Membrane potential (V) measurements during mesenchymal stem cell (MSC) proliferation and osteogenic differentiation.

BACKGROUND

Electrochemical signals play an important role in cell communication and behavior. Electrically charged ions transported across cell membranes maintain an electrochemical imbalance that gives rise to bioelectric signaling, called membrane potential or V. V plays a key role in numerous inter- and intracellular functions that regulate cell behaviors like proliferation, differentiation and migration, all playing a critical role in embryonic development, healing, and regeneration.

METHODS

With the goal of analyzing the changes in V during cell proliferation and differentiation, here we used direct current electrical stimulation (EStim) to promote cell proliferation and differentiation and simultaneously tracked the corresponding changes in V in adipose derived mesenchymal stem cells (AT-MSC).

RESULTS

We found that EStim caused increased AT-MSC proliferation that corresponded to V depolarization and increased osteogenic differentiation that corresponded to V hyperpolarization. Taken together, this shows that V changes associated with EStim induced cell proliferation and differentiation can be accurately tracked during these important cell functions. Using this tool to monitor V changes associated with these important cell behaviors we hope to learn more about how these electrochemical cues regulate cell function with the ultimate goal of developing new EStim based treatments capable of controlling healing and regeneration.