High-Throughput Cellular Heterogeneity Analysis in Cell Migration at the Single-Cell Level

Overview

Journal Small

Date 2022 Nov 30

PMID 36449634

Authors

Mengli Zhou

Yushu Ma

Chun-Cheng Chiang

Edwin C Rock

Kathryn E Luker

Gary D Luker

Yu-Chih Chen

Affiliations

Soon will be listed here.

Abstract

Cancer cell migration represents an essential step toward metastasis and cancer deaths. However, conventional drug discovery focuses on cytotoxic and growth-inhibiting compounds rather than inhibitors of migration. Drug screening assays generally measure the average response of many cells, masking distinct cell populations that drive metastasis and resist treatments. Here, this work presents a high-throughput microfluidic cell migration platform that coordinates robotic liquid handling and computer vision for rapidly quantifying individual cellular motility. Using this innovative technology, 172 compounds were tested and a surprisingly low correlation between migration and growth inhibition was found. Notably, many compounds were found to inhibit migration of most cells while leaving fast-moving subpopulations unaffected. This work further pinpoints synergistic drug combinations, including Bortezomib and Danirixin, to stop fast-moving cells. To explain the observed cell behaviors, single-cell morphological and molecular analysis were performed. These studies establish a novel technology to identify promising migration inhibitors for cancer treatment and relevant applications.

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