Your search keyword '"Giammona, Gaetano"' showing total 34 results

1. Development of New Targeted Inulin Complex Nanoaggregates for siRNA Delivery in Antitumor Therapy.

Author

Cavallaro G, Sardo C, Craparo EF, and Giammona G

Subjects

Humans, MCF-7 Cells, Neoplasms metabolism, Neoplasms pathology, Drug Carriers chemistry, Drug Carriers pharmacokinetics, Drug Carriers pharmacology, Inulin chemistry, Inulin pharmacokinetics, Inulin pharmacology, Nanostructures chemistry, Nanostructures therapeutic use, Neoplasms diet therapy, RNA, Small Interfering chemistry, RNA, Small Interfering pharmacokinetics, RNA, Small Interfering pharmacology

Abstract

Here, a novel strategy of formulating efficient polymeric carriers based on the already described INU-IMI-DETA for gene material whose structural, functional, and biological properties can be modulated and improved was successfully investigated. In particular, two novel derivatives of INU-IMI-DETA graft copolymer were synthesized by chemical functionalisation with epidermal growth factor (EGF) or polyethylenglycol (PEG), named INU-IMI-DETA-EGF and INU-IMI-DETA-PEG, respectively, in order to improve the performance of already described "inulin complex nanoaggregates" (ICONs). The latter were thus prepared by appropriately mixing the two copolymers, by varying each component from 0 to 100 wt% on the total mixture, named EP-ICONs. It was seen that the ability of the INU-IMI-DETA-EGF/INU-IMI-DETA-PEG polymeric mixture to complex siGL3 increases with the increase in the EGF-based component in the EP-ICONs and, for each sample, with the increase in the copolymer:siRNA weight ratio (R). On the other hand, the susceptibility of loaded siRNA towards RNase decreases with the increase in the pegylated component in the polymeric mixture. At all R values, the average size and the zeta potential values are suitable for escaping from the RES system and suitable for prolonged intravenous circulation. By means of biological characterisation, it was shown that MCF-7 cells are able to internalize mainly the siRNA-loaded into EGF-decorated complexes, with a significant difference from ICONs, confirming its targeting function. The targeting effect of EGF on EP-ICONs was further demonstrated by a competitive cell uptake study, i.e., after cell pre-treatment with EGF. Finally, it was shown that the complexes containing both EGF and PEG are capable of promoting the internalisation and therefore the transfection of siSUR, a siRNA acting against surviving mRNA, and to increase the sensitivity to an anticancer agent, such as doxorubicin.

Published

2021

2. Folic acid-functionalized graphene oxide nanosheets via plasma etching as a platform to combine NIR anticancer phototherapy and targeted drug delivery.

Author

Mauro N, Scialabba C, Agnello S, Cavallaro G, and Giammona G

Subjects

Antineoplastic Agents chemistry, Antineoplastic Agents metabolism, Antineoplastic Agents pharmacology, Cell Line, Cell Movement drug effects, Cell Movement radiation effects, Cell Survival drug effects, Cell Survival radiation effects, Doxorubicin chemistry, Doxorubicin metabolism, Doxorubicin pharmacology, Drug Liberation, Humans, Infrared Rays, Polyethylene Glycols chemistry, Drug Carriers chemistry, Folic Acid chemistry, Graphite chemistry, Nanostructures chemistry, Plasma Gases chemistry

Abstract

PEGylated graphene oxide (GO) has shown potential as NIR converting agent to produce local heat useful in breast cancer therapy, since its suitable photothermal conversion, high stability in physiological fluids, biocompatibility and huge specific surface. GO is an appealing nanomaterial for potential clinical applications combining drug delivery and photothermal therapy in a single nano-device capable of specifically targeting breast cancer cells. However, native GO sheets have large dimensions (0.5-5 μm) such that tumor accumulation after a systemic administration is usually precluded. Herein, we report a step-by-step synthesis of folic acid-functionalized PEGylated GO, henceforth named GO-PEG-Fol, with small size and narrow size distribution (∼30 ± 5 nm), and the ability of efficiently converting NIR light into heat. GO-PEG-Fol consists of a nano-GO sheet, obtained by fragmentation of GO by means of non-equilibrium plasma etching, fully functionalized with folic acid-terminated PEG 2000 chains through amidic coupling and azide-alkyne click cycloaddition, which we showed as active targeting agents to selectively recognize breast cancer cells such as MCF7 and MDA-MB-231. The GO-PEG-Fol incorporated a high amount of doxorubicin hydrochloride (Doxo) (>33%) and behaves as NIR-light-activated heater capable of triggering sudden Doxo delivery inside cancer cells and localized hyperthermia, thus provoking efficient breast cancer death. The cytotoxic effect was found to be selective for breast cancer cells, being the IC 50 up to 12 times lower than that observed for healthy fibroblasts. This work established plasma etching as a cost-effective strategy to get functionalized nano-GO with a smart combination of properties such as small size, good photothermal efficiency and targeted cytotoxic effect, which make it a promising candidate as photothermal agent for the treatment of breast cancer., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2020

3. Hyaluronic acid based nanohydrogels fabricated by microfluidics for the potential targeted release of Imatinib: Characterization and preliminary evaluation of the antiangiogenic effect.

