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ID: h-SDA-2026-04-26-gap-pubmed-20260412-094
Hypothesis

Ribosome Stalling and Collision-Induced Translational Repression

Intron-retained GBA transcripts escaping nuclear retention enter the cytoplasm where the intronic sequence causes ribosome stalling.
🧬 GBA mRNA; ZNF598, GIGYF2, RQC components🎯 Composite 62%💱 $0.61▼5.3%proposed
neurodegeneration
EvidencePending (0%)📖 0 cit🗣 1 debates 4 support 3 oppose
✓ All Quality Gates Passed
Mechanistic 0.63 (15%) Evidence 0.52 (15%) Novelty 0.00 (12%) Feasibility 0.00 (12%) Impact 0.00 (12%) Druggability 0.00 (10%) Safety 0.00 (8%) Competition 0.00 (6%) Data Avail. 0.00 (5%) Reproducible 0.00 (5%) KG Connect 0.50 (8%) 0.625 composite
☰ Compare⚔️ Duel⚛️ Collide
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Composite62%

🧪 Overview

Intron-retained GBA transcripts escaping nuclear retention enter the cytoplasm where the intronic sequence causes ribosome stalling. Colliding ribosomes recruit ZNF598 and GIGYF2, triggering ubiquitination of ribosomal proteins and activation of ribosome-associated quality control (RQC). This global translational repression disproportionately affects the already-low-abundance GBA transcripts, leading to cumulative protein reduction. While direct ZNF598 or GIGYF2 inhibitors carry safety risks, targeting the substrate (IR-GBA transcript) via ASO or siRNA represents a viable therapeutic strategy.

🧬 Mechanism

🧬 Curated Mechanism Pathway

Curated pathway from expert analysis

flowchart TD
    A["GBA mRNA<br/>Quality Control Defect"]
    B["Ribosome<br/>Stalling"]
    C["ZNF598<br/>Collision Sensor"]
    D["GIGYF2<br/>Collision Response"]
    E["RQC Components<br/>Targeted Decay"]
    F["Nascent Chain<br/>Quality Crisis"]
    G["Proteostasis<br/>Failure"]
    H["Neurodegeneration<br/>PD / GBA"]
    A --> B
    B --> C
    C --> D
    D --> E
    E --> F
    F --> G
    G --> H
    style A fill:#6a1b9a,stroke:#ce93d8,color:#ce93d8
    style H fill:#b71c1c,stroke:#ef9a9a,color:#ef9a9a

⚖️ Evidence

⚖️ Evidence Matrix4 supports3 contradicts
Supports
Ribosome collision detected in neurodegeneration-linked transcripts with stalls
Supports
GIGYF2 mutations associated with Parkinsonism
Supports
Intron retention leads to cytoplasmic export of aberrant transcripts in neurological disease
Supports
ASO modality validated for intronic targets (nusinersen, inotersen)
Contradicts
Vast majority of intron-retained transcripts are efficiently nuclear-retained, particularly in neuronal cells
Contradicts
ZNF598/GIGYF2 activation requires specific collision geometries not guaranteed in intronic sequences
Contradicts
GIGYF2 mutations cause PD through impaired miRNA silencing, not collision sensor deficiency
📖 Linked Papers

No linked papers recorded for this hypothesis yet.

🏥 Translation

🧬 3D Protein Structure — GBA

🧬 PDB 2V3D Click to expand

Experimental structure from RCSB PDB | Powered by Mol*

🧠 GTEx v10 Brain ExpressionJSON

Median TPM across 13 brain regions for GBA mRNA; ZNF598, GIGYF2, RQC components from GTEx v10.

Spinal cord cervical c-113.7 Frontal Cortex BA912.6 Nucleus accumbens basal ganglia10.8 Cortex10.8 Hypothalamus10.7 Caudate basal ganglia9.9 Cerebellar Hemisphere9.7 Cerebellum9.6 Substantia nigra9.1 Anterior cingulate cortex BA248.8 Putamen basal ganglia8.2 Hippocampus7.1 Amygdala6.8median TPM (GTEx v10)

💉 Clinical Trials

No clinical trials data linked to this hypothesis yet.

No curated ClinVar variants loaded for this hypothesis.

Run scripts/backfill_clinvar_variants.py to fetch P/LP/VUS variants.

🔍 Search ClinVar for GBA mRNA; ZNF598, GIGYF2, RQC components →

No DepMap CRISPR Chronos data found for GBA mRNA; ZNF598, GIGYF2, RQC components.

Run python3 scripts/backfill_hypothesis_depmap.py to populate.

🏆 Tournament

🏆 Arenas / Elo

No arena matches recorded yet. Browse Arenas →

📊 Market Indicators

7d Trend
Stable
7d Momentum
▲ 0.0%
Volatility
Low
0.0137
Events (7d)
1
Price History
▼5.3%

💾 Resource Usage

No resource usage or linked notebooks recorded for this hypothesis yet.

🔮 Predictions

🔎 Predictions vs Observations2 predictions · 0 with recorded observations
PredictionPredictedObservedStatusConf
IF intron-retained GBA (IR-GBA) transcripts are selectively degraded via ASO treatment in iPSC-derived neurons from homozygous GBA N370S carriers, THEN GBA protein levels will increase by ≥50% relativIR-GBA mRNA knockdown ≥60% will correlate with ≥50% increase in GBA protein abundance measured by ELISA or Western blot, while total cellular translation (asses— no observation —pending0.65
IF ZNF598 is genetically ablated via CRISPR-Cas9 in HEK293T cells expressing an IR-GBA reporter construct, THEN global translational output will be restored to levels indistinguishable from cells lackZNF598 knockout will reduce ribosomal protein ubiquitination (assessed by ubiquitin immunoprecipitation at ribosome fractions) at IR-GBA transcripts and normali— no observation —pending0.58
🔮 Falsifiable Predictions (2)
pendingconf 65%
IF intron-retained GBA (IR-GBA) transcripts are selectively degraded via ASO treatment in iPSC-derived neurons from homozygous GBA N370S carriers, THEN GBA protein levels will increase by ≥50% relative to baseline within 72 hours post-transfection.
Predicted outcome: IR-GBA mRNA knockdown ≥60% will correlate with ≥50% increase in GBA protein abundance measured by ELISA or Western blot, while total cellular translat
Falsification: GDA protein levels do not increase by ≥50% (e.g., <20% change) despite ≥60% IR-GBA knockdown, indicating that IR-GBA-mediated ribosome stalling is not the primary mechanism reducing GBA abundance.
pendingconf 58%
IF ZNF598 is genetically ablated via CRISPR-Cas9 in HEK293T cells expressing an IR-GBA reporter construct, THEN global translational output will be restored to levels indistinguishable from cells lacking IR-GBA expression within 48 hours post-editing.
Predicted outcome: ZNF598 knockout will reduce ribosomal protein ubiquitination (assessed by ubiquitin immunoprecipitation at ribosome fractions) at IR-GBA transcripts a
Falsification: Global translation remains repressed ≥30% below control levels in ZNF598 KO cells expressing IR-GBA, indicating ZNF598 is not the primary sensor of IR-GBA-induced ribosome collisions, or that alternat
Metadatasource: v1_phase_c_backfill · origin_type: gap_debate
sourcev1_phase_c_backfill
origin_typegap_debate
_schema_version1
📊 Evidence Profile
Evidence Balance
+0%
Certainty
0%
Debates
0
Incoming
0
Outgoing
0
0 supporting 0 contradicting 0 neutral
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