Membrane dynamics of dividing cells imaged by lattice light-sheet microscopy-Reference-Cited by-同舟云学术

Membrane dynamics of dividing cells imaged by lattice light-sheet microscopy

Published:2016-11-07 Issue:22 Volume:27 Page:3418-3435
ISSN:1059-1524
Container-title:Molecular Biology of the Cell
language:en
Short-container-title:MBoC

Author:

Aguet François¹,Upadhyayula Srigokul²,Gaudin Raphaël²,Chou Yi-ying²,Cocucci Emanuele²,He Kangmin²,Chen Bi-Chang³,Mosaliganti Kishore⁴,Pasham Mithun²,Skillern Wesley²,Legant Wesley R.³,Liu Tsung-Li³,Findlay Greg²,Marino Eric²,Danuser Gaudenz⁵,Megason Sean⁴,Betzig Eric³,Kirchhausen Tom¹⁶

Affiliation:

1. Department of Cell Biology, Harvard Medical School, Boston, MA 02115

2. Department of Cell Biology, Harvard Medical School, and Program in Cellular and Molecular Medicine, Boston Children’s Hospital, Boston, MA 02115

3. Janelia Research Campus, Howard Hughes Medical Institute, Ashburn, VA 20147

4. Department of Systems Biology, Harvard Medical School, Boston, MA 02115

5. Lyda Hill Department of Bioinformatics, UT Southwestern Medical Center, Dallas, TX 75390

6. Departments of Cell Biology and Pediatrics, Harvard Medical School, and Program in Cellular and Molecular Medicine, Boston Children’s Hospital, Boston, MA 02115

Abstract

Membrane remodeling is an essential part of transferring components to and from the cell surface and membrane-bound organelles and for changes in cell shape, which are particularly critical during cell division. Earlier analyses, based on classical optical live-cell imaging and mostly restricted by technical necessity to the attached bottom surface, showed persistent formation of endocytic clathrin pits and vesicles during mitosis. Taking advantage of the resolution, speed, and noninvasive illumination of the newly developed lattice light-sheet fluorescence microscope, we reexamined their assembly dynamics over the entire cell surface and found that clathrin pits form at a lower rate during late mitosis. Full-cell imaging measurements of cell surface area and volume throughout the cell cycle of single cells in culture and in zebrafish embryos showed that the total surface increased rapidly during the transition from telophase to cytokinesis, whereas cell volume increased slightly in metaphase and was relatively constant during cytokinesis. These applications demonstrate the advantage of lattice light-sheet microscopy and enable a new standard for imaging membrane dynamics in single cells and multicellular assemblies.

Publisher

American Society for Cell Biology (ASCB)

Subject

Cell Biology,Molecular Biology

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