Author

Bongiovì F, Fiorica C, Palumbo FS, Pitarresi G, and Giammona G

Subjects

Cell Survival drug effects, Choroidal Neovascularization drug therapy, Drug Compounding methods, Feasibility Studies, Human Umbilical Vein Endothelial Cells, Humans, Hyaluronic Acid chemistry, Hydrogels chemistry, Imatinib Mesylate pharmacokinetics, Nanostructures chemistry, Retinal Pigment Epithelium blood supply, Retinal Pigment Epithelium cytology, Angiogenesis Inhibitors administration & dosage, Drug Carriers chemistry, Drug Compounding instrumentation, Imatinib Mesylate administration & dosage, Lab-On-A-Chip Devices

Abstract

Microfluidics is emerging as an innovative technique for the "on chip" fabrication of nanoparticles for drug delivery applications. Here, by using an amphiphilic derivative of hyaluronic acid as a starting macromolecule, nanohydrogels loaded with Imatinib were produced by the microfluidic procedure in order to develop an innovative therapeutic tool for the treatment of retinal neovascularization. Both cyRGDC functionalized and non-functionalized nanohydrogels were designed and fabricated by using the same technique. The targeting efficiency of the obtained nanosystems was studied in vitro on human retinal pigment epithelial cells (HRPEpiC) and human umbilical vein endothelial cells (HUVEC), the latter chosen as generic cellular model to assay inhibiting effect on cellular sprouting of Imatinib loaded nanohydrogels. The suitability of microfluidic approach for nanohydrogel production and drug loading was demonstrated. The cyRGDC functionalized nanosystems loaded with Imatinib, showed in vitro an enhanced ability to inhibit HUVEC organization into a capillary like structure., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2020

4. Nanometric ion pair complexes of tobramycin forming microparticles for the treatment of Pseudomonas aeruginosa infections in cystic fibrosis.

Author

Sardo C, Di Domenico EG, Porsio B, De Rocco D, Santucci R, Ascenzioni F, Giammona G, and Cavallaro G

Subjects

Biofilms, Cell Line, Humans, Mucus metabolism, Pseudomonas aeruginosa drug effects, Pseudomonas aeruginosa physiology, Anti-Bacterial Agents administration & dosage, Cystic Fibrosis drug therapy, Drug Carriers administration & dosage, Nanoparticles administration & dosage, Peptides administration & dosage, Pseudomonas Infections drug therapy, Tobramycin administration & dosage

Abstract

Sustained pulmonary delivery of tobramycin from microparticles composed of drug/polymer nanocomplexes offers several advantages against traditional delivery methods. Namely, in patients with cystic fibrosis, microparticle delivery can protect the tobramycin being delivered from strong mucoadhesive interactions, thus avoiding effects on its diffusion toward the infection site. Polymeric ion-pair complexes were obtained starting from two synthetic polyanions, through impregnation of their solid dissociated forms with tobramycin in aqueous solution. The structure of these polymeric systems was characterized, and their activities were examined against various biofilm-forming Pseudomonas aeruginosa. Once dried, the nanocomplexes can change their aggregation state, to form microparticle-based aggregates with a spherical shape and a micrometer size. In aqueous dispersions, the ion-pair complexes produced had nanometric size, negative ζ potential, and high biocompatibility toward human bronchial epithelium cells. The antibiofilm activity of these formulations was more efficient than for free tobramycin, with the antibiofilm activity against P. aeruginosa mucoid and nonmucoid end-stage strains isolated from cystic fibrosis lungs being of particular relevance., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2019

5. Salmeterol Xinafoate (SX) loaded into mucoadhesive solid lipid microparticles for COPD treatment.

Author

Amore E, Manca ML, Ferraro M, Valenti D, La Parola V, Di Vincenzo S, Gjomarkaj M, Giammona G, Bondì ML, and Pace E

