Analysis of isoform-specific tau aggregates suggests a common toxic mechanism involving similar pathological conformations and axonal transport inhibition

Cox, Kristine; Combs, Benjamin; Abdelmesih, Brenda; Morfini, Gerardo; Brady, Scott T.; Kanaan, Nicholas M.

doi:10.1016/j.neurobiolaging.2016.07.015

Cited by 43 publications

(50 citation statements)

References 93 publications

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“…Several alterations to various parameters within the standard optimized protocol can result in modifications to filament morphology, including the enhanced formation of oligomeric species. Some of these modifications include changes to the tau protein itself, such as changing the tau isoform content or inserting specific point mutations (Combs & Gamblin, 2012; Cox et al, 2016; King, Gamblin, Kuret, & Binder, 2000). Increasing the arachidonic acid to tau ratio can result in a nearly homogenous population of tau oligomers (Carlson et al, 2007).…”

Section: Arachidonic Acid-induced Formation Of Tau Oligomersmentioning

confidence: 99%

“…Here, we provide a quick and simple method for imaging tau aggregates generated in vitro with recombinant tau protein. The protocol below describes TEM using unfixed samples, but glutaraldehyde fixation can be used as an alternative approach as described before (Cox et al, 2016). Using these standard methods tau oligomers are easily visualized with TEM and typically range from6 to 16nm in diameter (mean = ~12nm; Fig.…”

Section: Electron Microscopy Imaging Of Tau Oligomersmentioning

confidence: 99%

“…Importantly, toxic effects can be observed in animal models prior to the formation of tangles, indicating a toxic form of tau precedes them (Andorfer et al, 2005). This toxic species may be oligomeric tau, a nonfibrillar, multimeric, soluble form of the protein that has been identified in a variety of tauopathies, including Alzheimer’s disease, corticobasal degeneration, progressive supranuclear palsy, Pick’s disease, and chronic traumatic encephelopathy (Cox et al, 2016; Gerson et al, 2014; Kanaan et al, 2016; Lasagna-Reeves et al, 2012; Maeda et al, 2006; Patterson et al, 2011). The common presence of tau oligomers suggests that they could act as a toxic molecule across all tauopathies through a similar mechanism.…”

Section: Introductionmentioning

confidence: 99%

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Production of recombinant tau oligomers in vitro

Combs

Tiernan

Hamel

et al. 2017

Methods in Tau Cell Biology

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The pathological aggregation of the tau protein is a common characteristic of many neurodegenerative diseases. There is strong interest in characterizing the potentially toxic nature of tau oligomers. These nonfibrillar, soluble multimers appear to be more toxic than neurofibrillary tangles made up of filamentous tau. However, reliable production, purification, and verification of tau oligomers can provide certain challenges. Here, we provide a series of methods that address these issues. First, recombinant tau is produced using Escherichia coli, purified through affinity, size-exclusion, and anion-exchange chromatography steps and quantified using an SDS Lowry protein quantitation assay. Aggregation of tau is induced using arachidonic acid, and oligomers are purified by centrifugation over a sucrose step gradient. Finally, we describe a sandwich enzyme-linked immunosorbent assay that utilizes the tau oligomerspecific TOC1 antibody to confirm the presence of oligomeric tau. Together, these steps provide a very simple and reliable method for producing tau oligomers that can be used in downstream applications.

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Section: Arachidonic Acid-induced Formation Of Tau Oligomersmentioning

confidence: 99%

Section: Electron Microscopy Imaging Of Tau Oligomersmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Production of recombinant tau oligomers in vitro

Combs

Tiernan

Hamel

et al. 2017

Methods in Tau Cell Biology

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“…Relevant to AD pathogenesis, multiple independent reports documented increased GSK3 activity in AD, as well as in various tauopathies (Cox et al, 2016; Crews and Masliah, 2010; Hernandez and Avila, 2008; Hernandez et al, 2010). Several different pathways may contribute to increased GSK3 activity in AD.…”

Section: Introductionmentioning

confidence: 99%

“…Further, increased GSK3 activation and concomitant deficits in AT were also found in mutant APP or presenilin 1-based cellular (Pigino et al, 2003) and mouse-based models (Lazarov et al, 2007). Highlighting the disease relevance of these findings, immunohistochemical analysis of post mortem AD and various tauopathy brain samples demonstrated increased PAD exposure as an early pathogenic event common to all these diseases (Cox et al, 2016). …”

Section: Introductionmentioning

confidence: 99%

Regulation of motor proteins, axonal transport deficits and adult-onset neurodegenerative diseases

Brady

Morfini

2017

Neurobiology of Disease

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Neurons affected in a wide variety of unrelated adult-onset neurodegenerative diseases (AONDs) typically exhibit a “dying back” pattern of degeneration, which is characterized by early deficits in synaptic function and neuritic pathology long before neuronal cell death. Consistent with this observation, multiple unrelated AONDs including Alzheimer’s disease, Parkinson’s disease, Huntington’s disease, and several motor neuron diseases feature early alterations in kinase-based signaling pathways associated with deficits in axonal transport (AT), a complex cellular process involving multiple intracellular trafficking events powered by microtubule-based motor proteins. These pathogenic events have important therapeutic implications, suggesting that a focus on preservation of neuronal connections may be more effective to treat AONDs than addressing neuronal cell death. While the molecular mechanisms underlying AT abnormalities in AONDs are still being analyzed, evidence has accumulated linking those to a well-established pathological hallmark of multiple AONDs: altered patterns of neuronal protein phosphorylation. Here, we present a short overview on the biochemical heterogeneity of major motor proteins for AT, their regulation by protein kinases, and evidence revealing cell type-specific AT specializations. When considered together, these findings may help explain how independent pathogenic pathways can affect AT differentially in the context of each AOND.

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Interaction kinetics reveal distinct properties of conformational ensembles of three‐repeat and four‐repeat tau proteins

et al. 2022

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Tau protein is an intrinsically disordered protein. Its physiological state is best described as a conformational ensemble (CE) of metastable structures interconverting on the local and molecular scale. The monoclonal antibody DC39C recognizes a linear C‐terminal tau epitope, and as the tau interaction partner, its binding parameters report about tau CE. Association kinetics of DC39C binding, together with crosslinking mass spectrometry, show differences in the accessibility of the C terminus in CEs of tau isoforms. Furthermore, removal of the C terminus accelerated the aggregation kinetics of three‐repeat tau proteins. Our results suggest a novel mechanism of splicing‐driven regulation of the tau C‐terminal domain with consequences on the specific roles of tau isoforms in microtubule assembly and pathological aggregation.

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Analysis of isoform-specific tau aggregates suggests a common toxic mechanism involving similar pathological conformations and axonal transport inhibition

Cited by 43 publications

References 93 publications

Production of recombinant tau oligomers in vitro

Production of recombinant tau oligomers in vitro

Regulation of motor proteins, axonal transport deficits and adult-onset neurodegenerative diseases

Interaction kinetics reveal distinct properties of conformational ensembles of three‐repeat and four‐repeat tau proteins

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