Issue 95, 2014

Microfluidic chip for monitoring Ca2+ transport through a confluent layer of intestinal cells

Abstract

The absorption of dietary calcium through the intestinal barrier is essential for maintaining health in general and especially of the bone system. We propose a microfluidic model that studies free calcium (Ca2+) transport through a confluent monolayer of Caco-2 cells. The latter were cultured on a porous membrane that was positioned in between a top and bottom microfluidic chamber. Fresh cell culture medium was continuously supplied into the device at a flow rate of 5 nL s−1 and the culture progress of the cell monolayer was continuously monitored using integrated Transepithelial Electrical Resistance (TEER) electrodes. The electrical measurements showed that the Caco-2 monolayer formed a dense and tight barrier in 5 days. The transported free Ca2+ from the top microfluidic chamber to the basolateral side of the cell monolayer was measured using the calcium-sensitive dye fura-2. This is a ratiometric dye which exhibits an excitation spectrum shift from 340 nm to 380 nm, when it binds to Ca2+ with an emission peak at 510 nm. Therefore, the concentration of free Ca2+ is proportional to the ratio of fluorescence emissions obtained by exciting at 340 nm and 380 nm. The barrier function of the cell monolayer was evaluated by a measured rate of Ca2+ transport through the monolayer that was 5 times lower than that through the bare porous membrane. The continuous perfusion of cell nutrients and the resultant mechanical shear on the cell surface due to the fluid flow are two key factors that would narrow the gap between the in vivo and in vitro conditions. These conditions significantly enhance the Caco-2 cell culture model for studying nutrients bioavailability.

Graphical abstract: Microfluidic chip for monitoring Ca2+ transport through a confluent layer of intestinal cells

Supplementary files

Article information

Article type
Communication
Submitted
28 Aug 2014
Accepted
16 Oct 2014
First published
16 Oct 2014

RSC Adv., 2014,4, 52887-52891

Author version available

Microfluidic chip for monitoring Ca2+ transport through a confluent layer of intestinal cells

C. Huang, Q. Ramadan, J. B. Wacker, H. C. Tekin, C. Ruffert, G. Vergères, P. Silacci and M. A. M. Gijs, RSC Adv., 2014, 4, 52887 DOI: 10.1039/C4RA09370D

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