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Electromechanics and Volume Dynamics in Nonexcitable Tissue Cells
Authors:Florence Yellin  Yizeng Li  Varun K.A. Sreenivasan  Brenda Farrell  Manu B. Johny  David Yue  Sean X. Sun
Affiliation:1. Department of Mechanical Engineering, Johns Hopkins University, Baltimore, Maryland;2. Single Molecule Science, University of New South Wales, New South Wales, Australia;3. Otolaryngology-Head and Neck Surgery, Baylor College of Medicine, Houston, Texas;4. Department of Biomedical Engineering, Johns Hopkins University, Baltimore, Maryland;5. Institute of NanoBioTechnology, Johns Hopkins University, Baltimore, Maryland;6. Johns Hopkins Physical Sciences-Oncology Center, Johns Hopkins University, Baltimore, Maryland
Abstract:Cell volume regulation is fundamentally important in phenomena such as cell growth, proliferation, tissue homeostasis, and embryogenesis. How the cell size is set, maintained, and changed over a cell’s lifetime is not well understood. In this work we focus on how the volume of nonexcitable tissue cells is coupled to the cell membrane electrical potential and the concentrations of membrane-permeable ions in the cell environment. Specifically, we demonstrate that a sudden cell depolarization using the whole-cell patch clamp results in a 50% increase in cell volume, whereas hyperpolarization results in a slight volume decrease. We find that cell volume can be partially controlled by changing the chloride or the sodium/potassium concentrations in the extracellular environment while maintaining a constant external osmotic pressure. Depletion of external chloride leads to a volume decrease in suspended HN31 cells. Introducing cells to a high-potassium solution causes volume increase up to 50%. Cell volume is also influenced by cortical tension: actin depolymerization leads to cell volume increase. We present an electrophysiology model of water dynamics driven by changes in membrane potential and the concentrations of permeable ions in the cells surrounding. The model quantitatively predicts that the cell volume is directly proportional to the intracellular protein content.
Keywords:Corresponding author
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