Show Notes
Küry S et al., Nat Commun - This study describes 26 distinct PSMC5 variants in 44 individuals and demonstrates that PSMC5 loss impairs proteasome function, driving proteotoxic stress, mitochondrial and lipid dysregulation, sterile type I interferon activation, and neurodevelopmental deficits. Key terms: PSMC5, proteasome, neurodevelopment, interferon, mitophagy.
Study Highlights:
Twenty-six distinct PSMC5 variants were identified in 44 affected individuals, mostly heterozygous and de novo, clustering in the AAA+ ATPase domain and predicted to be pathogenic. Functional assays and patient T cells show that many variants perturb PSMC5 incorporation into 26S proteasomes, reduce proteasome activity, and increase ubiquitin-positive aggregates and aggresomes. Multi-omics of patient T cells revealed disrupted mitochondrial proteostasis with increased mitophagy, altered glycerophospholipid profiles and impaired ribosome biogenesis. Neuronal models and Drosophila demonstrate reduced excitatory synapses, E/I imbalance, impaired neuritogenesis, deficits in reversal learning and compromised NPC differentiation, while ISR kinases PKR and GCN2 plus cGAS-STING and JAK pathways mediate a spontaneous type I IFN response that can be pharmacologically reduced.
Conclusion:
PSMC5 variants cause proteasome loss-of-function that links proteotoxic stress to innate immune activation and impaired neurogenesis, identifying ISR and JAK pathway components as potential therapeutic targets.
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Reference:
Küry S, Bézieau S, Ebstein F, et al. Investigating the neuronal role of the proteasomal ATPase subunit gene PSMC5 in neurodevelopmental proteasomopathies. Nature Communications. 2025;16:10545. https://doi.org/10.1038/s41467-025-65556-8
License:
This episode is based on an open-access article published under the Creative Commons Attribution 4.0 International License (CC BY 4.0) – https://creativecommons.org/licenses/by/4.0/
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Episode Slug: psmc5-proteasome-neurodevelopment
