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APOE4 exacerbates glucocorticoid stress hormone-induced tau pathology via mitochondrial dysfunction
APOE4 is the leading genetic risk factor for Alzheimer's disease, and chronic stress is a leading environmental risk factor. Studies suggest that APOE4 confers vulnerability to the behavioral and neuropathological effects of chronic stress, representing a potential mechanism by which this genetic variant accelerates Alzheimer's onset and progression. Whether and how APOE4-mediated stress vulnerability manifests in neurons of the hippocampus, a brain region particularly susceptible to stress and...
LMO7-mediated POLR2A degradation promotes cellular senescence through the MDM4/p53/p21 axis
As the largest subunit of RNA polymerase II, POLR2A plays an irreplaceable role in gene expression, with the regulation of its own expression and physiological function having attracted widespread attention. Here we report POLR2A as a critical guardian against cellular senescence. A significant decline in POLR2A expression was observed in senescent cells and certain tissues of aging mice. Whereas its depletion dramatically induced cellular senescence, conversely, activating endogenous POLR2A...
Aurka-Bhlhe41 axis prevents premature aging-like microglial dysfunction and promotes remyelination
Aging accelerates central nervous system remyelination failure and neurodegeneration. Microglia promote remyelination by phagocytosing myelin debris, but this function is impaired by aging-related CD22 upregulation. However, the molecular mechanisms counteracting premature aging-related microglial dysfunction and remyelination impairment remain unclear. Here, we report that Aurka-Bhlhe41 axis prevents premature aging-like microglial dysfunction and promotes remyelination by restraining...
Systemic epigenetic dysregulation as a driver of ageing and a therapeutic target
Although epigenetic changes during ageing are well documented, we lack an integrated framework to systematically explain their mechanistic relationships. In this Review, we present a systems-level framework that demonstrates how epigenetic regulation controls ageing. We discuss four interdependent processes through which epigenetic fidelity - the capacity of chromatin regulatory systems to maintain precise gene expression states - progressively fails: deterioration of nuclear architecture,...
Intergenerational initiatives to support health and well-being of people aging with traumatic brain injury: an exploratory qualitative research protocol
No abstract
The interplay of life satisfaction and cognitive reserve: implications for cognitive changes in old age
No abstract
These birds suck—literally
Scientists spot first example of suction feeding in the avian world
‘Milestone’ research method measures gene activity across whole mice
New way to analyze frozen tissue slices could reveal bodywide effects of drugs, diseases
Jupiter’s weather forecast: cloudy with a chance of nukes
The planet’s lightning storms can unleash the force of multiple nuclear weapons every minute
Analysis of GRK2 aggregation in the pathology of Alzheimer disease in animal models
The G-protein-coupled receptor kinase 2 (GRK2) exerts essential functions in cell growth and survival. Searching for a connection between GRK2 and the neurodegenerative Alzheimer disease (AD), we find increased aggregated serine-670-phosphorylated GRK2 (phospho-S670-GRK2) in brains of AD mice and patients with dementia likely due to AD. Harmful phospho-S670-GRK2 aggregation is induced by two hallmark proteins of AD: beta-amyloid and the neurofibrillary-tangle-inducing, TAU-P301L. Aggregated...
Sex-specific APOE4-dependent innate immunity regulates meningeal lymphatics, brain lipids, neuroinflammation, and cognition
Sex and apolipoprotein E ε4 (APOE4) interact to alter the risk for Alzheimer's disease and other neurodegenerative disorders. Herein, we show sex-specific differences in immune activation and lymphatic function in the meningeal dura of humanized female and male mice expressing two alleles of APOE4 (E4/E4), when compared with their respective sex-matched E3/E3 controls. We also describe distinct effects of APOE4 on brain lipid composition and inflammation in females and males that were partially...
