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Shifts in protein aggregate stability define proteostasis decline in the aging human brain

Anderton E, Burton JB, King CD, Foulger AC, Bhaumik D, Timonina D, Mayeri Z, Chamoli M, Andersen JK, Schilling B, Lithgow GJ.

· 2026

Abstract

Loss of proteostasis(definition) and the accumulation of insoluble protein aggregates are features of aging across model organisms and occur in all major age-related neurodegenerative diseases; yet how aggregation proceeds during normal human brain aging remains unknown. Using detergent-fractionation proteomics, we show that human brain aging does not involve uniform aggregate accumulation; rather, the insoluble proteome undergoes asymmetric remodeling beginning in midlife. Maximum-stability aggregates decline sharply in old age whereas intermediate-stability aggregates accumulate gradually before accelerating after age 80. Intermediate-stability aggregates are prone to liquid-liquid phase separation and are enriched with Alzheimer’s disease plaque and tangle constituents. Proteasome and cytosolic chaperone abundance predict individual differences in aggregate burden as strongly as age, offering supportive evidence, in humans, for therapies targeting these pathways. These findings establish aggregate remodeling as a feature of normal brain aging and position the accumulation of intermediate-stability aggregates as a molecular event on the path to neurodegenerative disease.

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Provenance

Source
Europe PMC
DOI
10.64898/2026.03.27.714902
Canonical
link ↗
Fetched
2026-07-01 MST

Cite this

APA
E, A., JB, B., CD, K., AC, F., D, B., D, T., Z, M., M, C., JK, A., B, S., & GJ., L. (2026). Shifts in protein aggregate stability define proteostasis decline in the aging human brain. https://doi.org/10.64898/2026.03.27.714902
Vancouver
E A, JB B, CD K, AC F, D B, D T, et al. Shifts in protein aggregate stability define proteostasis decline in the aging human brain. 2026. doi:10.64898/2026.03.27.714902.
BibTeX
@unpublished{anderton2026Shifts, title = {Shifts in protein aggregate stability define proteostasis decline in the aging human brain}, author = {Anderton E and Burton JB and King CD and Foulger AC and Bhaumik D and Timonina D and Mayeri Z and Chamoli M and Andersen JK and Schilling B and Lithgow GJ.}, year = {2026}, doi = {10.64898/2026.03.27.714902}, }

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