Amyloid-β signals through tau to drive ectopic neuronal cell cycle re-entry in Alzheimer's disease

Seward, Matthew E.; Swanson, Eric A.; Norambuena, Andrés; Reimann, Anja; Cochran, J. Nicholas; Li, Rong; Roberson, Erik D.; Bloom, George S.

doi:10.1242/jcs.1125880

Cited by 151 publications

(157 citation statements)

References 53 publications

(66 reference statements)

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“…The upstream mediators driving tau‐associated cellular senescence in AD and PSP also remain unknown; however, it is tempting to speculate that tau‐induced cell cycle re‐entry may be involved (Arendt, 2012). Aberrant cell cycle re‐entry causes neuronal apoptosis and AD‐associated pathology (Park, Hallows, Chakrabarty, Davies, & Vincent, 2007) and requires soluble tau (Seward et al, 2013). The observed increase in NFT‐associated Cdkn1a and Cdkn2a gene expression may allow stressed neurons to abort cell cycle re‐entry and enter a cellular state similar to cellular senescence.…”

Section: Discussionmentioning

confidence: 99%

Tau protein aggregation is associated with cellular senescence in the brain

et al. 2018

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Tau protein accumulation is the most common pathology among degenerative brain diseases, including Alzheimer's disease (AD), progressive supranuclear palsy (PSP), traumatic brain injury (TBI), and over twenty others. Tau‐containing neurofibrillary tangle (NFT) accumulation is the closest correlate with cognitive decline and cell loss (Arriagada, Growdon, Hedley‐Whyte, & Hyman, 1992), yet mechanisms mediating tau toxicity are poorly understood. NFT formation does not induce apoptosis (de Calignon, Spires‐Jones, Pitstick, Carlson, & Hyman, 2009), which suggests that secondary mechanisms are driving toxicity. Transcriptomic analyses of NFT‐containing neurons microdissected from postmortem AD brain revealed an expression profile consistent with cellular senescence. This complex stress response induces aberrant cell cycle activity, adaptations to maintain survival, cellular remodeling, and metabolic dysfunction. Using four AD transgenic mouse models, we found that NFTs, but not Aβ plaques, display a senescence‐like phenotype. Cdkn2a transcript level, a hallmark measure of senescence, directly correlated with brain atrophy and NFT burden in mice. This relationship extended to postmortem brain tissue from humans with PSP to indicate a phenomenon common to tau toxicity. Tau transgenic mice with late‐stage pathology were treated with senolytics to remove senescent cells. Despite the advanced age and disease progression, MRI brain imaging and histopathological analyses indicated a reduction in total NFT density, neuron loss, and ventricular enlargement. Collectively, these findings indicate a strong association between the presence of NFTs and cellular senescence in the brain, which contributes to neurodegeneration. Given the prevalence of tau protein deposition among neurodegenerative diseases, these findings have broad implications for understanding, and potentially treating, dozens of brain diseases.

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Section: Discussionmentioning

confidence: 99%

Tau protein aggregation is associated with cellular senescence in the brain

et al. 2018

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“…Most notably, putative dimers and trimers containing both conventional and pE-modified Aβ species were detected more commonly in brain cytosol collected post-mortem from AD patients than from normal age-matched controls, and transgenic mice that produced Aβ3(pE)-x experienced massive gliosis and neuron death in the hippocampus by disease. 5,9,11,46,[48][49][50]79,80 At least some of these Aβ-tau connections are indirect, such as Aβ induced activation of protein kinases, which then catalyze abnormal tau phosphorylation. 11,45,47,51,52 There is also evidence, though, for a direct pathogenic connection between Aβ and tau.…”

Section: Are Tau Prions Seeded By Aβ Prions?mentioning

confidence: 99%

“…5,9,11,46,[48][49][50]79,80 At least some of these Aβ-tau connections are indirect, such as Aβ induced activation of protein kinases, which then catalyze abnormal tau phosphorylation. 11,45,47,51,52 There is also evidence, though, for a direct pathogenic connection between Aβ and tau. In the absence of any other proteins or peptides, Aβ can bind to tau 43 and tau monomers can be induced to oligomerize in vitro after exposure to low substoichiometric levels of Aβ oligomers.…”

Section: Are Tau Prions Seeded By Aβ Prions?mentioning

confidence: 99%

“…Compared with fibrillar Aβ, soluble Aβ oligomers correlate better with neurotoxicity in vivo and are far more toxic than Aβ fibrils to cultured neurons. [5][6][7][8][9][10][11][12] Tau was discovered nearly 40 years ago as a microtubuleassociated protein (MAP) that stimulates tubulin polymerization, 13 but it was not until a decade later that its presence in NFTs was first described. [14][15][16] Surprisingly, beyond its generic MAP function as a stimulator of microtubule (MT) assembly, the only known specific function of tau is that it impedes the movement of kinesin MT motor proteins and their attached cargoes along MTs.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Alzheimer disease

Nussbaum

Seward

Bloom

2013

Prion

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107

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“…This phenomenon was expounded upon by Roberson and colleagues, who showed that learning and memory deficits present in a mouse line overexpressing mutant human APP were mitigated by crossing the animals to a tau null background [127]. Further studies have shown that a variety of toxic effects and cellular phenotypes due to Aβ, such as NMDA receptor related excitotoxicity [122], Aβ-induced microtubule loss [136], inhibition of mitochondrial transport [137], impairment of LTP [138], synaptic damage [139], aberrant cell-cycle re-entry [140] and overall cell toxicity [141] could be ameliorated through loss of tau expression. This wealth of data identifying tau-dependent phenotypes has led many to propose tau depletion as a possible therapy in tau-related disorders [142].…”

Section: Tau Knockout Micementioning

confidence: 99%

Extracellular Tau Oligomers Induce Disruption of Endogenous Tau Distribution, Invasion of Tau into the Somatodendritic Compartment and Axonal Transport Dysfunction

Swanson

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Insoluble hyperphosphylated aggregates of the microtubule-associated protein tau define a subset of neurodegenerative disorders known as tauopathies, of which Alzheimer's Disease is the most prevalent. Extracellular tau can induce the accumulation and aggregation of intracellular tau, and tau pathology can be transmitted along neural networks, in a manner that recapitulates the temporal spread of pathology observed

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Amyloid-β signals through tau to drive ectopic neuronal cell cycle re-entry in Alzheimer's disease

Cited by 151 publications

References 53 publications

Tau protein aggregation is associated with cellular senescence in the brain

Tau protein aggregation is associated with cellular senescence in the brain

Alzheimer disease

Extracellular Tau Oligomers Induce Disruption of Endogenous Tau Distribution, Invasion of Tau into the Somatodendritic Compartment and Axonal Transport Dysfunction

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