Subjects

Adhesiveness, Alginates administration & dosage, Cell Line, Cell Survival drug effects, Humans, Lipids administration & dosage, Mucus, Pulmonary Disease, Chronic Obstructive drug therapy, Adrenergic beta-2 Receptor Agonists administration & dosage, Bronchodilator Agents administration & dosage, Drug Carriers administration & dosage, Salmeterol Xinafoate administration & dosage

Abstract

Chronic obstructive pulmonary disease (COPD) is one of the main health problems worldwide. It is characterised by chronic inflammation in the lungs that leads to progressive, chronic, largely irreversible airflow obstruction. The use of long-acting β agonists remain today the frontline treatment for COPD with the aim of minimizing side effects and enhancing therapeutic usefulness. To this purpose, in this paper, mucoadhesive solid lipid microparticles (SLMs) containing a long-acting β-2 agonist, Salmeterol Xinafoate (SX) were prepared, characterised (size, z-potential, aerodynamic diameter, turbidimetric evaluations, drug loading and entrapping efficiency) and tested in a model of bronchial epithelial cells. It was demonstrated that the incorporation of SX into SLMs led to the production of particles suitable for inhalation and more efficient than the free molecule at increasing the cAMP expression in bronchial epithelial cells. In conclusion, the prepared systems, due to their aerodynamic behaviour and mucoadhesive properties, could improve the retention time of SX in the lung epithelium and its therapeutic effect, thus representing a good strategy for the treatment of COPD patients., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2019

6. Core-Shell Arginine-Containing Chitosan Microparticles for Enhanced Transcorneal Permeation of Drugs.

Author

Mauro N, Di Prima G, Varvarà P, Licciardi M, Cavallaro G, and Giammona G

Subjects

Administration, Ophthalmic, Animals, Arginine analogs & derivatives, Chitosan analogs & derivatives, Drug Carriers chemistry, Drug Delivery Systems, Drug Liberation, Mucin-3 metabolism, Protein Kinase Inhibitors pharmacokinetics, Sorafenib pharmacokinetics, Swine, Arginine metabolism, Chitosan metabolism, Cornea metabolism, Drug Carriers metabolism, Protein Kinase Inhibitors administration & dosage, Sorafenib administration & dosage

Abstract

Chitosan oligosaccharide (C) was functionalized with l-arginine (A) and short hydrocarbon chains (C 8 ) to design an amphiphilic copolymer, henceforth CAC 8 , leading to microparticles (MPs) consisting of an arginine-decorated hydrophilic shell and inner hydrophobic domains allowing the encapsulation of high amount hydrophobic drugs such as sorafenib tosylate (>10% w/w). l-arginine side chains were selected in order to impart the final MPs enhanced transcorneal penetration properties, thus overcoming the typical biological barriers which hamper the absorption of drugs upon topical ocular administration. The mucoadhesive properties and drug release profile of the CAC 8 MPs (CAC 8 -MPs) were studied, showing that CAC 8 -MPs can strongly interact with mucin, and thus gradually release their payload in situ to potentially improve the bioavailability of the drug after topical administration. In vitro transcorneal studies also showed that CAC 8 -MPs are endowed with effective permeation enhancer ability combined with negligible toxicity., (Copyright © 2019 American Pharmacists Association®. Published by Elsevier Inc. All rights reserved.)

Published

2019

7. Imatinib-Loaded Micelles of Hyaluronic Acid Derivatives for Potential Treatment of Neovascular Ocular Diseases.

Author

Bongiovì F, Fiorica C, Palumbo FS, Di Prima G, Giammona G, and Pitarresi G

Subjects

Administration, Ophthalmic, Animals, Carnitine chemistry, Cattle, Cell Line, Cell Survival drug effects, Drug Compounding methods, Drug Liberation, Endothelial Cells drug effects, Ethylenediamines chemistry, Humans, Hyaluronic Acid chemistry, Imatinib Mesylate pharmacokinetics, Micelles, Particle Size, Permeability, Polyethylene Glycols chemistry, Protein Kinase Inhibitors pharmacokinetics, Choroidal Neovascularization drug therapy, Cornea metabolism, Drug Carriers chemistry, Imatinib Mesylate administration & dosage, Protein Kinase Inhibitors administration & dosage

Abstract

In this work, new micellar systems able to cross corneal barrier and to improve the permeation of imatinib free base were prepared and characterized. HA-EDA-C 16 , HA-EDA-C 16 -PEG, and HA-EDA-C 16 -CRN micelles were synthesized starting from hyaluronic acid (HA), ethylenediamine (EDA), hexadecyl chains (C 16 ), polyethylene glycol (PEG), or l-carnitine (CRN). These nanocarriers showed optimal particle size and mucoadhesive properties. Imatinib-loaded micelles were able to interact with corneal barrier and to promote imatinib transcorneal permeation and penetration. In addition, a study was conducted to understand the in vitro imatinib inhibitory effect on a choroidal neovascularization process. Imatinib released from polymeric micelles was able to inhibit endothelial cell sprouting and to promote cell tube disruption.

