Maria Bichmann scite author profile

BackgroundTau is a microtubule-binding protein, which is subject to various post-translational modifications (PTMs) including phosphorylation, methylation, acetylation, glycosylation, nitration, sumoylation and truncation. Aberrant PTMs such as hyperphosphorylation result in tau aggregation and the formation of neurofibrillary tangles, which are a hallmark of Alzheimer’s disease (AD). In order to study the importance of PTMs on tau function, antibodies raised against specific modification sites are widely used. However, quality control of these antibodies is lacking and their specificity for particular modifications is often unclear.MethodsIn this study, we first designed an online tool called ‘TauPTM’, which enables the visualization of PTMs and their interactions on human tau. Using TauPTM, we next searched for commercially available antibodies against tau PTMs and characterized their specificity by peptide array, immunoblotting, electrochemiluminescence ELISA and immunofluorescence technologies.ResultsWe demonstrate that commercially available antibodies can show a significant lack of specificity, and PTM-specific antibodies in particular often recognize non-modified versions of the protein. In addition, detection may be hindered by other PTMs in close vicinity, complicating the interpretation of results. Finally, we compiled a panel of specific antibodies and show that they are useful to detect PTM-modified endogenous tau in hiPSC-derived neurons and mouse brains.ConclusionThis study has created a platform to reliably and robustly detect changes in localization and abundance of post-translationally modified tau in health and disease. A web-based version of TauPTM is fully available at http://www.tauptm.org.

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Asparagine endopeptidase cleaves tau at N167 after uptake into microglia

Behrendt

Bichmann

Ercan-Herbst

et al. 2019

Neurobiology of Disease

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Asparagine endopeptidase cleaves tau at N167 after uptake into microglia

Behrendt

Bichmann

Ercan-Herbst

et al. 2019

Preprint

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BackgroundTau cleavage by different proteolytic enzymes generates short, aggregation-prone fragments that have been implicated in the pathogenesis of Alzheimer’s disease (AD). Asparagine endopeptidase (AEP) activity in particular has been associated with tau dysfunction and aggregation, and the activity of the protease is increased in both aging and AD.Methods and ResultsUsing a mass spectrometry approach we identified a novel tau cleavage site at N167 and confirmed its processing by AEP. In combination with the previously known site at N368, we show that AEP cleavage yields a tau fragment that is present in both control and AD brains at similar levels. AEP is a lysosomal enzyme, and our data suggest that it is expressed in microglia rather than in neurons. Accordingly, we observe tau cleavage at N167 and N368 after endocytotic uptake into microglia, but not neurons. However, tau168-368 does not accumulate in microglia and we thus conclude that the fragment is part of a proteolytic cascade leading to tau degradation.ConclusionsWhile we confirm previous studies showing increased overall AEP activity in AD brains, our data suggests that AEP-mediated cleavage of tau is a physiological event occurring during microglial degradation of the secreted neuronal protein. The disease-associated increase in active AEP may thus be related to pro-inflammatory conditions in AD brains, and our findings argue against AEP inhibition as a therapeutic approach in AD.

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SETD7-mediated monomethylation is enriched on soluble Tau in Alzheimer’s disease

Bichmann

Oriol

Ercan-Herbst

et al. 2021

Mol Neurodegeneration

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Background Human tauopathies including Alzheimer’s disease (AD) are characterized by alterations in the post-translational modification (PTM) pattern of Tau, which parallel the formation of insoluble Tau aggregates, neuronal dysfunction and degeneration. While PTMs on aggregated Tau have been studied in detail, much less is known about the modification patterns of soluble Tau. Furthermore, PTMs other than phosphorylation have only come into focus recently and are still understudied. Soluble Tau species are likely responsible for the spreading of pathology during disease progression and are currently being investigated as targets for immunotherapies. A better understanding of their biochemical properties is thus of high importance. Methods We used a mass spectrometry approach to characterize Tau PTMs on a detergent-soluble fraction of human AD and control brain tissue, which led to the discovery of novel lysine methylation events. We developed specific antibodies against Tau methylated at these sites and biochemically characterized methylated Tau species in extracts from human brain, the rTg4510 mouse model and in hiPSC-derived neurons. Results Our study demonstrates that methylated Tau levels increase with Tau pathology stage in human AD samples as well as in a mouse model of Tauopathy. Methylated Tau is enriched in soluble brain extracts and is not associated with hyperphosphorylated, high molecular weight Tau species. We also show that in hiPSC-derived neurons and mouse brain, methylated Tau preferentially localizes to the cell soma and nuclear fractions and is absent from neurites. Knock down and inhibitor studies supported by proteomics data led to the identification of SETD7 as a novel lysine methyltransferase for Tau. SETD7 specifically methylates Tau at K132, an event that facilitates subsequent methylation at K130. Conclusions Our findings indicate that methylated Tau has a specific somatic and nuclear localization, suggesting that the methylation of soluble Tau species may provide a signal for their translocation to different subcellular compartments. Since the mislocalization and depletion of Tau from axons is associated with tauopathies, our findings may shed light onto this disease-associated phenomenon.

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Dual truncation of tau by caspase-2 accelerates its CHIP-mediated degradation

Reinhardt¹,

Musacchio²,

Bichmann³

et al. 2023

Neurobiology of Disease

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SETD7-mediated lysine monomethylation is abundant on non-hyperphosphorylated nuclear Tau

Bichmann

Oriol

Ercan-Herbst

et al. 2020

Preprint

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Human tauopathies including Alzheimer’s disease (AD) are characterized by alterations in the post-translational modification (PTM) pattern of Tau, leading to the formation of insoluble aggregates, neuronal dysfunction and degeneration. Using a mass spectrometry approach, we identified multiple sites of lysine monomethylation on Tau isolated from a detergent-soluble fraction of human brain, some of which were increased in early AD samples. Brain tissues derived from a mouse model of tauopathy demonstrate an age-dependent increase in methylation at specific sites, with methylated Tau enriched in the soluble nuclear fraction and not associated with hyperphosphorylated, insoluble Tau species. Furthermore, we show that the protein lysine methyltransferase SETD7 methylates Tau at K132 and demonstrate an interaction with K130, an additional methylation site in close vicinity. These findings shed light on the function of a novel type of PTM on Tau that provide a potential signal for its translocation to different subcellular sites. Since the mislocalization and depletion of Tau from axons is associated with tauopathies, our findings may furthermore provide insight into this disease-associated phenomenon.

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Maria Bichmann

A validated antibody panel for the characterization of tau post-translational modifications

Asparagine endopeptidase cleaves tau at N167 after uptake into microglia

Asparagine endopeptidase cleaves tau at N167 after uptake into microglia

SETD7-mediated monomethylation is enriched on soluble Tau in Alzheimer’s disease

Dual truncation of tau by caspase-2 accelerates its CHIP-mediated degradation

SETD7-mediated lysine monomethylation is abundant on non-hyperphosphorylated nuclear Tau

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