María Gabriela Thomas, Ana Julia Fernández-Alvarez, Macarena Giménez, Francisco Corvetto Aristarain, Lucas Helio Cozza, Jerónimo Pimentel, João Pessoa, Malena Lucía Pascual, Lara Boscaglia, Martín Habif, Agustín Corbat, Pablo Ezequiel La Spina, Tomás Peters, Diego Martín Bustos, Maria Carmo-Fonseca, Hernán Edgardo Grecco, Graciela Lidia Boccaccio
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Abstract
Biomolecular condensates (BMCs) emerge as important players in RNA regulation. The RNA-binding protein Smaug forms cytosolic BMCs in mammals, insects and yeasts and affects mitochondrial function and/or responses to nutrient deprivation. Here, we found that the non-canonical activation of the Smoothened (SMO)-AMPK pathway, which is known to affect energy metabolism, triggers the immediate disassembly of BMCs formed by a number of human and rodent Smaug orthologs, whereas processing bodies remain rather unaltered. A non-phosphorylatable SMO mutant abrogated the effect, involving SMO phosphorylation in human (h)Smaug1 (also known as SAMD4A) BMCs regulation. Three mechanistically different SMO ligands, namely SAG, GSA-10 and cyclopamine, elicited a similar response, which was blocked upon AMPK pharmacological inhibition. Polysome disassembly by puromycin halted Smaug1 BMC dissolution, thus suggesting that unbound transcripts became translationally active. Single-molecule fluorescent in situ hybridization illustrated the release of UQCRC1 mRNA. Finally, Smaug1 is a phosphoprotein bound by 14-3-3 proteins, and the competitive inhibitor difopein blocked the response to non-canonical SMO stimulation. We propose that the regulated condensation and dispersion of Smaug1 BMCs generate translational changes that contribute to metabolic regulation downstream of the non-canonical SMO-AMPK axis.
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