Storyline

New insights into protein fragments driving neurodegeneration and potential metabolic intervention

Recent studies shed light on molecular mechanisms underlying neurodegenerative diseases such as Alzheimer's and frontotemporal lobar degeneration.

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Evidence trail (top sources)

top sources (2 domains)

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beta Hydroxybutyrate remodels the C99 interactome and coincides with restored organelle homeostasis in a Drosophila Alzheimers model

arXiv q-bio (new submissions) · arxiv.org · 2026-04-28 04:00 UTC

TMEM106B C-terminal fragments drive nucleocytoplasmic transport failure and TDP-43 mislocalization in the aging human brain

bioRxiv (all subjects) · Paper · biorxiv.org · 2026-04-27 21:28 UTC

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Overview

Recent studies shed light on molecular mechanisms underlying neurodegenerative diseases such as Alzheimer's and frontotemporal lobar degeneration.

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0.97

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Why now

Recent preprints provide fresh mechanistic insights into neurodegeneration.
Emerging evidence supports metabolic modulation as a promising therapeutic strategy.
Understanding fragment-induced transport failure could guide drug development.

Why it matters

Identifies specific protein fragments causing neuronal dysfunction in neurodegenerative diseases.
Highlights metabolic intervention that restores cellular homeostasis in Alzheimer's model.
Provides molecular targets for future therapeutic development.

Continuity snapshot

Trend status: insufficient_history.
Continuity stage: seed.
Current status: open.
2 current source-linked posts are attached to this storyline.

All evidence

beta Hydroxybutyrate remodels the C99 interactome and coincides with restored organelle homeostasis in a Drosophila Alzheimers model

arXiv q-bio (new submissions) · arxiv.org · 2026-04-28 04:00 UTC

TMEM106B C-terminal fragments drive nucleocytoplasmic transport failure and TDP-43 mislocalization in the aging human brain

bioRxiv (all subjects) · biorxiv.org · 2026-04-27 21:28 UTC

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arXiv q-bio (new submissions) (1)
bioRxiv (all subjects) (1)

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