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Confined diffusion of transmembrane proteins and lipids induced by the same actin meshwork lining the plasma membrane.


ABSTRACT: The mechanisms by which the diffusion rate in the plasma membrane (PM) is regulated remain unresolved, despite their importance in spatially regulating the reaction rates in the PM. Proposed models include entrapment in nanoscale noncontiguous domains found in PtK2 cells, slow diffusion due to crowding, and actin-induced compartmentalization. Here, by applying single-particle tracking at high time resolutions, mainly to the PtK2-cell PM, we found confined diffusion plus hop movements (termed "hop diffusion") for both a nonraft phospholipid and a transmembrane protein, transferrin receptor, and equal compartment sizes for these two molecules in all five of the cell lines used here (actual sizes were cell dependent), even after treatment with actin-modulating drugs. The cross-section size and the cytoplasmic domain size both affected the hop frequency. Electron tomography identified the actin-based membrane skeleton (MSK) located within 8.8 nm from the PM cytoplasmic surface of PtK2 cells and demonstrated that the MSK mesh size was the same as the compartment size for PM molecular diffusion. The extracellular matrix and extracellular domains of membrane proteins were not involved in hop diffusion. These results support a model of anchored TM-protein pickets lining actin-based MSK as a major mechanism for regulating diffusion.

SUBMITTER: Fujiwara TK 

PROVIDER: S-EPMC4814218 | biostudies-literature | 2016 Apr

REPOSITORIES: biostudies-literature

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Confined diffusion of transmembrane proteins and lipids induced by the same actin meshwork lining the plasma membrane.

Fujiwara Takahiro K TK   Iwasawa Kokoro K   Kalay Ziya Z   Tsunoyama Taka A TA   Watanabe Yusuke Y   Umemura Yasuhiro M YM   Murakoshi Hideji H   Suzuki Kenichi G N KG   Nemoto Yuri L YL   Morone Nobuhiro N   Kusumi Akihiro A  

Molecular biology of the cell 20160210 7


The mechanisms by which the diffusion rate in the plasma membrane (PM) is regulated remain unresolved, despite their importance in spatially regulating the reaction rates in the PM. Proposed models include entrapment in nanoscale noncontiguous domains found in PtK2 cells, slow diffusion due to crowding, and actin-induced compartmentalization. Here, by applying single-particle tracking at high time resolutions, mainly to the PtK2-cell PM, we found confined diffusion plus hop movements (termed "ho  ...[more]

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