Detailed Information on Publication Record
2024
YAP Signaling Regulates the Cellular Uptake and Therapeutic Effect of Nanoparticles
CASSANI, Marco, Soraia FERNANDES, Jorge Oliver-De La CRUZ, Helena DURIKOVA, Jan VRBSKY et. al.Basic information
Original name
YAP Signaling Regulates the Cellular Uptake and Therapeutic Effect of Nanoparticles
Authors
CASSANI, Marco, Soraia FERNANDES, Jorge Oliver-De La CRUZ, Helena DURIKOVA, Jan VRBSKY, Marek PATOČKA, Veronika HEGROVA, Šimon KLIMOVIČ (203 Czech Republic, belonging to the institution), Jan PŘIBYL (203 Czech Republic, belonging to the institution), Doriana DEBELLIS, Petr SKLÁDAL (203 Czech Republic, belonging to the institution), Francesca CAVALIERI, Frank CARUSO and Giancarlo FORTE (guarantor)
Edition
Advanced Science, Wiley-VCH GmbH, 2024, 2198-3844
Other information
Language
English
Type of outcome
Článek v odborném periodiku
Field of Study
21000 2.10 Nano-technology
Country of publisher
Germany
Confidentiality degree
není předmětem státního či obchodního tajemství
References:
Impact factor
Impact factor: 15.100 in 2022
Organization unit
Central European Institute of Technology
UT WoS
001121056800001
Keywords in English
cell-nanoparticle interactions; nanotherapies; yes-associated protein; breast cancer
Tags
International impact, Reviewed
Změněno: 2/11/2024 15:28, Mgr. Adéla Pešková
Abstract
V originále
Interactions between living cells and nanoparticles are extensively studied to enhance the delivery of therapeutics. Nanoparticles size, shape, stiffness, and surface charge are 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 investigates the role of cellular mechanosensitive components in cell-nanoparticle interactions. It is demonstrated 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, the study proposes targeting YAP may sensitize triple-negative breast cancer cells to chemotherapy and increase the selectivity of nanotherapy.
Links
EF18_046/0015974, research and development project |
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LM2023042, research and development project |
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90132, large research infrastructures |
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