An Experimental Model for Simultaneous Study of Migration of Cell Fragments, Single Cells, and Cell Sheets

Overview

Journal Methods Mol Biol

Specialty Molecular Biology

Date 2016 Jun 9

PMID 27271908

Citations 3

Authors

Yao-Hui Sun

Yuxin Sun

Kan Zhu

Bruce W Draper

Qunli Zeng

Alex Mogilner

Min Zhao

Affiliations

Soon will be listed here.

Abstract

Recent studies have demonstrated distinctive motility and responses to extracellular cues of cells in isolation, cells collectively in groups, and cell fragments. Here we provide a protocol for generating cell sheets, isolated cells, and cell fragments of keratocytes from zebrafish scales. The protocol starts with a comprehensive fish preparation, followed by critical steps for scale processing and subsequent cell sheet generation, single cell isolation, and cell fragment induction, which can be accomplished in just 3 days including a 36-48 h incubation time. Compared to other approaches that usually produce single cells only or together with either fragments or cell groups, this facile and reliable methodology allows generation of all three motile forms simultaneously. With the powerful genetics in zebrafish our model system offers a useful tool for comparison of the mechanisms by which cell sheets, single cells, and cell fragments respond to extracellular stimuli.

Citing Articles

Bioelectric Signaling: Role of Bioelectricity in Directional Cell Migration in Wound Healing.

Zhao M, Rolandi M, Isseroff R Cold Spring Harb Perspect Biol. 2022; 14(10).

PMID: 36041786 PMC: 9524286. DOI: 10.1101/cshperspect.a041236.

Effect of heterogeneous substrate adhesivity of follower cells on speed and tension profile of leader cells in primary keratocyte collective cell migration.

Chakraborty M, Mukherjee B, Nalinakshan N, Biswas A, Nayak R, Sinha B Biol Open. 2022; 11(3).

PMID: 35146504 PMC: 8918985. DOI: 10.1242/bio.058893.

Electric fields accelerate cell polarization and bypass myosin action in motility initiation.

Sun Y, Sun Y, Zhu K, Reid B, Gao X, Draper B J Cell Physiol. 2017; 233(3):2378-2385.

PMID: 28749047 PMC: 5705333. DOI: 10.1002/jcp.26109.

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