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Tuning levels of low-complexity domain interactions to modulate endogenous oncogenic transcription

Shasha Chong, Thomas G.W. Graham, Claire Dugast‐Darzacq, Gina M. Dailey, Xavier Darzacq, Robert Tjian

2022Molecular Cell215 citationsDOIOpen Access PDF

Abstract

Gene activation by mammalian transcription factors (TFs) requires multivalent interactions of their low-complexity domains (LCDs), but how such interactions regulate transcription remains unclear. It has been proposed that extensive LCD-LCD interactions culminating in liquid-liquid phase separation (LLPS) of TFs is the dominant mechanism underlying transactivation. Here, we investigated how tuning the amount and localization of LCD-LCD interactions in vivo affects transcription of endogenous human genes. Quantitative single-cell and single-molecule imaging reveals that the oncogenic TF EWS::FLI1 requires a narrow optimum of LCD-LCD interactions to activate its target genes associated with GGAA microsatellites. Increasing LCD-LCD interactions toward putative LLPS represses transcription of these genes in patient-derived cells. Likewise, ectopically creating LCD-LCD interactions to sequester EWS::FLI1 into a well-documented LLPS compartment, the nucleolus, inhibits EWS::FLI1-driven transcription and oncogenic transformation. Our findings show how altering the balance of LCD-LCD interactions can influence transcriptional regulation and suggest a potential therapeutic strategy for targeting disease-causing TFs.

Topics & Concepts

TransactivationBiologyTranscription factorTranscription (linguistics)GeneCell biologyHEK 293 cellsGeneticsPhilosophyLinguisticsRNA Research and SplicingGenomics and Chromatin DynamicsSingle-cell and spatial transcriptomics
Tuning levels of low-complexity domain interactions to modulate endogenous oncogenic transcription | Litcius