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Biophysical interactions between components of the tumor microenvironment promote metastasis

Dimitra Vasilaki, Athina Bakopoulou, Alexandros Tsouknidas, Elaine Johnstone, Konstantinos Michalakis

2021Biophysical Reviews33 citationsDOIOpen Access PDF

Abstract

During metastasis, tumor cells need to adapt to their dynamic microenvironment and modify their mechanical properties in response to both chemical and mechanical stimulation. Physical interactions occur between cancer cells and the surrounding matrix including cell movements and cell shape alterations through the process of mechanotransduction. The latter describes the translation of external mechanical cues into intracellular biochemical signaling. Reorganization of both the cytoskeleton and the extracellular matrix (ECM) plays a critical role in these spreading steps. Migrating tumor cells show increased motility in order to cross the tumor microenvironment, migrate through ECM and reach the bloodstream to the metastatic site. There are specific factors affecting these processes, as well as the survival of circulating tumor cells (CTC) in the blood flow until they finally invade the secondary tissue to form metastasis. This review aims to study the mechanisms of metastasis from a biomechanical perspective and investigate cell migration, with a focus on the alterations in the cytoskeleton through this journey and the effect of biologic fluids on metastasis. Understanding of the biophysical mechanisms that promote tumor metastasis may contribute successful therapeutic approaches in the fight against cancer.

Topics & Concepts

MetastasisMechanotransductionExtracellular matrixTumor microenvironmentCell biologyCancer cellMotilityCytoskeletonBiologyCell migrationCellCancerChemistryCancer researchTumor cellsBiochemistryGeneticsCellular Mechanics and InteractionsCancer Cells and Metastasis3D Printing in Biomedical Research
Biophysical interactions between components of the tumor microenvironment promote metastasis | Litcius