Novel Analytical Platform For Robust Identification of Cell Migration Inhibitors

Abstract: Wound healing assay is a simple and cost-effective in vitro assay for assessing therapeutic impacts on cell migration. its key limitation is the possible confoundment by other cellular phenotypes, causing misinterpretation of the experimental outcome. in this study, we attempted to address this problem by developing a simple analytical approach for scoring therapeutic influences on both cell migration and cell death, while normalizing the influence of cell growth using Mitomycin C pre-treatment. By carefully m… Show more

“…In the case of MRTF-A protein WHA is one of the most commonly used bioassays for evaluating the therapeutic impact on cell migration, mainly due to its simplicity in experimental setup and data processing. By scratching a cell monolayer to create a wound, one can consistently perform WHA across a large number of treatments [15].…”

“…The WHA, also known as the scratch assay, is an established two-dimensional (2D) technique that can be used to investigate collective migration and wound healing in vitro. This method was one of the first to be developed for the study of cell migration and measures the rate at which cells, in a cell monolayer, migrate to fill a cell-free gap [15]. It is a multistep procedure involving (1) growing a cell monolayer to confluence in a multiwell assay plate; (2) creating a "wound", a cell-free area in the monolayer, into which cells can subsequently migrate; (3) monitoring the recolonization of the cell-free gap to quantify cell motility.…”

Enriching the Arsenal of Pharmacological Tools against MICAL2

“…In the case of MRTF-A protein WHA is one of the most commonly used bioassays for evaluating the therapeutic impact on cell migration, mainly due to its simplicity in experimental setup and data processing. By scratching a cell monolayer to create a wound, one can consistently perform WHA across a large number of treatments [15].…”

“…The WHA, also known as the scratch assay, is an established two-dimensional (2D) technique that can be used to investigate collective migration and wound healing in vitro. This method was one of the first to be developed for the study of cell migration and measures the rate at which cells, in a cell monolayer, migrate to fill a cell-free gap [15]. It is a multistep procedure involving (1) growing a cell monolayer to confluence in a multiwell assay plate; (2) creating a "wound", a cell-free area in the monolayer, into which cells can subsequently migrate; (3) monitoring the recolonization of the cell-free gap to quantify cell motility.…”

Enriching the Arsenal of Pharmacological Tools against MICAL2

Cytotoxicity, crosslinking and biological activity of three mitomycins

EWI2 promotes endolysosome-mediated turnover of growth factor receptors and integrins to suppress lung cancer