Daniel Sánchez scite author profile

Do not touch! The surface of a living cell is soft and responsive and therefore high‐resolution imaging of the cell membrane has not been possible to date. Now noncontact imaging of protein complexes in the plasma membrane of living cells has been demonstrated (see picture) and has been used to follow the cells' structural reorganization. This breakthrough opens up a wealth of new experiments in membrane and cell biology.

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Noncontact Measurement of the Local Mechanical Properties of Living Cells Using Pressure Applied via a Pipette

Sánchez

Johnson

et al. 2008

Biophysical Journal

113

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Mechanosensitivity in living biological tissue is a study area of increasing importance, but investigative tools are often inadequate. We have developed a noncontact nanoscale method to apply quantified positive and negative force at defined positions to the soft responsive surface of living cells. The method uses applied hydrostatic pressure (0.1-150 kPa) through a pipette, while the pipette-sample separation is kept constant above the cell surface using ion conductance based distance feedback. This prevents any surface contact, or contamination of the pipette, allowing repeated measurements. We show that we can probe the local mechanical properties of living cells using increasing pressure, and hence measure the nanomechanical properties of the cell membrane and the underlying cytoskeleton in a variety of cells (erythrocytes, epithelium, cardiomyocytes and neurons). Because the cell surface can first be imaged without pressure, it is possible to relate the mechanical properties to the local cell topography. This method is well suited to probe the nanomechanical properties and mechanosensitivity of living cells.

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Ion Channels in Small Cells and Subcellular Structures Can Be Studied with a Smart Patch-Clamp System

Gorelik¹,

Gu²,

Spohr³

et al. 2002

Biophysical Journal

113

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We have developed a scanning patch-clamp technique that facilitates single-channel recording from small cells and submicron cellular structures that are inaccessible by conventional methods. The scanning patch-clamp technique combines scanning ion conductance microscopy and patch-clamp recording through a single glass nanopipette probe. In this method the nanopipette is first scanned over a cell surface, using current feedback, to obtain a high-resolution topographic image. This same pipette is then used to make the patch-clamp recording. Because image information is obtained via the patch electrode it can be used to position the pipette onto a cell with nanometer precision. The utility of this technique is demonstrated by obtaining ion channel recordings from the top of epithelial microvilli and openings of cardiomyocyte T-tubules. Furthermore, for the first time we have demonstrated that it is possible to record ion channels from very small cells, such as sperm cells, under physiological conditions as well as record from cellular microstructures such as submicron neuronal processes.

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The use of scanning ion conductance microscopy to image A6 cells

Gorelik

Zhang

Shevchuk

et al. 2004

Molecular and Cellular Endocrinology

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Daniel Sánchez

Imaging Proteins in Membranes of Living Cells by High‐Resolution Scanning Ion Conductance Microscopy

Noncontact Measurement of the Local Mechanical Properties of Living Cells Using Pressure Applied via a Pipette

Ion Channels in Small Cells and Subcellular Structures Can Be Studied with a Smart Patch-Clamp System

The use of scanning ion conductance microscopy to image A6 cells

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