Various physiological and pathological processes, such as cell differentiation, migration, attachment, and metastasis are highly dependent on nuclear elasticity. Nuclear morphology directly reflects the elasticity of the nucleus. We propose that quantification of changes in nuclear morphology on surfaces with defined topography will enable us to assess nuclear elasticity and deformability. Here, we used soft lithography techniques to produce 3 dimensional (3-D) cell culture substrates decorated with micron sized pillar structures of variable aspect ratios and dimensions to induce changes in cellular and nuclear morphology. We developed a high content image analysis algorithm to quantify changes in nuclear morphology at the single-cell level...
Intervention aussi présentée par Karine Anselme à la Journée MEV de l’Institut Jean Lamour le 13 sep...
The nucleus is a membrane bound organelle and regulation center for gene expression in the cell. Mec...
The measurement of cellular mechanical properties can be impactful in many areas of biosciences due ...
Various physiological and pathological processes, such as cell differentiation, migration, attachmen...
Information about the mechanical properties of cancer cells leads to new insights about their malign...
Cell nuclei experience and respond to a wide range of forces, both in vivo and in vitro. In order to...
Cell-substrate interactions involve constant probing of microenvironment by cells. One of the respon...
The mechanical properties of living cells reflect their physiological and pathological state. In par...
Directional cell migration in dense three-dimensional (3D) environments critically depends upon shap...
Although nanotopography has been shown to be a potent modulator of cell behavior, it is unclear how ...
Mechanical stimuli and geometrical constraints transmitted across the cytoskeleton to the nucleus af...
Cells and tissues are constantly exposed to mechanical forces. Understanding how these forces act on...
The knowledge of how cells interact with and sense their surroundings is missing the key components ...
Mechanical cues have been recognized to be critically important in the regulation of cells. A myriad...
Mechanosensing of the mechanical microenvironment by cells regulates cell phenotype and function. Th...
Intervention aussi présentée par Karine Anselme à la Journée MEV de l’Institut Jean Lamour le 13 sep...
The nucleus is a membrane bound organelle and regulation center for gene expression in the cell. Mec...
The measurement of cellular mechanical properties can be impactful in many areas of biosciences due ...
Various physiological and pathological processes, such as cell differentiation, migration, attachmen...
Information about the mechanical properties of cancer cells leads to new insights about their malign...
Cell nuclei experience and respond to a wide range of forces, both in vivo and in vitro. In order to...
Cell-substrate interactions involve constant probing of microenvironment by cells. One of the respon...
The mechanical properties of living cells reflect their physiological and pathological state. In par...
Directional cell migration in dense three-dimensional (3D) environments critically depends upon shap...
Although nanotopography has been shown to be a potent modulator of cell behavior, it is unclear how ...
Mechanical stimuli and geometrical constraints transmitted across the cytoskeleton to the nucleus af...
Cells and tissues are constantly exposed to mechanical forces. Understanding how these forces act on...
The knowledge of how cells interact with and sense their surroundings is missing the key components ...
Mechanical cues have been recognized to be critically important in the regulation of cells. A myriad...
Mechanosensing of the mechanical microenvironment by cells regulates cell phenotype and function. Th...
Intervention aussi présentée par Karine Anselme à la Journée MEV de l’Institut Jean Lamour le 13 sep...
The nucleus is a membrane bound organelle and regulation center for gene expression in the cell. Mec...
The measurement of cellular mechanical properties can be impactful in many areas of biosciences due ...