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Your search keyword '"Marcelo, Gema"' showing total 6 results
Start Over Author "Marcelo, Gema" Publisher wiley-blackwell
6 results on '"Marcelo, Gema"'

1. Enhanced Gene Delivery Triggered by Dual pH/Redox Responsive Host‐Guest Dimerization of Cyclooligosaccharide Star Polycations.

Author

Carbajo‐Gordillo, Ana I., López‐Fernández, José, Benito, Juan M., Jiménez Blanco, José L., Santana‐Armas, María L., Marcelo, Gema, Di Giorgio, Christophe, Przybylski, Cédric, Ortiz Mellet, Carmen, Tros de Ilarduya, Conchita, Mendicuti, Francisco, and García Fernández, José M.

Subjects
DIMERIZATION, OXIDATION-reduction reaction, HOST-guest chemistry, PROTON transfer reactions, GENES, NANOGELS, OLIGOSACCHARIDES, TREHALOSE
Abstract

A robust strategy is reported to build perfectly monodisperse star polycations combining a trehalose‐based cyclooligosaccharide (cyclotrehalan, CT) central core onto which oligoethyleneimine radial arms are installed. The architectural perfection of the compounds is demonstrated by a variety of physicochemical techniques, including NMR, MS, DLS, TEM, and GPC. Key to the strategy is the possibility of customizing the cavity size of the macrocyclic platform to enable/prevent the inclusion of adamantane motifs. These properties can be taken into advantage to implement sequential levels of stimuli responsiveness by combining computational design, precision chemistry and programmed host‐guest interactions. Specifically, it is shown that supramolecular dimers implying a trimeric CT‐tetraethyleneimine star polycation and purposely designed bis‐adamantane guests are preorganized to efficiently complex plasmid DNA (pDNA) into transfection‐competent nanocomplexes. The stability of the dimer species is responsive to the protonation state of the cationic clusters, resulting in dissociation at acidic pH. This process facilitates endosomal escape, but reassembling can take place in the cytosol then handicapping pDNA nuclear import. By equipping the ditopic guest with a redox‐sensitive disulfide group, recapturing phenomena are prevented, resulting in drastically improved transfection efficiencies both in vivo and in vitro. [ABSTRACT FROM AUTHOR]

Published
2022
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2. Tuning the Topological Landscape of DNA–Cyclodextrin Nanocomplexes by Molecular Design.

Author

Neva, Tania, Carbajo‐Gordillo, Ana I., Benito, Juan M., Lana, Hugo, Marcelo, Gema, Ortiz Mellet, Carmen, Tros de Ilarduya, Conchita, Mendicuti, Francisco, and García Fernández, José M.

Subjects
PROTON transfer reactions, SURFACE properties, MONOSACCHARIDES, DIMERS, DNA, GENE transfection, SHAPE memory polymers
Abstract

Original molecular vectors that ensure broad flexibility to tune the shape and surface properties of plasmid DNA (pDNA) condensates are reported herein. The prototypic design involves a cyclodextrin (CD) platform bearing a polycationic cluster at the primary face and a doubly linked aromatic module bridging two consecutive monosaccharide units at the secondary face that behaves as a topology‐encoding element. Subtle differences at the molecular level then translate into disparate morphologies at the nanoscale, including rods, worms, toroids, globules, ellipsoids, and spheroids. In vitro evaluation of the transfection capabilities revealed marked selectivity differences as a function of nanocomplex morphology. Remarkably high transfection efficiencies were associated with ellipsoidal or spherical shapes with a lamellar internal arrangement of pDNA chains and CD bilayers. Computational studies support that the stability of such supramolecular edifices is directly related to the tendency of the molecular vector to form noncovalent dimers upon DNA templating. Because the stability of the dimers depends on the protonation state of the polycationic clusters, the coaggregates display pH responsiveness, which facilitates endosomal escape and timely DNA release, a key step in successful transfection. The results provide a versatile strategy for the construction of fully synthetic and perfectly monodisperse nonviral gene delivery systems uniquely suited for optimization schemes. [ABSTRACT FROM AUTHOR]

Published
2020
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4. Host-Guest-Mediated DNA Templation of Polycationic Supramolecules for Hierarchical Nanocondensation and the Delivery of Gene Material.

Author

Gallego ‐ Yerga, Laura, Blanco ‐ Fernández, Laura, Urbiola, Koldo, Carmona, Thais, Marcelo, Gema, Benito, Juan M., Mendicuti, Francisco, Tros de Ilarduya, Conchita, Ortiz Mellet, Carmen, and García Fernández, José M.

Subjects
SUPRAMOLECULES, NUCLEIC acids, DIMERS, OLIGONUCLEOTIDES, ELECTROPHORESIS
Abstract

Only a few examples of monodisperse molecular entities that can compact exogenous nucleic acids into nanocomplexes, protect the cargo from the biological environment, facilitate cell internalization, and promote safe transfection have been reported up to date. Although these species open new venues for fundamental studies on the structural requirements that govern the intervening processes and their application in nonviral gene-vector design, the synthesis of these moieties generally requires a relatively sophisticated chemistry, which hampers further development in gene therapy. Herein, we report an original strategy for the reversible complexation and delivery of DNA based on the supramolecular preorganization of a β-cyclodextrin-scaffolded polycationic cluster facilitated by bisadamantane guests. The resulting gemini-type, dual-cluster supramolecules can then undergo DNA-templated self-assembly at neutral pH value by bridging parallel DNA oligonucleotide fragments. This hierarchical DNA condensation mechanism affords transfectious nanoparticles with buffering capabilities, thus facilitating endosomal escape following cell internalization. Protonation also destabilizes the supramolecular dimers and consequently the whole supramolecular edifice, thus assisting DNA release. Our advanced hypotheses are supported by isothermal titration calorimetry, NMR and circular dichroism spectroscopic analysis, gel electrophoresis, dynamic light scattering, TEM, molecular mechanics, molecular dynamics, and transfection studies conducted in vitro and in vivo. [ABSTRACT FROM AUTHOR]

Published
2015
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5. Preparation of glycopolymer-coated magnetite nanoparticles for hyperthermia treatment.

Author

Muñoz-Bonilla, Alexandra, Marcelo, Gema, Casado, Cintia, Teran, Francisco J., and Fernández-García, Marta

Abstract

In this article, magnetite nanoparticles (MNPs) coated with glycopolymer bearing glucose moieties were designed with optimal structural, colloidal, and magnetic properties for biomedical applications. MNPs with an average size of 17 ± 2 nm were synthesized by thermal decomposition process and then their surfaces were modified with active vinyl groups. Two different monomers were immobilized onto the surfaces: dopamine methacrylamide, a monomer with properties inspired on mussels adhesive capacity, or unprotected glycomonomer, 2-{[( D-glucosamin-2 N-yl)carbonyl]-oxy}ethyl methacrylate. Afterward, the glycomonomer were polymerized at the interface of both vinyl functionalized MNPs by conventional radical polymerization. The resultant hybrid NPs were water dispersible presenting good stability in aqueous solution for long time periods. Moreover, the high density of carbohydrates at the surface of the magnetic NPs could confer targeting properties to the system as demonstrated by studies of their binding interactions with lectins, where the binding activity is higher as the glycopolymer content augments. The magnetic and magneto-thermal properties of the synthesized hybrid NPs were evaluated. The magnetization curves reveal superparamagnetic features at 300 K, with high values of saturation magnetization. Furthermore, the hybrid glycoparticles show suitable heat dissipation power when exposed to alternating magnetic field conditions. © 2012 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem, 2012 [ABSTRACT FROM AUTHOR]

Published
2012
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