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Pré-Publication, Document De Travail Année : 2021

Negative curvature-promoting lipids instruct nuclear ingression of low autophagic potential vacuoles

Résumé

Abstract: Membrane contact sites are functional nodes at which organelles exchange information through moving ions, proteins and lipids, thus driving the reorganization of metabolic pathways and the adaptation to changing cues. The nuclear-vacuole junction of Saccharomyces cerevisiae is among the most extensive and better-known organelle contact sites, described to expand in response to various metabolic stresses. While using genotoxins with unrelated purposes, we serendipitously discovered a phenomenon that we describe as the most extreme and intimate contact ever reported between nuclei and vacuoles: the vacuole becomes completely internalized in the nucleus. We define lipids supporting negative curvature, such as phosphatidic acid and sterols, as bona-fide drivers of this event. Functionally, we purport that internalized vacuoles are low efficiency ones whose removal from the cytoplasm optimizes cargo interaction with functional vacuoles. Thus, our findings also point to nucleus-vacuole interactions as important for metabolic adaptation. Yet, rather than by inter-organelle exchanges, the underlying mechanism literally concurs with vacuolar sequestration.
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Dates et versions

hal-03380081 , version 1 (15-10-2021)

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Manon Garcia, Sylvain Kumanski, Alberto Elías-Villalobos, Caroline Soulet, María Moriel-Carretero. Negative curvature-promoting lipids instruct nuclear ingression of low autophagic potential vacuoles. 2021. ⟨hal-03380081⟩
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