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Immature and mature bone marrow-derived dendritic cells exhibit distinct intracellular mechanical properties

Antoine Leblanc-Hotte, Cindy Audiger, Geneviève Chabot‐Roy, Félix Lombard‐Vadnais, Jean‐Sébastien Delisle, Yves-Alain Peter, Sylvie Lesage

2023Scientific Reports20 citationsDOIOpen Access PDF

Abstract

Dendritic cells (DCs) patrol the organism at an immature stage to detect the presence of pathogens. Once activated, these mature DCs reach the lymph nodes to activate antigen-specific T lymphocytes and thus initiate an adaptative immune response to control the pathogen. The migration of both immature and mature DCs is a key process for their optimal function. DC migration requires transit through narrow constrictions that is allowed by their high local and global deformation capabilities. In addition to cytoplasmic changes, the nucleus mechanical properties also have a major impact for cellular migration and motility. Yet, nucleus intracellular mobility of dendritic cells or its variation upon maturation have not been investigated. Our study defines the biophysical phenotypic variations of dendritic cells upon maturation using interferometric deformability cytometry. This method characterizes different cellular mechanical properties, such as elongation and nucleus offset, by assessing the refractive index spatial distribution of shear-induced deformed cells. By using these parameters, our data suggest that in vitro bone marrow derived dendritic cell (BMDC) maturation induces cell stiffening and reduces nucleus mobility, allowing to distinguish immature and mature dendritic cells. Overall, our method provides insights on intracellular mechanical properties of two dendritic cell states.

Topics & Concepts

Cell biologyDendritic cellNucleusIntracellularFollicular dendritic cellsCytoplasmBiologyImmune systemChemistryAntigen-presenting cellImmunologyT cellImmunotherapy and Immune ResponsesCellular Mechanics and InteractionsT-cell and B-cell Immunology
Immature and mature bone marrow-derived dendritic cells exhibit distinct intracellular mechanical properties | Litcius