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The mechanopathology of the tumor microenvironment: detection techniques, molecular mechanisms and therapeutic opportunities

Stella Angeli, Constantina Neophytou, Maria Kalli, Triantafyllos Stylianopoulos, Fotios Mpekris

2025Frontiers in Cell and Developmental Biology16 citationsDOIOpen Access PDF

Abstract

The mechanical properties of the tumor microenvironment (TME) undergo significant changes during tumor growth, primarily driven by alterations in extracellular (ECM) stiffness and tumor viscoelasticity. These mechanical changes not only promote tumor progression but also hinder therapeutic efficacy by impairing drug delivery and activating mechanotransduction pathways that regulate crucial cellular processes such as migration, proliferation, and resistance to therapy. In this review, we examine the mechanisms through which tumor cells sense and transmit mechanical signals to maintain homeostasis in the biomechanically altered TME. We explore current computational modelling strategies for mechanotransduction pathways, highlighting the need for developing models that incorporate additional components of the mechanosignaling machinery. Furthermore, we review available methods for measuring the mechanical properties of tumors in clinical settings and strategies aiming at restoring the TME and blocking deregulated mechanotransduction pathways. Finally, we propose that proper characterization and a deeper understanding of the mechanical landscape of the TME, both at the tissue and cellular levels, are essential for developing therapeutic strategies that account for the influence of mechanical forces on treatment efficacy.

Topics & Concepts

MechanotransductionTumor microenvironmentExtracellular matrixMechanobiologyTumor progressionNeuroscienceBiologyCancer researchCell biologyTumor cellsCancerGeneticsCellular Mechanics and InteractionsErythrocyte Function and PathophysiologyMicrotubule and mitosis dynamics
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