Published

2018

8. Mucoadhesive solid lipid microparticles for controlled release of a corticosteroid in the chronic obstructive pulmonary disease treatment.

Author

Amore E, Ferraro M, Manca ML, Gjomarkaj M, Giammona G, Pace E, and Bondì ML

Subjects

Administration, Inhalation, Alginates chemistry, Biocompatible Materials chemistry, Cell Survival, Chitosan chemistry, Chromatography, High Pressure Liquid methods, Delayed-Action Preparations, Drug Liberation, Drug Stability, Epithelial Cells, Glucuronic Acid chemistry, Hexuronic Acids chemistry, Humans, Lung drug effects, Lung metabolism, Microscopy, Electron, Scanning methods, Microspheres, Oxidative Stress drug effects, Particle Size, Surface Properties, Adrenal Cortex Hormones administration & dosage, Drug Carriers chemistry, Fluticasone administration & dosage, Lipids chemistry, Pulmonary Disease, Chronic Obstructive drug therapy

Abstract

Aim: Therapeutic efficacy of pulmonary diseases is often limited and drug delivery systems offer new solutions to clinical problems. Solid lipid microparticles (SLMs) are suggested as systems for the delivery of therapeutics to the lung as, because of their size, they are able to deposit into secondary bronchi., Materials & Methods: Here, we describe two novel different SLMs using chitosan and alginate such as mucoadhesive polymers and we also studied their biocompatibility and their effectiveness compared with the free drug in controlling senescence and inflammatory processes in cigarette smoke extracts., Results: Data reported show that fluticasone propionate (FP)-loaded SLMs are more effective than FP alone in controlling oxidative stress., Conclusion: The therapeutic approach using FP-loaded microparticles could be a promising strategy for the treatment of the chronic inflammatory pulmonary diseases.

Published

2017

9. Novel inulin-based mucoadhesive micelles loaded with corticosteroids as potential transcorneal permeation enhancers.

Author

Di Prima G, Saladino S, Bongiovì F, Adamo G, Ghersi G, Pitarresi G, and Giammona G

Subjects

Administration, Topical, Adrenal Cortex Hormones administration & dosage, Animals, Cattle, Cell Adhesion drug effects, Cell Survival drug effects, Cell Survival physiology, Cornea drug effects, Dose-Response Relationship, Drug, Drug Carriers administration & dosage, Humans, Inulin administration & dosage, Mice, Permeability drug effects, Retinal Pigment Epithelium drug effects, Retinal Pigment Epithelium metabolism, Swine, Adrenal Cortex Hormones metabolism, Cell Adhesion physiology, Cornea metabolism, Drug Carriers metabolism, Inulin metabolism, Micelles

Abstract

In this work a new copolymer of inulin (INU) derivatized with ethylendiamine (EDA) and retinoic acid (RA), named INU-EDA-RA, was synthetized, characterized and employed to produce micelles as carriers for topical administration of corticosteroids for the potential treatment of diseases of posterior eye segment. Spectroscopic analysis confirmed a molar derivatization degree of 11.30 and 4.30% in EDA and RA, respectively. INU-EDA-RA micelles are capable of strong mucoadhesive interactions which result time-independent and stable over time but concentration depending. Moreover micelles are able to encapsulate efficiently from 3 to 13% (w/w) of lipophilic drugs, as dexamethasone, triamcinolone and triamcinolone acetonide. Drug loaded micelles are stable for three months when stored as freeze-dried powders and able to release high amount of drug when compared to drug dissolution profiles from suspensions. Moreover, drug loaded micelles are compatible with different ocular cell lines that are also able to internalize fluorescent micelles. Finally, drug loaded micelles enhance drug fluxes and permeability coefficients across corneal epithelial cells, thus reducing drug loss due to retention inside the cells., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2017

