DnaJC7 specifically regulates tau seeding

Pérez, Valérie; Sanders, David W.; Mendoza-Oliva, Ayde; Stopschinski, Barbara E.; Mullapudi, Vishruth; White, Charles L.; Joachimiak, Łukasz A.; Diamond, Marc I.

doi:10.1101/2023.03.16.532880

2023

DOI: 10.1101/2023.03.16.532880

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DnaJC7 specifically regulates tau seeding

Valérie Pérez

David W. Sanders

Ayde Mendoza-Oliva

et al.

Abstract: Neurodegenerative tauopathies are caused by accumulation of toxic tau protein assemblies. This appears to involve template-based seeding events, whereby tau monomer changes conformation and is recruited to a growing aggregate. Several large families of chaperone proteins, including Hsp70s and J domain proteins (JDPs) cooperate to regulate the folding of intracellular proteins such as tau, but the factors that coordinate this activity are not well known. The JDP DnaJC7 binds tau and reduces its intracellular ag… Show more

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2024

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DNAJC7 expression in rat brain after a single cortical injury and in human ALS-affected brain cortex and hippocampus

Volkening,

Donison,

Hintermayer

et al. 2024

Preprint

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DNAJC7 is a highly conserved J-domain protein that recently was determined to have mutations in amyotrophic lateral sclerosis (ALS). The expression of DNAJC7 in the nervous system is not well known, nor is if DNAJC7 has a role in injury. Here we characterize the expression of DNAJC7 in a rat model of traumatic brain injury in which the temporal cascade of events leading to tau pathology has been mapped. DNAJC7 expression increases after injury, with expression in neurons, astrocytes and microglia. After injury, expression selectively decreases in granular cells of CA2 in the hippocampus, and localization in neurons in the cortex moves from perikaryal into cell processes. DNAJC7 also localizes to phospho-Thr175 tau and TNT1 positive (exposed PAD) tau but dissociates rapidly from PAD exposed tau suggesting that structural change may play a role in its release. In vitro a phospho-Thr175 tau mimic (Thr175Asp) failed to immunoprecipitate DNAJC7, while phospho-null (Thr175Ala) and wildtype tau did, suggesting this phosphoresidue is likely less important for dissociation than the subsequent structural change in tau. Human brain (cortex and hippocampus from neuropathologically normal controls, ALS and ALS with cognitive impairment) was also examined for DNAJC7 expression and tau interaction. DNAJC7 expression was altered in all ALS cases with localization in cell processes, and nuclear expression in oligodendrocytes, while in only ALS cases with cognitive impairment many additional large arborized cells in the cortex and hippocampus appear to have increased DNAJC7 expression in cell processes. Wasteosomes (corpora amylacea) were also DNAJC7 positive. Taken together, DNAJC7 expression in the brain is widespread, is altered in a rat model of brain injury and in ALS and ALSci, and its dissociation from tau appears to be during or shortly after PAD exposure.

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DNAJC7 expression in rat brain after a single cortical injury and in human ALS-affected brain cortex and hippocampus

Volkening,

Donison,

Hintermayer

et al. 2024

Preprint

View full text Add to dashboard Cite

show abstract

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DnaJC7 specifically regulates tau seeding

Cited by 1 publication

References 53 publications

DNAJC7 expression in rat brain after a single cortical injury and in human ALS-affected brain cortex and hippocampus

DNAJC7 expression in rat brain after a single cortical injury and in human ALS-affected brain cortex and hippocampus

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