Interplay of protein corona and immune cells controls blood residency of liposomes

Francesca Giulimondi(Italian Institute of Technology), Luca Digiacomo(Sapienza University of Rome), Daniela Pozzi(Sapienza University of Rome), Sara Palchetti(Sapienza University of Rome), Elisabetta Vulpis(Sapienza University of Rome), Anna Laura Capriotti(Sapienza University of Rome), Riccardo Zenezini Chiozzi(Sapienza University of Rome), Aldo Laganà(Sapienza University of Rome), Heinz Amenitsch(Graz University of Technology), Laura Masuelli(Sapienza University of Rome), Giovanna Peruzzi(Italian Institute of Technology), Morteza Mahmoudi(Michigan State University), Isabella Screpanti(Sapienza University of Rome), Alessandra Zingoni(Sapienza University of Rome), Giulio Caracciolo(Sapienza University of Rome)
Nature Communications
August 15, 2019
10.1038/s41467-019-11642-7
Cited by 244Open Access
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Abstract

In vivo liposomes, like other types of nanoparticles, acquire a totally new 'biological identity' due to the formation of a biomolecular coating known as the protein corona that depends on and modifies the liposomes' synthetic identity. The liposome-protein corona is a dynamic interface that regulates the interaction of liposomes with the physiological environment. Here we show that the biological identity of liposomes is clearly linked to their sequestration from peripheral blood mononuclear cells (PBMCs) of healthy donors that ultimately leads to removal from the bloodstream. Pre-coating liposomes with an artificial corona made of human plasma proteins drastically reduces capture by circulating leukocytes in whole blood and may be an effective strategy to enable prolonged circulation in vivo. We conclude with a critical assessment of the key concepts of liposome technology that need to be reviewed for its definitive clinical translation.

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