10. Inulin-Ethylenediamine Coated SPIONs Magnetoplexes: A Promising Tool for Improving siRNA Delivery.

Author

Licciardi M, Li Volsi A, Sardo C, Mauro N, Cavallaro G, and Giammona G

Subjects

Cell Survival drug effects, Cell Survival genetics, Drug Compounding, HCT116 Cells, Humans, Magnetite Nanoparticles ultrastructure, Microscopy, Electron, Scanning, Microscopy, Electron, Transmission, Particle Size, RNA, Small Interfering genetics, Spectroscopy, Fourier Transform Infrared, Surface Properties, Transfection, Drug Carriers chemistry, Ethylenediamines chemistry, Ferrosoferric Oxide chemistry, Inulin chemistry, Magnetite Nanoparticles chemistry, RNA, Small Interfering administration & dosage

Abstract

Purpose: An inulin based polycation (Inu-EDA) has been synthesized by the grafting of ethylenediamine molecules onto inulin backbone. The obtained inulin copolymer has been though to coat SPIONs (IC-SPIONs) and obtain stable magnetoplexes by complexation of IC-SPIONs with a model duplexed siRNA, for improving oligonucleotide transfection efficiency., Methods: The physical-chemical characteristics of IC-SPIONs and IC-SPIONs/siRNA magnetoplexes have been investigated by scanning and transmission electron microscopies, dynamic light scattering, FT-IR and qualitative surface elementary analysis. Cell compatibility and internalization in vitro of IC-SPIONs have been evaluated by MTS and fluorescence microscopy respectively on cancer (HCT116) and normal human (16HBE) cells. The efficiency of gene silencing effect of magnetoplexes was studied on both tumoral (JHH6) and non tumoral (16HBE) cell lines also by applying an external magnet., Results: IC-SPIONs showed dimension of 30 nm and resulted cytocompatible on the tested cell lines; in the presence of an external magnet, the magnetic force enhanced the IC-SPIONs uptake inside cells. Magnetically improved transfection was observed in 16HBE cells under magnetofective conditions, in accordance with the IC-SPIONs uptake enhancement in the presence of an external magnet., Conclusions: These findings support the potential application of this system as a magnetically targeted drug delivery system. Graphical Abstract Magnetically improved siRNA transfection in cells under magnetofective conditions upon uptake enhancement of IC-SPIONs in the presence of an external magnet.

Published

2015

11. Effects in cigarette smoke stimulated bronchial epithelial cells of a corticosteroid entrapped into nanostructured lipid carriers.

Author

Bondì ML, Ferraro M, Di Vincenzo S, Gerbino S, Cavallaro G, Giammona G, Botto C, Gjomarkaj M, and Pace E

Subjects

Apoptosis drug effects, Bronchi cytology, Cells, Cultured, Drug Carriers chemistry, Epithelial Cells drug effects, Glutathione metabolism, Humans, Lipids chemistry, Nanostructures chemistry, Reactive Oxygen Species metabolism, Toll-Like Receptor 4 metabolism, Drug Carriers administration & dosage, Fluticasone administration & dosage, Nanostructures administration & dosage, Smoking adverse effects

Abstract

Background: Nanomedicine studies have showed a great potential for drug delivery into the lung. In this manuscript nanostructured lipid carriers (NLC) containing Fluticasone propionate (FP) were prepared and their biocompatibility and effects in a human bronchial epithelial cell line (16-HBE) stimulated with cigarette smoke extracts (CSE) were tested., Results: Biocompatibility studies showed that the NLC did not induce cell necrosis or apoptosis. Moreover, it was confirmed that CSE increased intracellular ROS production and TLR4 expression in bronchial epithelial cells and that FP-loaded NLC were more effective than free drug in modulating these processes. Finally, the nanoparticles increased GSH levels improving cell protection against oxidative stress., Conclusions: The present study shows that NLC may be considered a promising strategy to improve corticosteroid mediated effects in cellular models associated to corticosteroid resistance. The NLC containing FP can be considered good systems for dosage forms useful for increasing the effectiveness of fluticasone decreasing its side effects.

Published

2014

12. Galactosylated polymeric carriers for liver targeting of sorafenib.

Author

Craparo EF, Sardo C, Serio R, Zizzo MG, Bondì ML, Giammona G, and Cavallaro G

Subjects

Animals, Antineoplastic Agents administration & dosage, Antineoplastic Agents blood, Antineoplastic Agents chemistry, Antineoplastic Agents pharmacokinetics, Biological Availability, Drug Carriers administration & dosage, Female, Kidney metabolism, Liver metabolism, Lung metabolism, Mice, Inbred C57BL, Micelles, Niacinamide administration & dosage, Niacinamide analogs & derivatives, Niacinamide blood, Niacinamide chemistry, Niacinamide pharmacokinetics, Phenylurea Compounds administration & dosage, Phenylurea Compounds blood, Phenylurea Compounds chemistry, Phenylurea Compounds pharmacokinetics, Sorafenib, Spleen metabolism, Drug Carriers chemistry, Ethylenediamines chemistry, Galactose chemistry, Peptides chemistry, Polyesters chemistry

