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Rapid and reversible dissolution of biomolecular condensates using light-controlled recruitment of a solubility tag.

Ellen H Brumbaugh-ReedKazuhiro AokiJared E Toettcher
Published in: bioRxiv : the preprint server for biology (2024)
Biomolecular condensates are broadly implicated in both normal cellular regulation and disease. Consequently, several chemical biology and optogenetic approaches have been developed to induce phase separation of a protein of interest. However, few tools are available to perform the converse function-dissolving a condensate of interest on demand. Such a tool would aid in testing whether the condensate plays specific functional roles, a major question in cell biology and drug development. Here we report an optogenetic approach to selectively dissolve a condensate of interest in a reversible and spatially controlled manner. We show that light-gated recruitment of maltose-binding protein (MBP), a commonly used solubilizing domain in protein purification, results in rapid and controlled dissolution of condensates formed from proteins of interest. Our optogenetic MBP-based dissolution strategy (OptoMBP) is rapid, reversible, and can be spatially controlled with subcellular precision. We also provide a proof-of-principle application of OptoMBP, showing that disrupting condensation of the oncogenic fusion protein FUS-CHOP results in reversion of FUS-CHOP driven transcriptional changes. We envision that the OptoMBP system could be broadly useful for disrupting constitutive protein condensates to probe their biological functions.
Keyphrases
  • binding protein
  • protein protein
  • diffuse large b cell lymphoma
  • amino acid
  • gene expression
  • loop mediated isothermal amplification
  • single cell
  • stem cells
  • quantum dots
  • cell therapy
  • living cells
  • heat shock