Short-Time Alternating Current Electrical Stimulation and Cell Membrane-Related Components

Abstract

Electrical stimulation (ES) and its effects on biological systems is an area of research in regenerative medicine. The focus here is on the mechanism of action of ES on cell membrane-related components. A short alternating current (AC) stimulation (10 min) was applied on suspended human MG-63 osteoblasts via a commercially available multi-channel system (IonOptix). The pulsed ES with 1 V or 5 V and frequencies of 20 Hz on cells was performed immediately after cell seeding. The in vitro investigations were conducted by microscopy, flow cytometry, and particle analysis via a Litesizer within 24 h. The short-time ES with the parameter 1 V and 20 Hz was beneficial for the process of cell attachment, which could be related to an enhanced deposition of fibronectin on the glass bottom from the protein-containing medium (10% FBS). The MG-63 cells’ spherical coat hyaluronan remained constant and did not contribute to this AC-triggered adhesion. In this context, the cells’ zeta potential also did not play a role. The membrane potential analyzed via DiBAC4(3) was unchanged. Only the aquaporin channel AQP 8 in the cell membrane was significantly enhanced. Suspended cells in an AC electric field were activated during their settlement, and the fibronectin adsorption on the bottom contributed to this effect but not the membrane-related components.