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The aggregate proteome of <i>Caenorhabditis elegans</i> mitochondria implicates shared mechanisms of aging and Alzheimer's disease.
Pahal S, Ganne A, Balasubramaniam M, Griffin ST, Shmookler Reis RJ, Ayyadevara S.
Frontiers in aging neuroscience · 2025
Abstract
<h4>Background</h4>Mitochondrial dysfunction(definition) and protein aggregation are central features of brain aging and Alzheimer's disease (AD). To define how AD seed proteins modulate these processes, we applied quantitative proteomics to sarkosyl-insoluble aggregates from <i>C. elegans</i> models of normal aging and from worms expressing human Aβ or Tau transgenes.<h4>Results</h4>Normal aging produced a late-onset accrual of mitochondrial proteins within aggregates, implicating impaired energy metabolism and proteostasis(definition) collapse. Aβ expression caused a striking expansion and included glycolytic enzymes, tricarboxylic acid cycle components, ribosomal proteins, and trafficking factors, consistent with broad proteostatic and bioenergetic stress, largely overlapping with aging-associated species, yet advanced in onset. Tau expression yielded a smaller set enriched for cytoskeletal, vesicular, and nuclear pore components. Post-translational modifications (4-HNE adducts, phosphorylation, acetylation, methionine oxidation) revealed distinct trajectories: Aβ imposed early oxidative and phosphorylation burden, whereas Tau and aging showed midlife PTM peaks consistent with delayed proteostasis collapse. Cross-species comparison revealed 68 insoluble proteins shared between worm models and human AD brain aggregates. From these, 17 conserved metabolic, chaperone, and trafficking proteins were prioritized by network metrics and validated functionally: RNAi knockdowns aggravated paralysis or impaired chemotaxis, confirming their functional importance.<h4>Conclusion</h4>These findings place mitochondrial proteome collapse at the center of aging and AD-seeded pathology, distinguish Aβ- and Tau-driven proteotoxic routes, and nominate a conserved panel of aggregation-prone proteins as mechanistic drivers and candidate biomarkers for early detection and intervention in AD.
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- Europe PMC
- DOI
- 10.3389/fnagi.2025.1713391
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- 2026-07-01 MST
Cite this
APA
S, P., A, G., M, B., ST, G., RJ, S.R., & S., A. (2025). The aggregate proteome of <i>Caenorhabditis elegans</i> mitochondria implicates shared mechanisms of aging and Alzheimer's disease. <em>Frontiers in aging neuroscience</em>. https://doi.org/10.3389/fnagi.2025.1713391
Vancouver
S P, A G, M B, ST G, RJ SR, S. A. The aggregate proteome of <i>Caenorhabditis elegans</i> mitochondria implicates shared mechanisms of aging and Alzheimer's disease. Frontiers in aging neuroscience. 2025. doi:10.3389/fnagi.2025.1713391.
BibTeX
@article{pahal2025Theagg,
title = {The aggregate proteome of <i>Caenorhabditis elegans</i> mitochondria implicates shared mechanisms of aging and Alzheimer's disease.},
author = {Pahal S and Ganne A and Balasubramaniam M and Griffin ST and Shmookler Reis RJ and Ayyadevara S.},
journal = {Frontiers in aging neuroscience},
year = {2025},
doi = {10.3389/fnagi.2025.1713391},
}
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