Micromotion of mammalian cells measured electrically.
Ivar Giaever,Charles R. Keese +1 more
TLDR
This paper examines a powerful electrical technique by which cell motion is quantitatively measured at the nanometer level and it is clear that under these circumstances the average motions of the cell layer of 1 nm can be inferred from the measurements.Abstract:Â
Motility is a fundamental property of mammalian cells that normally is observed in tissue culture by time lapse microscopy where resolution is limited by the wavelength of light. This paper examines a powerful electrical technique by which cell motion is quantitatively measured at the nanometer level. In this method, the cells are cultured on small evaporated gold electrodes carrying weak ac currents. A large change in the measured electrical impedance of the electrodes is observed when cells attach and spread on these electrodes. When the impedance is tracked as a function of time, fluctuations are observed that are a direct measure of cell motion. Surprisingly, these fluctuations continue even when the cell layer becomes confluent. By comparing the measured impedance with a theoretical model, it is clear that under these circumstances the average motions of the cell layer of 1 nm can be inferred from the measurements. We refer to this aspect of cell motility as micromotion.read more
Citations
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Electric cell-substrate impedance sensing (ECIS) as a noninvasive means to monitor the kinetics of cell spreading to artificial surfaces.
TL;DR: It is demonstrated that high-frequency capacitance measurements are most suited to follow the increasing surface coverage of the electrode due to cell spreading, and the excellent time resolution of the ECIS technique allowed an in-depth analysis of cell spreading kinetics under various experimental conditions.
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A morphological biosensor for mammalian cells
Ivar Giaever,Charles R. Keese +1 more
TL;DR: An electrical biosensor is described that can continuously track morphological changes of adherent cells providing quantitative data from both sparse and confluent cultures, much below the resolution of an optical microscope.
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Electrical method for detection of endothelial cell shape change in real time: assessment of endothelial barrier function.
TL;DR: An electrical method to study endothelial cell shape changes in real time in order to examine the mechanisms of alterations in the endothelial barrier function and provide insights into the signal-transduction events mediating the increased endothelial permeability is developed.
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Electrical wound-healing assay for cells in vitro
TL;DR: In this approach, cells growing on small electrodes and monitored by using electric cell-substrate impedance sensing are subjected to currents, resulting in severe electroporation and subsequent cell death.
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Development and application of cell-based biosensors.
TL;DR: Network of excitable cells cultured on microelectrode arrays are uniquely poised to provide rapid, functional classification of an analyte and ultimately constitute a potentially effective cell-based biosensor technology.
References
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Journal ArticleDOI
Monitoring fibroblast behavior in tissue culture with an applied electric field
Ivar Giaever,Charles R. Keese +1 more
TL;DR: Mammalian fibroblasts have been cultured on evaporated gold electrodes subjected to an alternating electric field at 4000 Hz and the amplitude of these fluctuations is greatly reduced by cytochalasin B (10 microM), suggesting they are a consequence of cell movement.
Journal ArticleDOI
Formation of cell-to-substrate contacts during fibroblast motility: an interference-reflexion study
C.S. Izzard,L.R. Lochner +1 more
TL;DR: It is proposed that the close contact provides the adhesion required to transmit to the substrate the forces involved in the forward movements of the marginal cytoplasm, and is thus independent of existing focal contacts and associated stress fibres.
Journal ArticleDOI
Use of Electric Fields to Monitor the Dynamical Aspect of Cell Behavior in Tissue Culture
Ivar Giaever,Charles R. Keese +1 more
TL;DR: A method is described here that allows observation of the dynamical aspects of cultured cells and their presence and their motion are directly reflected in the measured impedance.
Journal ArticleDOI
Vesicular stomatitis virus infects and matures only through the basolateral surface of the polarized epithelial cell line, MDCK
TL;DR: The strong preference of VSV for basolateral maturation is paralleled by an equally strong preference for infection through the basol lateral membrane of this polar epithelial cell.
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Fourier analysis of cell motility: correlation of motility with metastatic potential.
TL;DR: It is demonstrated that Fourier analysis provides quantitative measurement of cell motility that may be applied to the study of biological processes.
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