Litcius/Paper detail

Mechanism of shaping membrane nanostructures of endoplasmic reticulum

Ben Zucker, Michael M. Kozlov

2021Proceedings of the National Academy of Sciences32 citationsDOIOpen Access PDF

Abstract

Recent advances in super-resolution microscopy revealed the previously unknown nanoscopic level of organization of endoplasmic reticulum (ER), one of the most vital intracellular organelles. Membrane nanostructures of 10- to 100-nm intrinsic length scales, which include ER tubular matrices, ER sheet nanoholes, internal membranes of ER exit sites (ERES), and ER transport intermediates, were discovered and imaged in considerable detail, but the physical factors determining their unique geometrical features remained unknown. Here, we proposed and computationally substantiated a common concept for mechanisms of all ER nanostructures based on the membrane intrinsic curvature as a primary factor shaping the membrane and ultra-low membrane tensions as modulators of the membrane configurations. We computationally revealed a common structural motif underlying most of the nanostructures. We predicted the existence of a discrete series of equilibrium configurations of ER tubular matrices and recovered the one corresponding to the observations and favored by ultra-low tensions. We modeled the nanohole formation as resulting from a spontaneous collapse of elements of the ER tubular network adjacent to the ER sheet edge and calculated the nanohole dimensions. We proposed the ERES membrane to have a shape of a super flexible membrane bead chain, which acquires random walk configurations unless an ultra-low tension converts it into a straight conformation of a transport intermediate. The adequacy of the proposed concept is supported by a close qualitative and quantitative similarity between the predicted and observed configurations of all four ER nanostructures.

Topics & Concepts

Endoplasmic reticulumMembraneNanostructureBiophysicsOrganelleNanoscopic scaleCurvatureMembrane curvatureChemistryNanotechnologyMaterials scienceCrystallographyChemical physicsBiologyGeometryLipid bilayerBiochemistryMathematicsCellular transport and secretionLipid Membrane Structure and BehaviorMicrotubule and mitosis dynamics
Mechanism of shaping membrane nanostructures of endoplasmic reticulum | Litcius