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search.filters.applied.f.access: openAccess × End date: 2019 × Start date: 2019 × Has files: Yes × Type: Text × Subject: Nanoparticles × WGL Institute: INM ×

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    The synergistic effect of chlorotoxin-mApoE in boosting drug-loaded liposomes across the BBB
    (London : BioMed Central, 2019) Formicola, Beatrice; Dal, Magro, Roberta; Montefusco-Pereira, Carlos V.; Lehr, Claus‑Michael; Koch, Marcus; Russo, Laura; Grasso, Gianvito; Deriu, Marco A.; Danani, Andrea; Bourdoulous, Sandrine; Re, Francesca
    We designed liposomes dually functionalized with ApoE-derived peptide (mApoE) and chlorotoxin (ClTx) to improve their blood-brain barrier (BBB) crossing. Our results demonstrated the synergistic activity of ClTx-mApoE in boosting doxorubicin-loaded liposomes across the BBB, keeping the anti-tumour activity of the drug loaded: mApoE acts promoting cellular uptake, while ClTx promotes exocytosis of liposomes. © 2019 The Author(s).
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    Kinetic and spectroscopic responses of pH-sensitive nanoparticles: Influence of the silica matrix
    (London : Royal Society of Chemistry, 2019) Clasen, A.; Wenderoth, S.; Tavernaro, I.; Fleddermann, J.; Kraegeloh, A.; Jung, G.
    Intracellular pH sensing with fluorescent nanoparticles is an emerging topic as pH plays several roles in physiology and pathologic processes. Here, nanoparticle-sized pH sensors (diameter far below 50 nm) for fluorescence imaging have been described. Consequently, a fluorescent derivative of pH-sensitive hydroxypyrene with pKa = 6.1 was synthesized and subsequently embedded in core and core-shell silica nanoparticles via a modified Stöber process. The detailed fluorescence spectroscopic characterization of the produced nanoparticles was carried out for retrieving information about the environment within the nanoparticle core. Several steady-state and time-resolved fluorescence spectroscopic methods hint to the screening of the probe molecule from the solvent, but it sustained interactions with hydrogen bonds similar to that of water. The incorporation of the indicator dye in the water-rich silica matrix neither changes the acidity constant nor dramatically slows down the protonation kinetics. However, cladding by another SiO2 shell leads to the partial substitution of water and decelerating the response of the probe molecule toward pH. The sensor is capable of monitoring pH changes in a physiological range by using ratiometric fluorescence excitation with λex = 405 nm and λex = 488 nm, as confirmed by the confocal fluorescence imaging of intracellular nanoparticle uptake.