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  • A genome-wide screen identifies IRF2 as a key regulator of caspase-4 in human cells.

A genome-wide screen identifies IRF2 as a key regulator of caspase-4 in human cells.

EMBO reports (2019-07-30)
Sacha Benaoudia, Amandine Martin, Marta Puig Gamez, Gabrielle Gay, Brice Lagrange, Maxence Cornut, Kyrylo Krasnykov, Jean-Baptiste Claude, Cyril F Bourgeois, Sandrine Hughes, Benjamin Gillet, Omran Allatif, Antoine Corbin, Romeo Ricci, Thomas Henry
ABSTRACT

Caspase-4, the cytosolic LPS sensor, and gasdermin D, its downstream effector, constitute the non-canonical inflammasome, which drives inflammatory responses during Gram-negative bacterial infections. It remains unclear whether other proteins regulate cytosolic LPS sensing, particularly in human cells. Here, we conduct a genome-wide CRISPR/Cas9 screen in a human monocyte cell line to identify genes controlling cytosolic LPS-mediated pyroptosis. We find that the transcription factor, IRF2, is required for pyroptosis following cytosolic LPS delivery and functions by directly regulating caspase-4 levels in human monocytes and iPSC-derived monocytes. CASP4, GSDMD, and IRF2 are the only genes identified with high significance in this screen highlighting the simplicity of the non-canonical inflammasome. Upon IFN-γ priming, IRF1 induction compensates IRF2 deficiency, leading to robust caspase-4 expression. Deficiency in IRF2 results in dampened inflammasome responses upon infection with Gram-negative bacteria. This study emphasizes the central role of IRF family members as specific regulators of the non-canonical inflammasome.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
UCN-01, ≥97% (HPLC), powder
Sigma-Aldrich
Anti-Cas9 Antibody, clone 7A9, clone 7A9, from mouse
Roche
Cytotoxicity Detection Kit (LDH), suitable for protein quantification, suitable for cell analysis, detection, sufficient for ≤2,000 tests