Successful entrapping of liposomes in glucan particles: An innovative micron-sized carrier to deliver water-soluble molecules

Francesca Garello; Rachele Stefania; Silvio Aime; Enzo Terreno; Daniela Delli Castelli

doi:10.1021/mp500374f

Successful entrapping of liposomes in glucan particles: An innovative micron-sized carrier to deliver water-soluble molecules

Francesca Garello
, Rachele Stefania
, Silvio Aime
, Enzo Terreno
, Daniela Delli Castelli

Research output: Contribution to journal › Article › peer-review

Abstract

Glucan particles (GPs) are monodisperse microspheres derived from bakers yeast and represent an interesting class of microcarriers for theranostic applications as they show a high affinity toward immune system cells. The typical loading strategy was to harness the ability of the molecule to be loaded to interact with nano-/microassembled systems through electrostatic or hydrophobic forces. However, small water-soluble chemicals could not be steadily retained by the leaky shell of GPs. In this work, we propose an alternative loading approach for small water-soluble compounds that is based on their entrapment in the aqueous core of liposomes that are directly formed into the microparticles through the reverse phase evaporation method (REV). The construct obtained may act as biocompatible carrier to deliver and release, even in a triggerable way, bioactive compounds.

Original language	English
Pages (from-to)	3760-3765
Number of pages	6
Journal	Molecular Pharmaceutics
Volume	11
Issue number	10
DOIs	https://doi.org/10.1021/mp500374f
Publication status	Published - 6 Oct 2014
Externally published	Yes

Keywords

REV liposomes
glucan particles
heat-mediated release
macrophage labeling
microcarrier

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10.1021/mp500374f

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title = "Successful entrapping of liposomes in glucan particles: An innovative micron-sized carrier to deliver water-soluble molecules",

abstract = "Glucan particles (GPs) are monodisperse microspheres derived from bakers yeast and represent an interesting class of microcarriers for theranostic applications as they show a high affinity toward immune system cells. The typical loading strategy was to harness the ability of the molecule to be loaded to interact with nano-/microassembled systems through electrostatic or hydrophobic forces. However, small water-soluble chemicals could not be steadily retained by the leaky shell of GPs. In this work, we propose an alternative loading approach for small water-soluble compounds that is based on their entrapment in the aqueous core of liposomes that are directly formed into the microparticles through the reverse phase evaporation method (REV). The construct obtained may act as biocompatible carrier to deliver and release, even in a triggerable way, bioactive compounds.",

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author = "Francesca Garello and Rachele Stefania and Silvio Aime and Enzo Terreno and \{Delli Castelli\}, Daniela",

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T1 - Successful entrapping of liposomes in glucan particles

T2 - An innovative micron-sized carrier to deliver water-soluble molecules

AU - Garello, Francesca

AU - Stefania, Rachele

AU - Aime, Silvio

AU - Terreno, Enzo

AU - Delli Castelli, Daniela

PY - 2014/10/6

Y1 - 2014/10/6

N2 - Glucan particles (GPs) are monodisperse microspheres derived from bakers yeast and represent an interesting class of microcarriers for theranostic applications as they show a high affinity toward immune system cells. The typical loading strategy was to harness the ability of the molecule to be loaded to interact with nano-/microassembled systems through electrostatic or hydrophobic forces. However, small water-soluble chemicals could not be steadily retained by the leaky shell of GPs. In this work, we propose an alternative loading approach for small water-soluble compounds that is based on their entrapment in the aqueous core of liposomes that are directly formed into the microparticles through the reverse phase evaporation method (REV). The construct obtained may act as biocompatible carrier to deliver and release, even in a triggerable way, bioactive compounds.

AB - Glucan particles (GPs) are monodisperse microspheres derived from bakers yeast and represent an interesting class of microcarriers for theranostic applications as they show a high affinity toward immune system cells. The typical loading strategy was to harness the ability of the molecule to be loaded to interact with nano-/microassembled systems through electrostatic or hydrophobic forces. However, small water-soluble chemicals could not be steadily retained by the leaky shell of GPs. In this work, we propose an alternative loading approach for small water-soluble compounds that is based on their entrapment in the aqueous core of liposomes that are directly formed into the microparticles through the reverse phase evaporation method (REV). The construct obtained may act as biocompatible carrier to deliver and release, even in a triggerable way, bioactive compounds.

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KW - heat-mediated release

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UR - https://www.scopus.com/pages/publications/84907985983

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DO - 10.1021/mp500374f

M3 - Article

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JO - Molecular Pharmaceutics

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ER -

Successful entrapping of liposomes in glucan particles: An innovative micron-sized carrier to deliver water-soluble molecules

Abstract

Keywords

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