and memory, aberrant tau–ribosome interactions in disease could explain the linkage between tauopathies and cognitive impairment.",

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AU - Chishti, Emad A.

AU - Arango, Juan Pablo

AU - Chen, Jing

AU - Zhu, Haining

AU - Blalock, Eric M.

AU - Abisambra, Jose F.

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AB - There is a fundamental gap in understanding the consequences of tau–ribosome interactions. Tau oligomers and filaments hinder protein synthesis in vitro, and they associate strongly with ribosomes in vivo. Here, we investigated the consequences of tau interactions with ribosomes in transgenic mice, in cells, and in human brain tissues to identify tau as a direct modulator of ribosomal selectivity. First, we performed microarrays and nascent proteomics to measure changes in protein synthesis. Using regulatable rTg4510 tau transgenic mice, we determined that tau expression differentially shifts both the transcriptome and the nascent proteome, and that the synthesis of ribosomal proteins is reversibly dependent on tau levels. We further extended these results to human brains and found that tau pathologically interacts with ribosomal protein S6 (rpS6 or S6), a crucial regulator of translation. Consequently, protein synthesis under translational control of rpS6 was reduced under tauopathic conditions in Alzheimer’s disease brains. Our data establish tau as a driver of RNA translation selectivity. Moreover, since regulation of protein synthesis is critical for learning and memory, aberrant tau–ribosome interactions in disease could explain the linkage between tauopathies and cognitive impairment.

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Tau drives translational selectivity by interacting with ribosomal proteins

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Financiación

ODS de las Naciones Unidas

ASJC Scopus subject areas

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