Abstract

In this paper, we describe the preparation of liver-targeted polymeric micelles potentially able to carry sorafenib to hepatocytes for treatment of hepatocarcinoma (HCC), exploiting the presence of carbohydrate receptors, ASGPR. These micelles were prepared starting from a galactosylated polylactide-polyaminoacid conjugate. This latter was obtained by chemical reaction of α,β-poly(N-2-hydroxyethyl) (2-aminoethylcarbamate)-d,l-aspartamide (PHEA-EDA) with polylactic acid (PLA), and subsequent reaction with lactose, leading to PHEA-EDA-PLA-GAL copolymer. Liver-targeted sorafenib-loaded micelles were obtained in aqueous media at low PHEA-EDA-PLA-GAL copolymer concentration value with nanometer size and slightly positive zeta potential. Biodistribution studies on mice demonstrated, after oral administration of sorafenib loaded PHEA-EDA-PLA-GAL micelles, the preferential sorafenib accumulation into the liver. This finding raises hope in terms of future drug delivery strategy of sorafenib-loaded micelles targeted to the liver for the HCC treatment., (Copyright © 2014 Elsevier B.V. All rights reserved.)

Published

2014

13. Entrapment of an EGFR inhibitor into nanostructured lipid carriers (NLC) improves its antitumor activity against human hepatocarcinoma cells.

Author

Bondì ML, Azzolina A, Craparo EF, Botto C, Amore E, Giammona G, and Cervello M

Subjects

Antineoplastic Agents pharmacology, Carcinoma, Hepatocellular pathology, Cell Line, Tumor, Humans, Lipids chemistry, Liver drug effects, Liver pathology, Liver Neoplasms pathology, Quinazolines pharmacology, Tyrphostins pharmacology, Antineoplastic Agents administration & dosage, Carcinoma, Hepatocellular drug therapy, Drug Carriers chemistry, ErbB Receptors antagonists & inhibitors, Liver Neoplasms drug therapy, Nanostructures chemistry, Quinazolines administration & dosage, Tyrphostins administration & dosage

Abstract

Background: In hepatocellular carcinoma (HCC), different signaling pathways are de-regulated, and among them, the expression of the epidermal growth factor receptor (EGFR). Tyrphostin AG-1478 is a lipophilic low molecular weight inhibitor of EGFR, preferentially acting on liver tumor cells. In order to overcome its poor drug solubility and thus improving its anticancer activity, it was entrapped into nanostructured lipid carriers (NLC) by using safe ingredients for parenteral delivery., Results: Nanostructured lipid carriers (NLC) carrying tyrphostin AG-1478 were prepared by using the nanoprecipitation method and different matrix compositions. The best system in terms of mean size, PDI, zeta potential, drug loading and release profile was chosen to evaluate the anti-proliferative effect of drug-loaded NLC versus free drug on human hepatocellular carcinoma HA22T/VGH cells., Conclusions: Thanks to the entrapment into NLC systems, tyrphostin AG-1478 shows an enhanced in vitro anti-tumor activity compared to free drug. These finding raises hope of future drug delivery strategy of tyrphostin AG-1478 -loaded NLC targeted to the liver for the HCC treatment.

Published

2014

14. An allergen-polymeric nanoaggregate as a new tool for allergy vaccination.

Author

Licciardi M, Montana G, Bondì ML, Bonura A, Scialabba C, Melis M, Fiorica C, Giammona G, and Colombo P

Subjects

Allergens chemistry, Allergens toxicity, Animals, Antigens, Plant chemistry, Antigens, Plant toxicity, Basophils drug effects, Basophils immunology, Cell Line, Cell Survival drug effects, Chemistry, Pharmaceutical, Drug Stability, Electrophoresis, Hemolysis drug effects, Humans, Hypersensitivity immunology, Immunoglobulin E immunology, Light, Macrophages drug effects, Macrophages pathology, Mice, Microscopy, Atomic Force, Nanotechnology, Plant Proteins chemistry, Plant Proteins toxicity, Scattering, Radiation, Technology, Pharmaceutical methods, Vaccines, Synthetic chemistry, Vaccines, Synthetic toxicity, Allergens immunology, Antigens, Plant immunology, Drug Carriers, Hypersensitivity prevention & control, Nanoparticles, Peptides chemistry, Plant Proteins immunology, Vaccination, Vaccines, Synthetic immunology

