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Actin Filaments Couple the Protrusive Tips to the Nucleus through the I-BAR Domain Protein IRSp53 during the Migration of Cells on 1D Fibers

Authors :
Mukherjee, Apratim
Ron, Jonathan Emanuel
Hu, Hooi Ting
Nishimura, Tamako
Hanawa-Suetsugu, Kyoko
Behkam, Bahareh
Mimori-Kiyosue, Yuko
Gov, Nir Shachna
Suetsugu, Shiro
Nain, Amrinder Singh
Mukherjee, Apratim
Ron, Jonathan Emanuel
Hu, Hooi Ting
Nishimura, Tamako
Hanawa-Suetsugu, Kyoko
Behkam, Bahareh
Mimori-Kiyosue, Yuko
Gov, Nir Shachna
Suetsugu, Shiro
Nain, Amrinder Singh
Publication Year :
2023

Abstract

The cell migration cycle, well-established in 2D, proceeds with forming new protrusive structures at the cell membrane and subsequent redistribution of contractile machinery. Three-dimensional (3D) environments are complex and composed of 1D fibers, and 1D fibers are shown to recapitulate essential features of 3D migration. However, the establishment of protrusive activity at the cell membrane and contractility in 1D fibrous environments remains partially understood. Here the role of membrane curvature regulator IRSp53 is examined as a coupler between actin filaments and plasma membrane during cell migration on single, suspended 1D fibers. IRSp53 depletion reduced cell-length spanning actin stress fibers that originate from the cell periphery, protrusive activity, and contractility, leading to uncoupling of the nucleus from cellular movements. A theoretical model capable of predicting the observed transition of IRSp53-depleted cells from rapid stick-slip migration to smooth and slower migration due to reduced actin polymerization at the cell edges is developed, which is verified by direct measurements of retrograde actin flow using speckle microscopy. Overall, it is found that IRSp53 mediates actin recruitment at the cellular tips leading to the establishment of cell-length spanning fibers, thus demonstrating a unique role of IRSp53 in controlling cell migration in 3D.

Details

Database :
OAIster
Notes :
English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1397528699
Document Type :
Electronic Resource