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Extracellular vesicles from a natural source for tailor-made nanomaterials

Objectif

Extracellular vesicles (EVs) are cell-derived, membranous particles that mediate intercellular communication by transferring biomolecules such as proteins and RNAs. The discovery of EVs as natural biocarriers and inter-species communication means has raised great interest in the drug delivery field. EVs intrinsically possess many attributes of a drug delivery vehicle, since these particles i) are well tolerated in the body, ii) have long circulating half-life, iii) are internalised by recipient cells and iv) are able of crossing the blood brain barrier. Native and drug-loaded mammalian cell-derived EVs have recently been developed and are contributing to the expanding research field known as “cell-free therapy”. Despite these promising progresses, translational applications are currently hampered by the lack of suitable processes for the isolation, characterisation and functionalisation of EVs. The aim of Ves4US is to develop a radically new platform for the efficient production and functionalisation of EVs, which will enable for their exploitation as tailor-made products in the fields of nanomedicine, cosmetics and nutraceutics. A core aspect of the project is to focus vesicles from an identified natural source, which could constitute a more economically viable and sustainable source of EVs. This will allow the development of natural nanocarriers with unprecedented abilities for drug delivery in specific tissues such as brain, lung, skin, dendritic or tumor cells. Ves4US is endorsed by prominent industrial stakeholders with strong interests in market-oriented innovation.
The actively emerging field of EV-based research and industrial/clinical translation will significantly profit from the proposed VES4US innovation of focusing on natural nanovesicles; the new knowledge created will influence the biomedical landscape of the future both within and outside the European Union.
The actively emerging field of EV-based research and industrial/clinical translation will significantly profit from the proposed VES4US innovation of focusing on natural source derived nanovesicles; the new knowledge created will influence the biomedical landscape of the future both within and outside the European Union.

Appel à propositions

H2020-FETOPEN-2016-2017

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Sous appel

H2020-FETOPEN-1-2016-2017

Coordinateur

CONSIGLIO NAZIONALE DELLE RICERCHE
Contribution nette de l'UE
€ 1 181 412,50
Adresse
PIAZZALE ALDO MORO 7
00185 Roma
Italie

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Région
Centro (IT) Lazio Roma
Type d’activité
Research Organisations
Liens
Coût total
€ 1 181 412,50

Participants (5)