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Membrane nanotubes transform into double-membrane sheets at condensate droplets

Ziliang Zhao, Vahid Satarifard, Reinhard Lipowsky, Rumiana Dimova

2024Proceedings of the National Academy of Sciences11 citationsDOIOpen Access PDF

Abstract

Cellular membranes exhibit a multitude of highly curved morphologies such as buds, nanotubes, cisterna-like sheets defining the outlines of organelles. Here, we mimic cell compartmentation using an aqueous two-phase system of dextran and poly(ethylene glycol) encapsulated in giant vesicles. Upon osmotic deflation, the vesicle membrane forms nanotubes, which undergo surprising morphological transformations at the liquid-liquid interfaces inside the vesicles. At these interfaces, the nanotubes transform into cisterna-like double-membrane sheets (DMS) connected to the mother vesicle via short membrane necks. Using super-resolution (stimulated emission depletion) microscopy and theoretical considerations, we construct a morphology diagram predicting the tube-to-sheet transformation, which is driven by a decrease in the free energy. Nanotube knots can prohibit the tube-to-sheet transformation by blocking water influx into the tubes. Because both nanotubes and DMSs are frequently formed by cellular membranes, understanding the formation and transformation between these membrane morphologies provides insight into the origin and evolution of cellular organelles.

Topics & Concepts

VesicleMembranePolymersomeMaterials scienceNanotubeOrganelleBiophysicsChemical engineeringNanotechnologyChemistryCarbon nanotubeCopolymerComposite materialAmphiphileBiologyBiochemistryEngineeringPolymerLipid Membrane Structure and BehaviorPickering emulsions and particle stabilizationPhotosynthetic Processes and Mechanisms
Membrane nanotubes transform into double-membrane sheets at condensate droplets | Litcius