Microglia-mediated protection against Alzheimer's disease pathology and detrimental effects in white matter revealed by Ptpn6 deletion
Genetic variants affecting microglia can cause early-onset neurodegeneration or elevate Alzheimer's disease risk. To nominate regulators of relevant signaling pathways, we developed a genome-wide CRISPR screen in primary macrophages focused on survival. We identified Ptpn6, which encodes the inhibitory phosphatase SHP-1, as a crucial regulator for macrophage survival under reduced CSF1R signaling conditions in vitro. Deletion of Ptpn6 from adult microglia in vivo enhanced survival and decreased...
Analysis of GRK2 aggregation in the pathology of Alzheimer disease in animal models
The G-protein-coupled receptor kinase 2 (GRK2) exerts essential functions in cell growth and survival. Searching for a connection between GRK2 and the neurodegenerative Alzheimer disease (AD), we find increased aggregated serine-670-phosphorylated GRK2 (phospho-S670-GRK2) in brains of AD mice and patients with dementia likely due to AD. Harmful phospho-S670-GRK2 aggregation is induced by two hallmark proteins of AD: beta-amyloid and the neurofibrillary-tangle-inducing, TAU-P301L. Aggregated...
Retraction notice to "Cognitive effects of cell-derived and synthetically-derived Abeta oligomers" [Neurobiol. Aging 32 (2009) 1784-1794]
No abstract
Survival implications of BMI in nonagenarians and centenarians of the CEPH aging cohort
As global life expectancy rises, understanding predictors of survival in extreme old age is crucial. Body mass index (BMI) is a widely used proxy for adiposity and nutritional status. In adults, a BMI between 18.5 and 24.9 kg/m² is considered healthy and associated with better life expectancy; yet in nonagenarians and centenarians it remains unclear whether this BMI range is ideal due to age-related physiological changes. We examined BMI and mortality associations in 780 adults aged ≥90 years...
MicroRNA-128-3p Deficiency Alleviates Bone Loss in Age-Related Osteoporosis via Activation of Canonical Wnt Signaling
MicroRNA-128-3p (miR-128-3p) has emerged as a crucial regulator of the aging process and age-associated disorders. Recent research highlights the vital role of miR-128-3p in osteoclast (OC) differentiation and the progression of osteoporosis following ovariectomy. Nonetheless, the mechanism by which miR-128-3p influences osteoblast (OB)-mediated bone formation and contributes to bone loss associated with aging is poorly understood. The present investigation began with an analysis of human bone...
Clinically relevant stereochemistry reprograms amyloid proteome for aggregation cross-talk-conferred neuroprotection
The stereochemical diversity of Aβ42 in the brains of patients with Alzheimer's disease (AD) is a clinically recognized but poorly understood phenomenon. A critical gap in our knowledge is how the complex mixture of these stereoisomers collectively influences the aggregation pathway and neurotoxicity of Aβ42 at the molecular level. Drawing from stereoproteome data from AD patient brain tissues and previous studies, we engineered a panel of stereoisomers to more simply simulate the stereochemical...
Erratum for the Research Article "Parkinson's VPS35[D620N] mutation induces LRRK2-mediated lysosomal association of RILPL1 and TMEM55B" by P. Pal et al
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Correspondence of large-scale functional brain network decline across aging mice and humans
Human aging is marked by progressive reorganization of large-scale functional brain networks; these brain network changes have been linked to cognitive decline and disease vulnerability. Conversely, while mice have served as powerful models for understanding the molecular and cellular changes that occur over the lifespan, an absence of precise characterization of age-related changes in large-scale functional brain network organization has limited cross-species translational insights. Here, using...
Reversible aggregation-redispersion of Cu sites in Cu/CeO<sub>2</sub> catalysts with unlocked hydrogenation activity
For oxide-supported metal catalysts, metal-support interaction (MSI) facilitates metal dispersion at the expense of the metallic character, resulting in a trade-off between active site utilization and intrinsic activity. Here, we used a thermal aging strategy to modulate the MSI in Cu/CeO(2) catalysts, facilitating the formation of metallic Cu sites upon H(2) reduction while maintaining metal dispersion. Systematic experiments confirmed that thermal aging at 800°C lowered the reduction...