Surfactant-free production of biomimetic artificial cells using PDMS-based microfluidics

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Abstract

Microfluidic-based production of cellular mimics (e.g. giant vesicles) presents a paradigm-shift in the development of artificial cells. While encapsulation rates are high and vesicles are mono-disperse compared to swelling-based techniques, current microfluidic emulsion-based methods heavily rely on the addition of additives such as surfactants, glycerol and even ethanol to produce stable vesicles. In this work, we present a microfluidic platform designed for the production of cellular mimics in the form of giant unilamellar vesicles (GUVs). Our PDMS-based device comprises a double cross-junction and a serpentine-shaped shear inducing module to produce surfactant-free and additive-free monodisperse biomimetic GUVs. Vesicles can be made with neutral and charged lipids in physiological buffers and, unlike previous works, it is possible to produce them with pure water both inside and outside. By not employing surfactants such as block co-polymers, additives like glycerol, and long-chain poly-vinyl alcohol that are known to alter the properties of lipid membranes, the vesicles are rendered truly biomimetic. The membrane functionality and stability are validated by lipid diffusion, membrane protein incorporation, and leakage assays. To demonstrate the usability of the GUVs using this method, various macromolecules such as DNA, smaller liposomes, mammalian cells and even microspheres are encapsulated within the GUVs.

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europepmc
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