major hindrance to the use of chemotherapeutic agents for brain tumors.
Recently it has been showed by in vitro and in vivo studies that the adsorption of a poli poprotein E4 (ApoE4) on lipid nanoparticles (NPs) produces a protein corona that enhances the BBB-crossing, improving brain NP accumulation 3 -fold compared to undecorated particles [1-2]. Therefore, it is possible to increase the ability to cross the BBB for engineered NPs carrying a loose layer of proteins.
Nevertheless, the NP-protein corona composition --and, as a consequence, the
cellular biological response to the NP--
change over time as a consequence of the competition among the plasma proteins once th
e NP is in the blood stream, as we showed [3].
In collaboration with experimental groups, we develop a
multiscale approach for the study of bio-membranes, proteins, NPs and
nanomaterials in aqueous solution oriented to applications to the BBB crossing
for oncological treatments. We model the kinetics of NP interaction with proteins
[3-5], of proteins with water [6-10], and of water with membranes and nanomaterials [11-14], with the aim of finding how to optimize the NP-protein corona formation to cross the BBB.
Dettagli evento
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titolo
Colloquia Doctoralia
target
totem,dipartimento,ppim
inizio
Giovedì 02 Maggio 2019 ore 15:00
luogo
Aula F sede di via Pascoli
relatore
Prof. Giancarlo Franzese (Facultat de Fisica & Institute of Nanoscience and Nanotechnology (IN2UB), Universitat de Barcelona - SPAIN)
titoloevento
Multiscale Approach for Hydrated Systems: From Nanomaterials to Perspectives for Brain Cancer Treatments
abstract
The Blood-Brain-Barrier (BBB) is the tight membrane that protects our brain and represents the
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