Litcius/Paper detail

Maintaining sidedness and fluidity in cell membrane coatings supported on nano-particulate and planar surfaces

Sidi Liu, Yuanfeng Li, Linqi Shi, Jian Liu, Yijin Ren, Jon D. Laman, Henny C. van der Mei, Henk J. Busscher

2023Bioactive Materials12 citationsDOIOpen Access PDF

Abstract

Supported cell membrane coatings meet many requirements set to bioactive nanocarriers and materials, provided sidedness and fluidity of the natural membrane are maintained upon coating. However, the properties of a support-surface responsible for maintaining correct sidedness and fluidity are unknown. Here, we briefly review the properties of natural membranes and membrane-isolation methods, with focus on the asymmetric distribution of functional groups in natural membranes (sidedness) and the ability of molecules to float across a membrane to form functional domains (fluidity). This review concludes that hydrophilic sugar-residues of glycoproteins in the outer-leaflet of cell membranes direct the more hydrophobic inner-leaflet towards a support-surface to create a correctly-sided membrane coating, regardless of electrostatic double-layer interactions. On positively-charged support-surfaces however, strong, electrostatic double-layer attraction of negatively-charged membranes can impede homogeneous coating. In correctly-sided membrane coatings, fluidity is maintained regardless of whether the surface carries a positive or negative charge. However, membranes are frozen on positively-charged, highly-curved, small nanoparticles and localized nanoscopic structures on a support-surface. This leaves an unsupported membrane coating in between nanostructures on planar support-surfaces that is in dual-sided contact with its aqueous environment, yielding enhanced fluidity in membrane coatings on nanostructured, planar support-surfaces as compared with smooth ones.

Topics & Concepts

MembraneMaterials scienceCoatingMembrane fluidityChemical engineeringSurface chargeNanotechnologyLipid bilayerBiophysicsChemistryBiochemistryPhysical chemistryBiologyEngineeringAdvanced biosensing and bioanalysis techniquesLipid Membrane Structure and BehaviorPolymer Surface Interaction Studies