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Direct measurement of vertical forces shows correlation between mechanical activity and proteolytic ability of invadopodia

Eleni Dalaka, Nils M. Kronenberg, Philipp Liehm, Jeffrey E. Segall, Michael B. Prystowsky, Malte C. Gather

2020Science Advances48 citationsDOIOpen Access PDF

Abstract

Mechanobiology plays a prominent role in cancer invasion and metastasis. The ability of a cancer to degrade extracellular matrix (ECM) is likely connected to its invasiveness. Many cancer cells form invadopodia-micrometer-sized cellular protrusions that promote invasion through matrix degradation (proteolysis). Although it has been hypothesized that invadopodia exert mechanical force that is implicated in cancer invasion, direct measurements remain elusive. Here, we use a recently developed interferometric force imaging technique that provides piconewton resolution to quantify invadopodial forces in cells of head and neck squamous carcinoma and to monitor their temporal dynamics. We compare the force exerted by individual protrusions to their ability to degrade ECM and investigate the mechanical effects of inhibiting invadopodia through overexpression of microRNA-375. By connecting the biophysical and biochemical characteristics of invadopodia, our study provides a new perspective on cancer invasion that, in the future, may help to identify biomechanical targets for cancer therapy.

Topics & Concepts

InvadopodiaProteolytic enzymesBiophysicsMaterials scienceChemistryBiologyBiochemistryGeneticsEnzymeCancerCancer cellCellular Mechanics and InteractionsTendon Structure and TreatmentConnective tissue disorders research
Direct measurement of vertical forces shows correlation between mechanical activity and proteolytic ability of invadopodia | Litcius