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Loss of Proteostasis and Early-Onset Neurodegeneration in Down Syndrome: From Mechanisms to Interventions.

Tramutola A, Lanzillotta C, Di Domenico F, Barone E, Perluigi M.

Antioxidants (Basel, Switzerland) · 2026

Abstract

Down syndrome (DS), caused by trisomy 21, is the most prevalent genetic condition associated with accelerated aging and near-universal development of early-onset Alzheimer's disease (AD). Beyond gene-dosage imbalance, trisomy 21 induces widespread transcriptional, metabolic, and proteomic remodeling that establishes a chronic state of proteotoxic and oxidative stress from early development. Increasing evidence identifies DS as a disorder of proteostasis(definition) network failure, in which sustained translational pressure, redox disequilibrium, and degradation pathway insufficiency progressively erode cellular resilience. In the DS brain, persistent endoplasmic reticulum stress with PERK-dominant signaling, mitochondrial dysfunction(definition) characterized by oxidative phosphorylation deficits and excessive reactive oxygen species production, and impaired antioxidant responses create a highly vulnerable intracellular environment. Concomitantly, degradation systems become compromised: proteasomal catalytic activity declines, ubiquitin-dependent signaling is remodeled, and chronic mTOR(definition) hyperactivation suppresses autophagic and mitophagic flux. The coordinated impairment of the ubiquitin-proteasome system and autophagy(definition) establish a feed-forward cycle of proteotoxic accumulation and redox amplification. Within this framework, Alzheimer-like neuropathology in DS emerges not solely from amyloid precursor protein triplication but as the late manifestation of decades-long proteostasis exhaustion. Therapeutic strategies aimed at restoring global proteostasis and redox balance may therefore represent a more effective systems-level approach to mitigating neurodegeneration in DS.

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Provenance

Source
Europe PMC
DOI
10.3390/antiox15040520
Canonical
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Fetched
2026-07-01 MST

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APA
A, T., C, L., F, D.D., E, B., &amp; M., P. (2026). Loss of Proteostasis and Early-Onset Neurodegeneration in Down Syndrome: From Mechanisms to Interventions. <em>Antioxidants (Basel, Switzerland)</em>. https://doi.org/10.3390/antiox15040520
Vancouver
A T, C L, F DD, E B, M. P. Loss of Proteostasis and Early-Onset Neurodegeneration in Down Syndrome: From Mechanisms to Interventions. Antioxidants (Basel, Switzerland). 2026. doi:10.3390/antiox15040520.
BibTeX
@article{tramutola2026Lossof, title = {Loss of Proteostasis and Early-Onset Neurodegeneration in Down Syndrome: From Mechanisms to Interventions.}, author = {Tramutola A and Lanzillotta C and Di Domenico F and Barone E and Perluigi M.}, journal = {Antioxidants (Basel, Switzerland)}, year = {2026}, doi = {10.3390/antiox15040520}, }

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