Abstract

Interactions between living cells and nanoparticles have been extensively studied to enhance the delivery of therapeutics. Nanoparticles size, shape, stiffness and surface charge have been regarded as the main features able to control the fate of cell-nanoparticle interactions. However, the clinical translation of nanotherapies has so far been limited, and there is a need to better understand the biology of cell-nanoparticle interactions. This study investigated the role of cellular mechanosensitive components in cell-nanoparticle interactions. We demonstrate that the genetic and pharmacologic inhibition of yes-associated protein (YAP), a key component of cancer cell mechanosensing apparatus and Hippo pathway effector, improves nanoparticle internalization in triple-negative breast cancer cells regardless of nanoparticle properties or substrate characteristics. This process occurs through YAP-dependent regulation of endocytic pathways, cell mechanics, and membrane organization. Hence, we propose targeting YAP may sensitize triple negative breast cancer cells to chemotherapy and increase the selectivity of nanotherapy.

Competing Interest Statement

The authors have declared no competing interest.