Mechanical Control of Cell Proliferation Increases Resistance to Chemotherapeutic Agents

While many cellular mechanisms leading to chemotherapeutic resistance have been identified, there is an increasing realization that tumor-stroma interactions also play an important role. In particular, mechanical alterations are inherent to solid cancer progression and profoundly impact cell physiology. Here, we explore the influence of compressive stress on the efficacy of chemotherapeutics in pancreatic cancer spheroids. We find that increased compressive stress leads to decreased drug efficacy. Theoretical modeling and experiments suggest that mechanical stress decreases cell proliferation which in turn reduces the efficacy of chemotherapeutics that target proliferating cells. Our work highlights a mechanical form of drug resistance and suggests new strategies for therapy.

Domaines

Biophysique [physics.bio-ph] Cancer Biotechnologies

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Rizzuti-v6.pdf (2.98 Mo)

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https://hal.science/hal-02943906

Soumis le : lundi 21 septembre 2020-08:20:16

Dernière modification le : mercredi 13 mars 2024-09:40:09

Archivage à long terme le : vendredi 4 décembre 2020-17:53:25

Dates et versions

hal-02943906 , version 1 (21-09-2020)

Identifiants

HAL Id : hal-02943906 , version 1
DOI : 10.1103/PhysRevLett.125.128103

Citer

Ilaria Francesca Rizzuti, Pietro Mascheroni, Silvia Arcucci, Zacchari Ben-Mériem, Audrey Prunet, et al.. Mechanical Control of Cell Proliferation Increases Resistance to Chemotherapeutic Agents. Physical Review Letters, 2020, 125 (12), pp.128103. ⟨10.1103/PhysRevLett.125.128103⟩. ⟨hal-02943906⟩

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