Recalibrating Our Approach to the Management of Sepsis. How the Four Moments of Antibiotic Decision-Making Can Help

There is an urgent need to develop new therapeutic approaches for the treatment of severe neurological trauma, such as stroke and spinal cord injuries. However, many drugs with potential neuropharmacological activity, like adenosine, are inefficient upon systemic administration because of their fast metabolisation and rapid clearance from the bloodstream. Here, we show that the conjugation of adenosine to the lipid squalene and the subsequent formation of nanoassemblies allow a prolonged circulation of this nucleoside, to provide neuroprotection in mouse stroke and rat spinal cord injury models. The animals receiving systemic administration of squalenoyl adenosine nanoassemblies showed a significant improvement of their neurologic deficit score in the case of cerebral ischaemia, and an early motor recovery of the hindlimbs in the case of spinal cord injury. Moreover, in vitro and in vivo studies demonstrated that the nanoassemblies were able to extend adenosine circulation and its interaction with the neurovascular unit. This paper shows, for the first time, that a hydrophilic and rapidly metabolised molecule like adenosine may become pharmacologically efficient owing to a single conjugation with the lipid squalene.

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Self-Assembled Squalenoylated Penicillin Bioconjugates: An Original Approach for the Treatment of Intracellular Infections

Miramoth

et al. 2012

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We describe here new nanoparticles based on the bioconjugation of penicillin G to squalene in order to overcome severe intracellular infections by pathogen bacteria whose mechanism of resistance arises from the poor intracellular diffusion of several antibiotics. Two different squalene–penicillin G conjugates were synthesized (pH-sensitive and pH-insensitive), and their self-assembly as nanoparticles was investigated through morphology and stability studies. These nanoparticles had a size of 140 ± 10 nm (polydispersity index of 0.1) and a negative charge, and they did not display any supramolecular organization. Furthermore, they were found stable in water and in different culture medium. The cellular uptake and localization of these fluorescently labeled nanoparticles were explored on the macrophage cell line J774 by flow cytometry and confocal microscopy analysis. The squalenoylated nanoparticles were found to be cell internalized through clathrin-dependent and -independent endocytic pathways. Moreover, they induced an improved intracellular antibacterial activity on the facultative intracellular pathogen S. aureus, compared with free penicillin G, despite the absence of co-localization between the bacteria and the nanoparticles in the cells. This study suggests that the bioconjugation of an antibiotic to a squalene template could be a valuable approach for overcoming the antibiotic resistance due to intracellular bacterial infections.

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Peptide-functionalized nanoparticles for selective targeting of pancreatic tumor

Valetti¹,

Maione

Mura

et al. 2014

Journal of Controlled Release

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Chemotherapy for pancreatic cancer is hampered by the tumor physio-pathological complexity. Here we show a targeted nanomedicine using a new ligand, the CKAAKN peptide, which had been identified by phage display, as an efficient homing device within the pancreatic pathological microenvironment. Taking advantage of the squalenoylation platform, the CKAAKN peptide was conjugated to squalene (SQCKAAKN) and then co-nanoprecitated with the squalenoyl prodrug of gemcitabine (SQdFdC) giving near monodisperse nanoparticles (NPs) for safe intravenous injection. By interacting with a novel target pathway, the Wnt-2, the CKAAKN functionalization enabled nanoparticles: (i) to specifically interact with both tumor cells and angiogenic vessels and (ii) to simultaneously promote pericyte coverage, thus leading to the normalization of the vasculature likely improving the tumor accessibility for the therapy. All together, this approach represents a unique targeted nanoparticle design with remarkable selectivity towards pancreatic cancer and multiple mechanism of action. Graphical abstract

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Peptide Conjugation: Before or After Nanoparticle Formation?

et al. 2014

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We report herein a detailed study concerning the impact of different bioconjugation and nanoformulation strategies on the in vitro targeting ability of peptide-decorated squalenoyl gemcitabine (SQdFdC) nanoparticles (NPs). NPs have been functionalized with the CKAAKN peptide, previously identified as efficient homing device within the pancreatic pathological microenvironment. Two approaches have been followed: (i) either the CKAAKN peptide was directly conjugated at the surface of preformed SQdFdC nanoparticles (conjugation after NP formation) or (ii) it was first reacted with a maleimide squalenoyl derivative before the resulting bioconjugate was co-nanoprecipitated with SQdFdC to form the peptide-decorated NPs (conjugation before NP formation). NPs were characterized with respect to mean diameter, zeta potential and stability over time. Then, their specific interaction with the sFRP-4 protein was evaluated by surface plasmon resonance. Although both the synthetic strategies allowed to formulate NPs able to interact with the corresponding receptor, enhanced target binding and better specific avidity were observed with CKAAKN-NPs functionalized before NP formation.These NPs displayed the highest cell uptake and cytotoxicity in an in vitro model of human MIA Paca-2 pancreatic cancer cells.3

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Clofazimine Encapsulation in Nanoporous Silica Particles for the Oral Treatment of antibiotic-resistant Mycobacterium Tuberculosis Infections

Valetti

Xia

Costa-Gouveia

et al. 2017

Nanomedicine (Lond.)

