Cornelia E. Peña-González scite author profile

A variety of neutral and cationic carbosilane dendrons containing a wide range of active groups, such as −N 3 , −OH, −NH 2 , and −SH, at the focal points were synthesized from carbosilane vinyl dendrons BrG n V m from generations 1−3 by substitution of the bromine atom at the focal point and functionalization of the vinyl groups via thiol-ene click chemistry with HS(CH 2 ) 2 NMe 2 •HCl. These dendritic wedges were characterized by NMR, MS, and elemental analysis.

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Evaluation of dendronized gold nanoparticles as siRNAs carriers into cancer cells

Pedziwiatr-Werbicka

Gorzkiewicz

Michlewska

et al. 2021

Journal of Molecular Liquids

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Antibacterial and antifungal properties of dendronized silver and gold nanoparticles with cationic carbosilane dendrons

Peña-González

Pedziwiatr-Werbicka

Martín-Pérez

et al. 2017

International Journal of Pharmaceutics

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Water soluble silver nanoparticles (AgNPs) capped with cationic carbosilane dendrons have been synthesized by direct reaction in water of dendrons, silver precursor and a reducing agent. These nanoparticles have been characterized by nuclear magnetic resonance (NMR), transmission electron microscopy (TEM), dynamic light scattering (DLS), thermogravimetric analysis (TGA), ultraviolet spectroscopy (UV), elemental analysis, and zeta potential (ZP). The antibacterial and antifungal properties of the cationic dendrons and dendronized AgNPs and AuNPs with these dendrons have been evaluated against Gram-negative and Gram-positive bacterial -including resistant strains- and yeast strains, respectively. The results stand out for the activity of AgNPs covered with first generation dendron compared with this free dendron and corresponding dendronized AuNPs.

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Gold nanoparticles stabilized by cationic carbosilane dendrons: synthesis and biological properties

et al. 2017

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Gold nanoparticles (AuNPs) and polycationic macromolecules are used as gene carriers. Their behaviour is dependent on several factors, such as the size and type of the framework, charge, etc. We have combined both types of systems and prepared AuNPs covered with cationic carbosilane dendrons with the aim to evaluate their biocompatibility. Water soluble dendronized cationic AuNPs were prepared following a straightforward procedure from dendrons, a gold precursor and a reducing agent in water and were characterized by H NMR, transmission electron microscopy (TEM), dynamic light scattering (DLS), thermogravimetric analysis (TGA), ultraviolet spectroscopy (UV), and zeta potential (ZP). The biological properties of dendrons and AuNPs were determined by hemolysis, platelet aggregation and lymphocyte proliferation. These assays reflect modification of dendron properties when covering nanoparticles. For dendrons, hemolysis and platelet aggregation are generation dependent whilst, for AuNPs these properties are related to the bigger size of NPs. On the other hand, none of the systems induced lymphocyte proliferation. Selected cationic dendrons and AuNPs were chosen for gene delivery experiments employing a small interference RNA (siRNA Nef) against human immunodeficiency virus (HIV).

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Dendronized Anionic Gold Nanoparticles: Synthesis, Characterization, and Antiviral Activity

Peña-González

García-Broncano

Ottaviani

et al. 2016

Chemistry A European J

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Anionic carbosilane dendrons decorated with sulfonate functions and one thiol moiety at the focal point have been used to synthesize water-soluble gold nanoparticles (AuNPs) through the direct reaction of dendrons, gold precursor, and reducing agent in water, and also through a place-exchange reaction. These nanoparticles have been characterized by NMR spectroscopy, TEM, thermogravimetric analysis, X-ray photoelectron spectroscopy (XPS), UV/Vis spectroscopy, elemental analysis, and zeta-potential measurements. The interacting ability of the anionic sulfonate functions was investigated by EPR spectroscopy with copper(II) as a probe. Different structures and conformations of the AuNPs modulate the availability of sulfonate and thiol groups for complexation by copper(II). Toxicity assays of AuNPs showed that those produced through direct reaction were less toxic than those obtained by ligand exchange. Inhibition of HIV-1 infection was higher in the case of dendronized AuNPs than in dendrons.

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Antioxidant and Antibacterial Properties of Carbosilane Dendrimers Functionalized with Polyphenolic Moieties

et al. 2020

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A new family of polyphenolic carbosilane dendrimers functionalized with ferulic, caffeic, and gallic acids has been obtained through a straightforward amidation reaction. Their antioxidant activity has been studied by different techniques such as DPPH (2,2′-diphenyl-1-picrylhydrazyl) radical scavenging assay, FRAP assay (ferric reducing antioxidant power), and cyclic voltammetry. The antioxidant analysis showed that polyphenolic dendrimers exhibited higher activities than free polyphenols in all cases. The first-generation dendrimer decorated with gallic acid stood out as the best antioxidant compound, displaying a correlation between the number of hydroxyl groups in the polyphenol structure and the antioxidant activity of the compounds. Moreover, the antibacterial capacity of these new systems has been screened against Gram-positive (+) and Gram-negative (−) bacteria, and we observed that polyphenolic dendrimers functionalized with caffeic and gallic acids were capable of decreasing bacterial growth. In contrast, ferulic carbosilane dendrimers and free polyphenols showed no effect, establishing a correlation between antioxidant activity and antibacterial capacity. Finally, a viability assay in human skin fibroblasts cells (HFF-1) allowed for corroborating the nontoxicity of the polyphenolic dendrimers at their active antibacterial concentration.

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Silver Nanoparticles Surface-Modified with Carbosilane Dendrons as Carriers of Anticancer siRNA

Pedziwiatr-Werbicka

Gorzkiewicz

Horodecka

et al. 2020

IJMS

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Gene therapy is a promising approach in cancer treatment; however, current methods have a number of limitations mainly due to the difficulty in delivering therapeutic nucleic acids to their sites of action. The application of non-viral carriers based on nanomaterials aims at protecting genetic material from degradation and enabling its effective intracellular transport. We proposed the use of silver nanoparticles (AgNPs) surface-modified with carbosilane dendrons as carriers of anticancer siRNA (siBcl-xl). Using gel electrophoresis, zeta potential and hydrodynamic diameter measurements, as well as transmission electron microscopy, we characterized AgNP:siRNA complexes and demonstrated the stability of nucleic acid in complexes in the presence of RNase. Hemolytic properties of free silver nanoparticles and complexes, their effect on lymphocyte proliferation and cytotoxic activity on HeLa cells were also examined. Confocal microscopy proved the effective cellular uptake of complexes, indicating the possible use of this type of silver nanoparticles as carriers of genetic material in gene therapy.

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Dendronization of gold nanoparticles decreases their effect on human alpha-1-microglobulin

Pedziwiatr-Werbicka

Serchenya

Shcharbin

et al. 2018

International Journal of Biological Macromolecules

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Gold nanoparticles are new kinds of nanomaterials. Their large surface-to-volume ratio, stability, excellent biocompatibility, low toxicity and functionality make them very attractive for biomedical applications. Therefore we have analyzed how dendronized gold nanoparticles interact with human alpha-1-microglobulin. This is a glycoprotein of ∼30kDa present in blood plasma and some tissues of the human body. Comparing 3 nanoparticles with different dendronization, we conclude that the effect of a nanoparticle on the structure of alpha-1-microglobulin significantly decreased with second and third generations dendrons as a result of less exposure of the metal cores in the nanoparticles. These interactions indicate weak changes in the immunochemical properties of the protein, whereas the dendron coating had no effect. Thus, dendronization of gold nanoparticles helps to modify their binding properties by shielding them from interactions with plasma proteins.

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