Abstract

A recombinant hybrid composed of the two major allergens of the Parietaria pollen Par j 1 and Par j 2 has been generated by DNA recombinant technology (PjED). This hybrid was produced in E. coli at high levels of purity. Then, the engineered derivative has been combined with a synthetic polyaminoacidic derivative having a poly(hydroxyethyl)aspartamide (PHEA) backbone and bearing both butyryl groups (C4) and succinyl (S) moieties in the side chain (PHEA-C4-S). The allergen-copolymer nanoaggregate was characterized by means of DLS, zeta potential, electrophoretic mobility and atom force microscopy analysis displaying the formation of a stable complex. Its safety has been proved in vitro on a murine cell line, human erythrocytes and basophils. Moreover, the formation of the complex did not alter the ability of the allergens to cross-link surface bound specific IgE demonstrating that the combination of an engineered hybrid with a copolymer did not interfere with its biological activity suggesting its employment as potential vaccine against Parietaria-induced allergies., (Copyright © 2014 Elsevier B.V. All rights reserved.)

Published

2014

15. Polymeric nanocarriers for magnetic targeted drug delivery: preparation, characterization, and in vitro and in vivo evaluation.

Author

Licciardi M, Scialabba C, Fiorica C, Cavallaro G, Cassata G, and Giammona G

Subjects

Animals, Antineoplastic Agents chemistry, Antineoplastic Agents pharmacology, Cell Line, Tumor, Drug Delivery Systems methods, Flutamide chemistry, Flutamide pharmacology, Humans, Magnetics, Male, Particle Size, Rats, Rats, Wistar, Tissue Distribution, Drug Carriers chemistry, Magnetite Nanoparticles chemistry, Peptides chemistry

Abstract

In this paper the preparation of magnetic nanocarriers (MNCs), containing superparamagnetic domains, is reported, useful as potential magnetically targeted drug delivery systems. The preparation of MNCs was performed by using the PHEA-IB-p(BMA) graft copolymer as coating material through the homogenization-solvent evaporation method. Magnetic and nonmagnetic nanocarriers containing flutamide (FLU-MNCs) were prepared. The prepared nanocarriers have been exhaustively characterized by dynamic light scattering (DLS), transmission electron microscopy (TEM), and magnetic measurements. Biological evaluation was performed by in vitro cytotoxicity and cell uptake tests and in vivo biodistribution studies. Magnetic nanocarriers showed dimensions of about 300 nm with a narrow size distribution, an amount of loaded FLU of 20% (w/w), and a superparamagnetic behavior. Cell culture experiments performed on prostate cancer cell line LNCaP demonstrated the cytotoxic effect of FLU-MNCs. In vivo biodistribution studies carried out by the application of an external magnetic field in rats demonstrated the effect of the external magnet on modifying the biodistribution of FLU-MNCs. FLU-MNCs resulted efficiently internalized by tumor cells and susceptible to magnetic targeting by application of an external magnetic field. The proposed nanocarriers can represent a very promising approach to obtain an efficient magnetically targeted anticancer drug delivery system.

Published

2013

16. PHEA-graft-polymethacrylate supramolecular aggregates for protein oral delivery.

Author

Licciardi M, Pasut G, Amato G, Scialabba C, Mero A, Montopoli M, Cavallaro G, Schiavon O, and Giammona G

Subjects

Administration, Oral, Animals, Caco-2 Cells, Calcitonin chemistry, Drug Carriers chemistry, Drug Delivery Systems methods, Female, Humans, Peptides chemistry, Polyhydroxyethyl Methacrylate administration & dosage, Polyhydroxyethyl Methacrylate chemistry, Polymethacrylic Acids chemistry, Random Allocation, Rats, Rats, Sprague-Dawley, Calcitonin administration & dosage, Drug Carriers administration & dosage, Peptides administration & dosage, Polyhydroxyethyl Methacrylate analogs & derivatives, Polymethacrylic Acids administration & dosage