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Rational design for multifunctional non-liposomal lipid-based nanocarriers for cancer management: theory to practice

et al. 2013

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Nanomedicines have gained more and more attention in cancer therapy thanks to their ability to enhance the tumour accumulation and the intracellular uptake of drugs while reducing their inactivation and toxicity. In parallel, nanocarriers have been successfully employed as diagnostic tools increasing imaging resolution holding great promises both in preclinical research and in clinical settings. Lipid-based nanocarriers are a class of biocompatible and biodegradable vehicles that provide advanced delivery of therapeutic and imaging agents, improving pharmacokinetic profile and safety. One of most promising engineering challenges is the design of innovative and versatile multifunctional targeted nanotechnologies for cancer treatment and diagnosis. This review aims to highlight rational approaches to design multifunctional non liposomal lipid-based nanocarriers providing an update of literature in this field.

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Fluorescence imaging of antibiotic clofazimine encapsulated within mesoporous silica particle carriers: relevance to drug delivery and the effect on its release kinetics

Angiolini

Valetti

Cohen

et al. 2018

Phys. Chem. Chem. Phys.

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We report on the encapsulation of the antibiotic clofazimine (CLZ) within the pores of mesoporous silica particles having hydrophilic (CBET value of 137) and more hydrophobic (CBET value of 94 after calcination at 600 °C) surfaces. We studied the effect of pH on the released amount of CLZ in aqueous solutions and observed a maximum at pH 4.1 in correlation with the solubility of the drug. Less release of the drug was observed from the more hydrophobic particles which was attributed to a difference in the affinity of the drug to the carrier particles. Fluorescence lifetime imaging microscopy, emission spectra, and fluorescence lifetimes of single drug loaded particles provided detailed understanding and new knowledge of the physical form of the encapsulated drug and the distribution within the particles. The distribution of CLZ within the particles was independent of the surface chemistry of the particles. The confirmation of CLZ molecules as monomers or aggregates was revealed by controlled removal of the drug with solvent. Additionally, the observed optical "halo effect" in the fluorescent images was interpreted in terms of specific quenching of high concentration of molecules. The emission lifetime experiments suggest stronger interaction of CLZ with the more hydrophobic particles, which is relevant to its release. The results reported in this work demonstrate that tuning the hydrophilicity/hydrophobicity of mesoporous silica particles can be used as a tool to control the release without impacting their loading ability.

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Synthesis and Cytotoxic Activity of Self‐Assembling Squalene Conjugates of 3‐[(Pyrrol‐2‐yl)methylidene]‐2,3‐dihydro‐1H‐indol‐2‐one Anticancer Agents

et al. 2014

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Squalenoyl conjugates of semaxanib and sunitinib, two potent antiangiogenic (pyrrolyl)methylidenyl‐substituted oxindole multitarget tyrosine kinase inhibitors, were synthesized with a hemiaminal‐based pH‐sensitive linker. The prodrugs were prepared according to a three‐step sequence involving (i) N‐alkylation with chloromethoxy‐triisopropylsilane; (ii) desilylation; and (iii) acylation with trisnorsqualenic acid. These squalenoyl prodrugs were found to self‐assemble into nanoassemblies in aqueous media without the need for any surfactant. The nanosized aggregates were characterized by dynamic light scattering and transmission electron microscopy, and appeared to be stable in water for several days, as determined by particle‐size measurement. In vitro biological studies showed that squalenoyl sunitinib nanoassemblies are notably cytotoxic against the human umbilical vein endothelial cell line (HUVEC), which is involved in the tumor vessel formation.

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Sabrina Valetti

Squalenoyl adenosine nanoparticles provide neuroprotection after stroke and spinal cord injury

Self-Assembled Squalenoylated Penicillin Bioconjugates: An Original Approach for the Treatment of Intracellular Infections

Peptide-functionalized nanoparticles for selective targeting of pancreatic tumor

Peptide Conjugation: Before or After Nanoparticle Formation?

Clofazimine Encapsulation in Nanoporous Silica Particles for the Oral Treatment of antibiotic-resistant Mycobacterium Tuberculosis Infections

Rational design for multifunctional non-liposomal lipid-based nanocarriers for cancer management: theory to practice

Fluorescence imaging of antibiotic clofazimine encapsulated within mesoporous silica particle carriers: relevance to drug delivery and the effect on its release kinetics

Synthesis and Cytotoxic Activity of Self‐Assembling Squalene Conjugates of 3‐[(Pyrrol‐2‐yl)methylidene]‐2,3‐dihydro‐1H‐indol‐2‐one Anticancer Agents

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