Elastomeric Sensor Surfaces for High-throughput Single-cell Force Cytometry

Overview

Journal Nat Biomed Eng

Publisher Springer Nature

Specialty Biomedical Engineering

Date 2019 Apr 25

PMID 31015629

Citations 25

Authors

Ivan Pushkarsky

Peter Tseng

Dylan Black

Bryan France

Lyndon Warfe

Cynthia J Koziol-White

William F Jester Jr

Ryan K Trinh

Jonathan Lin

Philip O Scumpia

Sherie L Morrison

Reynold A Panettieri Jr

Robert Damoiseaux

Dino Di Carlo

Affiliations

Soon will be listed here.

Abstract

As cells with aberrant force-generating phenotypes can directly lead to disease, cellular force-generation mechanisms are high-value targets for new therapies. Here, we show that single-cell force sensors embedded in elastomers enable single-cell force measurements with ~100-fold improvement in throughput than was previously possible. The microtechnology is scalable and seamlessly integrates with the multi-well plate format, enabling highly parallelized time-course studies. In this regard, we show that airway smooth muscle cells isolated from fatally asthmatic patients have innately greater and faster force-generation capacity in response to stimulation than healthy control cells. By simultaneously tracing agonist-induced calcium flux and contractility in the same cell, we show that the calcium level is ultimately a poor quantitative predictor of cellular force generation. Finally, by quantifying phagocytic forces in thousands of individual human macrophages, we show that force initiation is a digital response (rather than a proportional one) to the proper immunogen. By combining mechanobiology at the single-cell level with high-throughput capabilities, this microtechnology can support drug-discovery efforts for clinical conditions associated with aberrant cellular force generation.

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