Network Tau spreading is vulnerable to the expression gradients of
            <i>APOE</i>
            and glutamatergic-related genes

Montal, Víctor; Diez, Ibai; Kim, Chan Mi; Orwig, William; Bueichekú, Elisenda; Gutiérrez-Zúñiga, Raquel; Bejanin, Alexandre; Pegueroles, Jordi Malé i; Dols‐Icardo, Oriol; Vannini, Patrizia; El-Fakhri, Georges; Johnson, Keith A.; Sperling, Reisa A.; Fortea, Juan; Sepulcre, Jorge

doi:10.1126/scitranslmed.abn7273

Cited by 27 publications

(19 citation statements)

References 62 publications

(85 reference statements)

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“…Of note are genes involved in the astrocytic component of tripartite synapses that are dysregulated in parallel to the stereotypical march of pTau pathology across cortical association areas. Furthermore, the negative correlation between the SLC1A2- containing synapse-enriched spatial gene set and pTau levels is consistent with the reported association between a PET-based tau-spreading network and a gradient of expression of glutamatergic synaptic genes, singularly SLC1A2 22 . Thus, these results could be indicating that astrocytes, as part of the tripartite excitatory synapses, play a key role in synaptic dysfunction and the trans-synaptic pTau propagation between excitatory neurons along vulnerable AD neural networks.…”

Section: Discussionsupporting

confidence: 87%

Astrocyte transcriptomic changes along the spatiotemporal progression of Alzheimer’s disease

Serrano-Pozo

Woodbury

et al. 2022

Preprint

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Astrocytes play a critical role in brain homeostasis and normal functions but their changes along the spatiotemporal progression of Alzheimer's disease (AD) neuropathology remain largely unknown. Here we performed single-nucleus RNA-sequencing on brain regions along the stereotypical progression of AD pathology from donors ranging the entire normal aging-AD continuum comprising 628,943 astrocyte nuclei from 32 donors across 5 brain regions. We discovered temporal gene-expression-trajectories with gene sets differentially activated at various disease stages. Surprisingly, a gene set enriched in proteostasis and energy metabolism, was upregulated in late-stage but unexpectedly returned to baseline levels in end-stage, suggesting exhaustion of response in "burnt-out" astrocytes. The spatial gene-expression-trajectories revealed that astrocytic genes of tripartite synapses are dysregulated in parallel to the stereotypical progression of tangle pathology across regions. We identified astrocyte heterogeneity across brain regions with a continuum from homeostatic to reactive cells through "intermediate" transitional states. These findings suggest complex astrocytic dysfunction in AD neurodegeneration.

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Section: Discussionsupporting

confidence: 87%

Astrocyte transcriptomic changes along the spatiotemporal progression of Alzheimer’s disease

Serrano-Pozo

Woodbury

et al. 2022

Preprint

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“…Aβ thresholds marking tau spreading may vary individually . Carriage of the apolipoprotein E ε4 (ApoE4) allele, the strongest known risk factor for sporadic AD, has been linked to abnormal Aβ-independent tau biomarker levels and cortical tau spreading patterns that closely align with cerebral APOE messenger RNA expression . Yet, ApoE4 carriage is neither linked to higher risk of developing primary tauopathies nor to spreading of age-related medial temporal lobe tau to the cortex in the absence of Aβ; therefore, tau spreading in ApoE4 carriers is seemingly associated with Aβ.…”

Section: Introductionmentioning

confidence: 99%

ApoE4 and Connectivity-Mediated Spreading of Tau Pathology at Lower Amyloid Levels

