Autophagy receptor identification for stress granule elimination

Exploratory Score: 0.900 Price: $0.50 neurodegenerative diseases cultured cells under arsenite stress Status: proposed

What This Experiment Tests

Exploratory experiment designed to discover new patterns targeting SQSTM1, CALCOCO2 in cultured cells under arsenite stress. Primary outcome: identification of SQSTM1 and CALCOCO2 as stress granule autophagy receptors

Description

Systematic investigation of well-defined autophagy receptors to identify those responsible for stress granule elimination. The study screened multiple autophagy receptors and identified SQSTM1/p62 and CALCOCO2/NDP52 as primary receptors that directly interact with G3BP1 during arsenite-induced stress. The receptors were shown to localize to the periphery of stress granules under oxidative stress and mediate stress granule elimination through autophagy-dependent mechanisms.

TARGET GENE

SQSTM1, CALCOCO2

MODEL SYSTEM

cultured cells under arsenite stress

ESTIMATED COST

TIMELINE

0 months

PATHWAY

autophagy, stress granule homeostasis

SOURCE

extracted_from_pmid_36692217

PRIMARY OUTCOME

identification of SQSTM1 and CALCOCO2 as stress granule autophagy receptors

Scoring Dimensions

📖 Wiki Pages

SQSTM1 Protein (p62/Sequestosome-1)protein SQSTM1/p62 Proteinprotein SQSTM1 — Sequestosome 1 (p62)gene NDP52 Genegene NDP52 Proteinprotein G3BP1gene SQSTM1/p62entity CALCOCO2 — Calcium Binding and Coiled-Coil Domain gene G3BP1 Protein — Ras-GTPase-Activating Protein-Bindprotein Lysosomal Enzyme Dysfunction Across Neurodegeneratdisease autophagymechanism Proteasome Dysfunction Across Neurodegenerative Didisease Autophagyentity Calcium Dysregulation Across Neurodegenerative Disdisease Mechanismsindex

Protocol

Screen design: Test 8 canonical autophagy receptors: SQSTM1/p62, CALCOCO2/NDP52, NBR1, OPTN, TAX1BP1, TOLLIP, BNIP3, FUNDC1. Cells: U2OS cells expressing mCherry-G3BP1 + GFP-tagged receptors (lentiviral). Stress: 0.5 mM sodium arsenite (1h), then washout to allow SG clearance (0-8h recovery). Imaging: Live-cell confocal microscopy, image every 30 min during recovery. Quantify: (1) Receptor colocalization with G3BP1 (Mander overlap coefficient). (2) SG clearance kinetics (t1/2, plateau). (3) Receptor recruitment timing. Knockout validation: Generate SQSTM1-/-, CALCOCO2-/- using CRISPR-Cas9 (dual gRNA strategy). Verify knockout by Western blot and Sanger sequencing. Measure SG persistence in KO cells vs. WT. Interaction assays: (1) Co-IP: Pull down GFP-receptors, detect mCherry-G3BP1.

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Expected Outcomes

Quantitative predictions: (1) Screen: SQSTM1 and CALCOCO2 show >70% colocalization with G3BP1 at SG periphery during recovery phase (2-4h). Other receptors show <30% colocalization. (2) SG clearance t1/2: WT cells 3-4h, SQSTM1-/- 6-8h, CALCOCO2-/- 5-7h, double KO 10-12h. (3) Receptor recruitment: SQSTM1 arrives at 1-2h post-stress, CALCOCO2 at 2-3h (sequential). (4) Co-IP: SQSTM1 pulls down G3BP1 with 5-10 fold enrichment over IgG; CALCOCO2 4-8 fold. (5) PLA: 10-20 puncta per cell at 3h recovery in WT, <2 in receptor KO.

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Success Criteria

Primary: SQSTM1 and CALCOCO2 show >60% colocalization with G3BP1 at 3h recovery (p<0.001, paired t-test vs. other receptors). Knockout of SQSTM1 or CALCOCO2 increases SG t1/2 by >1.5-fold (p<0.01 vs. WT, log-rank test). Secondary: (1) Co-IP enrichment >4-fold for SQSTM1 and CALCOCO2 (p<0.01). (2) PLA signal >5-fold above isotype control (p<0.001). (3) Autophagy inhibition (bafilomycin or ATG7 KD) phenocopies receptor KO (no significant difference in SG persistence, p>0.1). (4) Double KO shows additive effect (t1/2 >2x single KO, p<0.05).

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