Your search keyword '"Lai‐Kee‐Him, Joséphine"' showing total 2 results

1. Biological Fate of Fe3O4 Core-Shell Mesoporous Silica Nanoparticles Depending on Particle Surface Chemistry.

Author

Rascol, Estelle, Daurat, Morgane, Da Silva, Afitz, Maynadier, Marie, Dorandeu, Christophe, Charnay, Clarence, Garcia, Marcel, Lai-Kee-Him, Joséphine, Bron, Patrick, Auffan, Mélanie, Wei Liu, Angeletti, Bernard, Devoisselle, Jean-Marie, Guari, Yannick, Gary-Bobo, Magali, and Chopineau, Joël

Subjects

NANOPARTICLES, SURFACE coatings, CELL membranes, NANOMEDICINE, NANOBIOTECHNOLOGY

Abstract

The biological fate of nanoparticles (NPs) for biomedical applications is highly dependent of their size and charge, their aggregation state and their surface chemistry. The chemical composition of the NPs surface influences their stability in biological fluids, their interaction with proteins, and their attraction to the cell membranes. In this work, core-shell magnetic mesoporous silica nanoparticles (Fe3O4@MSN), that are considered as potential theranostic candidates, are coated with polyethylene glycol (PEG) or 1,2-dimyristoyl-sn-glycero-3-phosphocholine (DMPC) lipid bilayer. Their biological fate is studied in comparison to the native NPs. The physicochemical properties of these three types of NPs and their suspension behavior in different media are investigated. The attraction to a membrane model is also evaluated using a supported lipid bilayer. The surface composition of NPs strongly influences their dispersion in biological fluids mimics, protein binding and their interaction with cell membrane. While none of these types of NPs is found to be toxic on mice four days after intravenous injection of a dose of 40 mg kg-1 of NPs, their surface coating nature influences the in vivo biodistribution. Importantly, NP coated with DMPC exhibit a strong accumulation in liver and a very low accumulation in lung in comparison with nude or PEG ones. [ABSTRACT FROM AUTHOR]

Published

2017

2. The HslV Protease from Leishmania major and Its Activation by C-terminal HslU Peptides.

Author

Kebe, Ndeye Mathy, Samanta, Krishnananda, Singh, Priyanka, Lai-Kee-Him, Joséphine, Apicella, Viviana, Payrot, Nadine, Lauraire, Noémie, Legrand, Baptiste, Lisowski, Vincent, Mbang-Benet, Diane-Ethna, Pages, Michel, Bastien, Patrick, Kajava, Andrey V., Bron, Patrick, Hernandez, Jean-François, and Coux, Olivier

Subjects

PROTEOLYTIC enzymes, LEISHMANIA, PEPTIDES, EUKARYOTES, ELECTRON microscopy, C-terminal residues

Abstract

HslVU is an ATP-dependent proteolytic complex present in certain bacteria and in the mitochondrion of some primordial eukaryotes, including deadly parasites such as Leishmania. It is formed by the dodecameric protease HslV and the hexameric ATPase HslU, which binds via the C-terminal end of its subunits to HslV and activates it by a yet unclear allosteric mechanism. We undertook the characterization of HslV from Leishmania major (LmHslV), a trypanosomatid that expresses two isoforms for HslU, LmHslU1 and LmHslU2. Using a novel and sensitive peptide substrate, we found that LmHslV can be activated by peptides derived from the C-termini of both LmHslU1 and LmHslU2. Truncations, Ala- and D-scans of the C-terminal dodecapeptide of LmHslU2 (LmC12-U2) showed that five out of the six C-terminal residues of LmHslU2 are essential for binding to and activating HslV. Peptide cyclisation with a lactam bridge allowed shortening of the peptide without loss of potency. Finally, we found that dodecapeptides derived from HslU of other parasites and bacteria are able to activate LmHslV with similar or even higher efficiency. Importantly, using electron microscopy approaches, we observed that the activation of LmHslV was accompanied by a large conformational remodeling, which represents a yet unidentified layer of control of HslV activation. [ABSTRACT FROM AUTHOR]

Published

2019