Steward,

Biel,

Dewenter

et al. 2023

JAMA Neurol

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ImportanceFor the Alzheimer disease (AD) therapies to effectively attenuate clinical progression, it may be critical to intervene before the onset of amyloid-associated tau spreading, which drives neurodegeneration and cognitive decline. Time points at which amyloid-associated tau spreading accelerates may depend on individual risk factors, such as apolipoprotein E ε4 (ApoE4) carriership, which is linked to faster disease progression; however, the association of ApoE4 with amyloid-related tau spreading is unclear.ObjectiveTo assess if ApoE4 carriers show accelerated amyloid-related tau spreading and propose amyloid positron emission tomography (PET) thresholds at which tau spreading accelerates in ApoE4 carriers vs noncarriers.Design, Setting, and ParticipantsThis cohort study including combined ApoE genotyping, amyloid PET, and longitudinal tau PET from 2 independent samples: the Alzheimer’s Disease Neuroimaging Initiative (ADNI; n = 237; collected from April 2015 to August 2022) and Avid-A05 (n = 130; collected from December 2013 to July 2017) with a mean (SD) tau PET follow-up time of 1.9 (0.96) years in ADNI and 1.4 (0.23) years in Avid-A05. ADNI is an observational multicenter Alzheimer disease neuroimaging initiative and Avid-A05 an observational clinical trial. Participants classified as cognitively normal (152 in ADNI and 77 in Avid-A05) or mildly cognitively impaired (107 in ADNI and 53 in Avid-A05) were selected based on ApoE genotyping, amyloid-PET, and longitudinal tau PET data availability. Participants with ApoE ε2/ε4 genotype or classified as having dementia were excluded. Resting-state functional magnetic resonance imaging connectivity templates were based on 42 healthy participants in ADNI.Main Outcomes and MeasuresMediation of amyloid PET on the association between ApoE4 status and subsequent tau PET increase through Braak stage regions and interaction between ApoE4 status and amyloid PET with annual tau PET increase through Braak stage regions and connectivity-based spreading stages (tau epicenter connectivity ranked regions).ResultsThe mean (SD) age was 73.9 (7.35) years among the 237 ADNI participants and 70.2 (9.7) years among the 130 Avid-A05 participants. A total of 107 individuals in ADNI (45.1%) and 45 in Avid-A05 (34.6%) were ApoE4 carriers. Across both samples, we found that higher amyloid PET–mediated ApoE4-related tau PET increased globally (ADNI b, 0.15; 95% CI, 0.05-0.28; P = .001 and Avid-A05 b, 0.33; 95% CI, 0.14-0.54; P &lt; .001) and in earlier Braak regions. Further, we found a significant association between ApoE4 status by amyloid PET interaction and annual tau PET increases consistently through early Braak- and connectivity-based stages where amyloid-related tau accumulation was accelerated in ApoE4carriers vs noncarriers at lower centiloid thresholds, corrected for age and sex.Conclusions and RelevanceThe findings in this study indicate that amyloid-related tau accumulation was accelerated in ApoE4 carriers at lower amyloid levels, suggesting that ApoE4 may facilitate earlier amyloid-driven tau spreading across connected brain regions. Possible therapeutic implications might be further investigated to determine when best to prevent tau spreading and thus cognitive decline depending on ApoE4 status.

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“…We did not look at mice absent of AD pathology nor mice susceptible to other major neuropathological hallmarks of AD, such as neurofibrillary tangles. APOE expression predisposed to tau spreading in human brains as correlated in tau PET analysis and transcriptome measures ( Montal et al, 2022 ). There are appropriate mouse models to test whether chemotherapy increases tau accumulation with overexpression of mutant tau in the presence of APOE3 or APOE4.…”

Section: Discussionmentioning

confidence: 99%

Chemotherapy promotes astrocytic response to Aβ deposition, but not Aβ levels, in a mouse model of amyloid and APOE

Biran

Galvano

et al. 2022

Neurobiology of Disease

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Network Tau spreading is vulnerable to the expression gradients of APOE and glutamatergic-related genes

Cited by 27 publications

References 62 publications

Astrocyte transcriptomic changes along the spatiotemporal progression of Alzheimer’s disease

Astrocyte transcriptomic changes along the spatiotemporal progression of Alzheimer’s disease

ApoE4 and Connectivity-Mediated Spreading of Tau Pathology at Lower Amyloid Levels

Chemotherapy promotes astrocytic response to Aβ deposition, but not Aβ levels, in a mouse model of amyloid and APOE

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