Melissa Monteiro scite author profile

Cancer invasion through dense extracellular matrices (ECMs) is mediated by matrix metalloproteinases (MMPs) which degrade the ECM thereby creating paths for migration. However, how this degradation influences the phenotype of cancer cells is not fully clear. Here we address this question by probing the function of MMPs in regulating biophysical properties of cancer cells relevant to invasion. We show that MMP catalytic activity regulates cell spreading, motility, contractility and cortical stiffness by stabilizing integrins at the membrane and activating focal adhesion kinase. Interestingly, cell rounding and cell softening on stiff gels induced by MMP inhibition is attenuated on MMP pre-conditioned surfaces. Together, our results suggest that MMP catalytic activity regulates invasiveness of cancer cells by modulating integrins.

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Soft drug-resistant ovarian cancer cells migrate via two distinct mechanisms utilizing myosin II-based contractility

Kapoor

Barai

Thakur

et al. 2018

Biochimica et Biophysica Acta (BBA) - Molecular Cell Research

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The failure of chemotherapeutic drugs in treatment of various cancers is attributed to the acquisition of drug resistance. However, the migration mechanisms of drug-resistant cancer cells remain incompletely understood. Here we address this question from a biophysical perspective by mapping the phenotypic alterations in ovarian cancer cells (OCCs) resistant to cisplatin and paclitaxel. We show that cisplatin-resistant (CisR), paclitaxel-resistant (PacR) and dual drug-resistant (i.e., resistant to both drugs) OCCs are more contractile and softer than drug-sensitive cells. Protease inhibition suppresses invasion of CisR cells but not of PacR cells, indicative of a protease-dependent mode of migration in CisR cells and a protease-independent mode of migration in PacR. Despite these differences, actomyosin contractility, mediated by the RhoA-ROCK2-Myosin II signaling pathway, regulates both modes of migration. Confined migration experiments establish the role of myosin IIA and IIB in mediating nuclear translocation and regulation of proteolytic activity. Collectively, our results highlight the importance of myosin II as a potential therapeutic target for treatment of drug-resistant ovarian cancer cells.

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Nuclear softening is essential for protease-independent migration

et al. 2019

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Soft drug-resistant ovarian cancer cells invade via two distinct mechanisms utilizing myosin IIB

Kapoor

Thakur

Monteiro

et al. 2017

Preprint

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The failure of chemotherapeutic drugs in treatment of various cancers is attributed to the acquisition of drug resistance. However, the invasion mechanisms of drug-resistant cancer cells remains incompletely understood. Here we address this question from a biophysical perspective by mapping the phenotypic alterations in ovarian cancer cells (OCCs) resistant to cisplatin and paclitaxel. We show that cisplatin-resistant (CisR), paclitaxel-resistant (PacR) and dual drug-resistant (i.e., resistant to both drugs) OCCs are softer and more contractile than drug-sensitive cells. Protease inhibition suppresses invasion of CisR cells but not of PacR and dual cells, suggesting protease-dependent mode of invasion in CisR cells and protease-independent mode in PacR and dual cells. Despite these differences, actomyosin contractility, mediated by the RhoA-ROCK2-Myosin IIB signaling pathway regulates both modes of invasion.Myosin IIB modulates matrix metalloproteinase-9 (MMP-9) secretion in CisR cells and nuclear squeezing in PacR and dual cells, thereby highlighting its importance as a potential therapeutic target for treatment of drug-resistant ovarian cancer cells.

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