MBFT XXIX. Kongresszus - 2023, Budapest .

Összes szerző

Santa-Maria Ana R.

az alábbi absztraktok szerzői között szerepel:

Kincses András Lab-on-a-chip device for the monitoring of surface charge properties of confluent cell monolayers

Aug 30 - szerda

11:30 – 11:45

Bioszenzorika és bio-nanotechnológia

E28

Lab-on-a-chip device for the monitoring of surface charge properties of confluent cell monolayers

András Kincses¹, Ana R. Santa-Maria^1,#, Fruzsina R. Walter^1,2, László Dér¹, Judit Vígh¹, Sándor Valkai¹, Mária A. Deli¹, András Dér¹

¹ Institute of Biophysics, Biological Research Centre, Szeged, Hungary

^2. Department of Cell Biology and Molecular Medicine, University of Szeged, Hungary

^# Current affiliation: Wyss Institute for Biologically Inspired Engineering at Harvard University, Boston, MA 02115, USA

Lab-on-a-chip devices emerged to play pivotal role in the in vitro modelling of biological barriers. The microfluidic channels combined with integrated electrodes provide controlled environment for the tightly interconnecting cell monolayers of intestinal, pulmonary and vascular models. The convenient and fast measurement of the trans-endothelial/epithelial resistance (TEER) and passive permeability provide important information about the integrity of the cell monolayer under healthy and pathological conditions.

We developed a versatile lab-on-a-chip device that can measure the TEER and the passive permeability and also enables the visual monitoring of the cell monolayer via phase contrast microscopy and immunohistochemistry [1]. The device was standardized under static and dynamic condition (without and with fluid flow, respectively) using epithelial and endothelial barrier models. We studied how the shear stress effects the blood-brain barrier properties and the glycocalyx [2]. The latter is especially important, since it contributes to the high negative surface charge of the luminal surface of the barrier forming cells. The negative surface charge plays crucial role in transport processes, infections and other pathologies, so it is very important to investigate the relationship between the surface charge and the overall barrier function. There are very few studies focusing on the surface charge and all of these measures the zeta potential of cell-suspensions. We upgraded our lab-on-a-chip device with a pair of Ag/AgCl electrodes to monitor the surface charge of confluent monolayers via the measurement of transient streaming potential signals [3].

Acknowledgment

OTKA PD-143268

References

[1] Walter FR, Valkai S, Kincses A, et al (2016) Sens. Actuators, B 222, 1209–1219.

[2] Santa-Maria AR, Walter FR, Figueiredo R, Kincses A, et al. (2021) J. Cereb. Blood Flow Metab. 41, 2201–2215.

[3] Kincses A, Santa-Maria AR, Walter FR, el al. (2020) Lab Chip, 20, 3792–3805.