Author:
Dawson Jonathan Edward,Sellmann Tina,Porath Katrin,Bader Rainer,van Rienen Ursula,Appali Revathi,Köhling Rüdiger
Abstract
Under both physiological (development, regeneration) and pathological conditions (cancer metastasis), cells migrate while sensing environmental cues in the form of mechanical, chemical or electrical stimuli. In the case of bone tissue, osteoblast migration is essential in bone regeneration. Although it is known that osteoblasts respond to exogenous electric fields, the underlying mechanism of electrotactic collective movement of human osteoblasts is unclear. Here, we present a computational model that describes the osteoblast cell migration in a direct current electric field as the motion of a collection of active self-propelled particles and takes into account fluctuations in the direction of single-cell migration, finite-range cell-cell interactions, and the interaction of a cell with the external electric field. By comparing this model with in vitro experiments in which human primary osteoblasts are exposed to a direct current electric field of different field strengths, we show that cell-cell interactions and fluctuations in the migration direction promote anode-directed collective migration of osteoblasts.
Funder
Deutsche Forschungsgemeinschaft
Subject
Biomedical Engineering,Histology,Bioengineering,Biotechnology
Cited by
5 articles.
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