Senolytic-Primed Autophagy Enhancement
🧪 Overview
Sequential treatment with autophagy enhancers (rapamycin/spermidine) followed by senolytics will improve clearance of senescent cells by first priming cellular degradation pathways.
Debate provenance: derived from debate `sess_sda-2026-04-01-gap-013` on question: Senolytics targeting p16/p21+ senescent astrocytes and microglia may reduce SASP-driven neuroinflammation.. Consensus signal: domain_expert, synthesizer, theorist discussed the mechanism terms Autophagy, BCL2L1, Enhancement, MTOR, Senolytic-Primed, ULK1, autophagy, clearance. Novelty signal: synthesizer-consensus.
🧬 Mechanism
Auto-built from this analysis's top knowledge-graph edges.
graph TD
CGAS["CGAS"] -->|associated with| neurodegeneration["neurodegeneration"]
PLA2G6["PLA2G6"] -->|associated with| neurodegeneration_1["neurodegeneration"]
GPX4["GPX4"] -->|associated with| neurodegeneration_2["neurodegeneration"]
C1Q["C1Q"] -->|participates in| C1q___complement_mediated["C1q / complement-mediated synapse elimination"]
C3["C3"] -->|participates in| C1q___complement_mediated_3["C1q / complement-mediated synapse elimination"]
C1Q_4["C1Q"] -->|interacts with| C3_5["C3"]
C3_6["C3"] -->|interacts with| C1Q_7["C1Q"]
C1Q_8["C1Q"] -->|associated with| neurodegeneration_9["neurodegeneration"]
C3_10["C3"] -->|associated with| neurodegeneration_11["neurodegeneration"]
CD38["CD38"] -->|associated with| neurodegeneration_12["neurodegeneration"]
NAMPT["NAMPT"] -->|interacts with| CD38_13["CD38"]
CD38_14["CD38"] -->|interacts with| NAMPT_15["NAMPT"]
style CGAS fill:#ce93d8,stroke:#333,color:#000
style neurodegeneration fill:#ef5350,stroke:#333,color:#000
style PLA2G6 fill:#ce93d8,stroke:#333,color:#000
style neurodegeneration_1 fill:#ef5350,stroke:#333,color:#000
style GPX4 fill:#ce93d8,stroke:#333,color:#000
style neurodegeneration_2 fill:#ef5350,stroke:#333,color:#000
style C1Q fill:#ce93d8,stroke:#333,color:#000
style C1q___complement_mediated fill:#81c784,stroke:#333,color:#000
style C3 fill:#ce93d8,stroke:#333,color:#000
style C1q___complement_mediated_3 fill:#81c784,stroke:#333,color:#000
style C1Q_4 fill:#ce93d8,stroke:#333,color:#000
style C3_5 fill:#ce93d8,stroke:#333,color:#000
style C3_6 fill:#ce93d8,stroke:#333,color:#000
style C1Q_7 fill:#ce93d8,stroke:#333,color:#000
style C1Q_8 fill:#ce93d8,stroke:#333,color:#000
style neurodegeneration_9 fill:#ef5350,stroke:#333,color:#000
style C3_10 fill:#ce93d8,stroke:#333,color:#000
style neurodegeneration_11 fill:#ef5350,stroke:#333,color:#000
style CD38 fill:#ce93d8,stroke:#333,color:#000
style neurodegeneration_12 fill:#ef5350,stroke:#333,color:#000
style NAMPT fill:#ce93d8,stroke:#333,color:#000
style CD38_13 fill:#ce93d8,stroke:#333,color:#000
style CD38_14 fill:#ce93d8,stroke:#333,color:#000
style NAMPT_15 fill:#ce93d8,stroke:#333,color:#000⚖️ Evidence
No linked papers recorded for this hypothesis yet.
🏥 Translation
🧬 3D Protein Structure — MTOR
No curated PDB or AlphaFold mapping for MTOR yet. Search RCSB →
💉 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.
No DepMap CRISPR Chronos data found for MTOR, ULK1, BCL2L1.
Run python3 scripts/backfill_hypothesis_depmap.py to populate.
🏆 Tournament
🏆 Arenas / Elo
📊 Market Indicators
💾 Resource Usage
▸Metadatasource: v1_phase_c_backfill · origin_type: debate_round_mining
| source | v1_phase_c_backfill |
| origin_type | debate_round_mining |
| _schema_version | 1 |