Viscoelastic Properties of Confluent MDCK II Cells Obtained from Force Cycle Experiments
The local mechanical properties of cells are frequently probed by force indentation experiments carried out with an atomic force microscope. Application of common contact models provides a single parameter, the Young’s modulus, to describe the elastic properties of cells. The viscoelastic response o...
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| Published in | Biophysical journal Vol. 112; no. 4; pp. 724 - 735 |
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| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
Elsevier Inc
28.02.2017
Biophysical Society The Biophysical Society |
| Subjects | |
| Online Access | Get full text |
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| Abstract | The local mechanical properties of cells are frequently probed by force indentation experiments carried out with an atomic force microscope. Application of common contact models provides a single parameter, the Young’s modulus, to describe the elastic properties of cells. The viscoelastic response of cells, however, is generally measured in separate microrheological experiments that provide complex shear moduli as a function of time or frequency. Here, we present a straightforward way to obtain rheological properties of cells from regular force distance curves collected in typical force indentation measurements. The method allows us to record the stress-strain relationship as well as changes in the weak power law of the viscoelastic moduli. We derive an analytical function based on the elastic-viscoelastic correspondence principle applied to Hertzian contact mechanics to model both indentation and retraction curves. Rheological properties are described by standard viscoelastic models and the paradigmatic weak power law found to interpret the viscoelastic properties of living cells best. We compare our method with atomic force microscopy-based active oscillatory microrheology and show that the method to determine the power law coefficient is robust against drift and largely independent of the indentation depth and indenter geometry. Cells were subject to Cytochalasin D treatment to provoke a drastic change in the power law coefficient and to demonstrate the feasibility of the approach to capture rheological changes extremely fast and precisely. The method is easily adaptable to different indenter geometries and acquires viscoelastic data with high spatiotemporal resolution. |
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| AbstractList | The local mechanical properties of cells are frequently probed by force indentation experiments carried out with an atomic force microscope. Application of common contact models provides a single parameter, the Young's modulus, to describe the elastic properties of cells. The viscoelastic response of cells, however, is generally measured in separate microrheological experiments that provide complex shear moduli as a function of time or frequency. Here, we present a straightforward way to obtain rheological properties of cells from regular force distance curves collected in typical force indentation measurements. The method allows us to record the stress-strain relationship as well as changes in the weak power law of the viscoelastic moduli. We derive an analytical function based on the elastic-viscoelastic correspondence principle applied to Hertzian contact mechanics to model both indentation and retraction curves. Rheological properties are described by standard viscoelastic models and the paradigmatic weak power law found to interpret the viscoelastic properties of living cells best. We compare our method with atomic force microscopy-based active oscillatory microrheology and show that the method to determine the power law coefficient is robust against drift and largely independent of the indentation depth and indenter geometry. Cells were subject to Cytochalasin D treatment to provoke a drastic change in the power law coefficient and to demonstrate the feasibility of the approach to capture rheological changes extremely fast and precisely. The method is easily adaptable to different indenter geometries and acquires viscoelastic data with high spatiotemporal resolution. |
| Author | Janshoff, Andreas Nöding, Helen Brückner, Bastian Rouven |
| AuthorAffiliation | 1 Georg-August-Universität Göttingen, Institute of Physical Chemistry, Göttingen, Germany |
| AuthorAffiliation_xml | – name: 1 Georg-August-Universität Göttingen, Institute of Physical Chemistry, Göttingen, Germany |
| Author_xml | – sequence: 1 givenname: Bastian Rouven surname: Brückner fullname: Brückner, Bastian Rouven organization: Georg-August-Universität Göttingen, Institute of Physical Chemistry, Göttingen, Germany – sequence: 2 givenname: Helen surname: Nöding fullname: Nöding, Helen organization: Georg-August-Universität Göttingen, Institute of Physical Chemistry, Göttingen, Germany – sequence: 3 givenname: Andreas surname: Janshoff fullname: Janshoff, Andreas email: ajansho@gwdg.de organization: Georg-August-Universität Göttingen, Institute of Physical Chemistry, Göttingen, Germany |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/28256232$$D View this record in MEDLINE/PubMed |
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| SubjectTerms | Actins - metabolism Animals Biophysics Cell Biophysics Cells Cellular biology Cytochalasin D - metabolism Dogs Elastic properties Elasticity Experiments Madin Darby Canine Kidney Cells Microscopy Rheology Viscosity |
| Title | Viscoelastic Properties of Confluent MDCK II Cells Obtained from Force Cycle Experiments |
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