Abstract
It is important to clarify the transport of biomolecules and chemicals to tissues. Herein, we present an electrochemical imaging method for evaluating the endothelial permeability. In this method, the diffusion of electrochemical tracers, [Fe(CN)6]4–, through a monolayer of human umbilical vein endothelial cells (HUVECs) was monitored using a large-scale integration-based device containing 400 electrodes. In conventional tracer-based assays, tracers that diffuse through an HUVEC monolayer into another channel are detected. In contrast, the present method does not employ separated channels. In detail, a HUVEC monolayer is immersed in a solution containing [Fe(CN)6]4– on the device. As [Fe(CN)6]4– is oxidized and consumed at the packed electrodes, [Fe(CN)6]4– begins to diffuse through the monolayer from the bulk solution to the electrodes and the obtained currents depend on the endothelial permeability. As a proof-of-concept, the effects of histamine on the monolayer were monitored. Also, an HUVEC monolayer was cocultured with cancer spheroids, and the endothelial permeability was monitored to evaluate the metastasis of the cancer spheroids. Unlike conventional methods, the device can provide spatial information, allowing the interaction between the monolayer and the spheroids to be monitored. The developed method is a promising tool for organs-on-a-chip and drug screening in vitro.
Highlights
Endothelial and epithelial cell barriers play critical roles in regulating the transport of biomolecules and chemicals to tissues
transepithelial/endothelial electrical resistance (TEER) measurements have been applied for organs-on-a-chip with integrated electrodes[8] and a blood− brain barrier model consisting of astrocytes and a microvascular endothelial cell monolayer.[9]
As metastatic cancers invade human umbilical vein endothelial cells (HUVECs) monolayers, the proposed strategy was applied to visualize the changes in the endothelial permeability of a coculture model consisting of an HUVEC monolayer and cancer spheroids (HepG2, MCF-7, and MDA-MB-231)
Summary
Endothelial and epithelial cell barriers play critical roles in regulating the transport of biomolecules and chemicals to tissues. Vascular endothelial (VE) cell barriers are important because blood vessels are utilized to transport nutrients and drugs. As endogenous mediators such as histamine increase the endothelial permeability, the mechanism by which such molecules affect cell barriers has been investigated.[1] In addition, interactions between cell barriers and cancers play a crucial role in metastasis. As a cell barrier model, the transwell system is widely used In this model, a cell monolayer is prepared on a porous membrane. TEER measurements have been applied for organs-on-a-chip with integrated electrodes[8] and a blood− brain barrier model consisting of astrocytes and a microvascular endothelial cell monolayer.[9]
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