Glossary
Actomyosin
Contractile filamentous actin network inside the cell that helps provide shape,motility and force generation for a cell.The actomyosin cytoskeleton consists of filamentous actin, non-muscle myosin II motor proteins and regulatory actin-binding proteins.
Adhesion force
In biological terms, adhesion occurs directly between neighbouring cells via specialized proteins on the cell surface and indirectly via the extracellular matrix, both of which allow cells to communicate with one another and respond to their environment through processes such as signal transduction.In physics terms, adhesion is a type of attractive force that occurs between different objects through mechanical forces and electrostatic interactions.
Cellular tension
The surface force needed to stretch the cell, which is dependent on its plasma membrane lipid composition,extracellular glycocalyx and the contractile forces of the intracellular actin cytoskeleton, all of which must be overcome to deform the cell.
Cytoskeletons
Complex skeletal networks of proteins that provide structure to cells and play a major role in organization, motility and mechanotransduction. Several major components of this system include actin filaments, microtubules and intermediate filaments, which may be the stiffest structures in a cell.
Glycocalyx
An extra-membranous coating rich with glycans and various transmembrane proteins, which typically act as a barrier against the environment.
Intracellular forces
The different types of physical forces that exist within cells to maintain cellular homeostasis and cell-specific normalfunction. The major forces acting within a cell are tensional and compressive forces acting at the surface and cytoskeleton and traction forces at focal adhesions.
Mechanosensation
The ability of a cell to sense and respond to mechanical stimuli in its microenvironment, including different types of stresses, strains and forces.
Morphogenesis
The biological process that includes the development of cells, tissues or organs into a specified shape.This process is fundamental for developmental biology and tissue growth, both regulated and unregulated. Morphogenesis is also responsible for cellular differentiation.
Tumour microenvironment
A complex, highly heterogeneous space consisting of a mixture of cancer cells, extracellular matrix,cancer-associated fibroblasts, immune cells and lymphatic vessels.
Viscoelasticity
The mechanical behaviour of most soft ‘squishy’ materials exhibits both storage of elastic energy (solid behaviour) and dissipation of mechanical energy (fluid behaviour) when undergoing deformation. Viscoelasticity is a measurable retarded tendency of a material to return to its original shape after an applied force is removed.
Viscosity
The resistance of a liquid to flow, the deformation of which is dependent on energy being dissipated or lost by its internal friction, or force per unit area and time (Pa s). More viscous liquids have a higher internal friction.
Young’s modulus
A measure of tensile elasticity that indicates how much a material can deform for an applied force. It is defined as the ratio between stress, the force per unit area, and strain, extension per unit length(dimensionless). For soft materials such as living cells and tissues, it is applicable before the elastic region limit in which linearity breaks down and plastic deformation occurs. The higher the value is for Young’s modulus, thestiffer the material.