Abstract

Salmon calcitonin (sCT) is characterized by a poor oral availability. A new copolymer, β-poly(N-2-hydroxyethyl)-graft-{N-2-ethylene[2-poly(methacrylic acid sodium salt)isobutyrate]}-d,l-aspartamide (PHEA-IB-p(MANa(+))), was designed for the oral administration of sCT through the formation of supramolecular aggregates (SAs) based on electrostatic interactions. Several sCT/PHEA-IB-p(MANa(+)) weight ratios were characterized by turbidimetry, DLS, zeta potential, and microscopy analysis. After the incubation of sCT/PHEA-IB-p(MANa(+)) complex with digestive enzymes, 10% (w/w) of loaded sCT was released in the native form. In vitro investigation was carried out to determine the copolymer effect on the permeability of sCT in Caco-2 cell monolayers. sCT pharmacokinetic profile and the pharmacodynamic effect on calcium plasma level were determined following an oral administration of the lead sCT/PHEA-IB-p(MANa(+)) SA (1/5 ratio) in rats. The SA yielded a marked prolongation of the sCT lowering calcium effect. The maximum decrease, 35% with respect the basal calcium plasma level at time 0 h, was achieved after 4h post-administration, and after 7 h, a decrease of 20% was still present. Differently, sCT yielded a transient calcium decrease that was completely restored after 5h. The higher bioavailability of sCT administered as SA was confirmed by the pharmacokinetic studies. In fact, the AUC and the Cmax were about 15 times higher for the sCT formulated as SA than the free sCT. This study indicates the potentials of PHEA-IB-p(MANa(+)) as carrier of sCT for oral delivery., (Copyright © 2012 Elsevier B.V. All rights reserved.)

Published

2013

17. Evaluation of thermoresponsive properties and biocompatibility of polybenzofulvene aggregates for leuprolide delivery.

Author

Licciardi M, Amato G, Cappelli A, Paolino M, Giuliani G, Belmonte B, Guarnotta C, Pitarresi G, and Giammona G

Subjects

Animals, Antineoplastic Agents, Hormonal chemistry, Cell Line, Cell Survival drug effects, Drug Carriers chemistry, Humans, Indenes chemistry, Leuprolide chemistry, Male, Microscopy, Electron, Scanning, Nanostructures chemistry, Nanostructures ultrastructure, Polymers chemistry, Rats, Rats, Wistar, Skin anatomy & histology, Skin drug effects, Temperature, Antineoplastic Agents, Hormonal administration & dosage, Drug Carriers administration & dosage, Indenes administration & dosage, Leuprolide administration & dosage, Nanostructures administration & dosage, Polymers administration & dosage

Abstract

In this study, a polybenzofulvene derivative named poly-6-MOEG-9-BF3k, was evaluated as polymeric material for the production of injectable thermoresponsive nano-aggregates able to load low molecular weight peptidic drug, like the anticancer leuprolide. Thermoresponsive behavior of poly-6-MOEG-9-BF3k was studied in aqueous media by evaluating scattering intensity variations by means of DLS in function of temperature. Zeta potential measurements and SEM observations were also carried out. Moreover, critical aggregation temperature of the poly-6-MOEG-9-BF3k polymer was evaluated by pyrene fluorescence analysis. Then, the ability of prepared thermoresponsive aggregates to protect this model oligopeptide drug and regulate its release rate in function of external temperature was evaluated in vitro. Finally, biocompatibility of poly-6-MOEG-9-BF3k aggregates was tested in vitro on a healthy cell line (human bronchial epithelial cell; 16-HBE) and in vivo on rat animal model upon subcutaneous administration., (Copyright © 2012 Elsevier B.V. All rights reserved.)

Published

2012

18. Lipid nanoparticles as delivery vehicles for the Parietaria judaica major allergen Par j 2.

Author

Bondì ML, Montana G, Craparo EF, Di Gesù R, Giammona G, Bonura A, and Colombo P

Subjects

Basophils metabolism, Emulsions, Enzyme-Linked Immunosorbent Assay, Humans, Immunotherapy, Particle Size, Phosphoric Diester Hydrolases metabolism, Pyrophosphatases metabolism, Recombinant Proteins chemistry, Recombinant Proteins immunology, Rhinitis, Allergic, Seasonal, Allergens chemistry, Allergens immunology, Drug Carriers chemistry, Membrane Lipids chemistry, Nanoparticles chemistry, Plant Proteins chemistry, Plant Proteins immunology

Abstract

Parietaria pollen is one of the major causes of allergic reaction in southern Europe, affecting about 30% of all allergic patients in this area. Specific immunotherapy is the only treatment able to modify the natural outcome of the disease by restoring a normal immunity against allergens. The preparation of allergen-solid lipid nanoparticles as delivery vehicles for therapeutic proteins, P. judaica major allergen Par j 2, was investigated. The Par j 2 allergen was expressed in a large amount in Escherichia coli and purified to homogeneity. Its immunological properties were studied by western blotting and enzyme-linked immunosorbent assay inhibition. Solid lipid nanoparticles were obtained by water-in-oil-in-water multiple emulsion method and characterized in terms of mean size and surface charge. These systems (approximately 250 nm diameter and negative surface charge) incorporated recombinant Par j 2 with 40% or greater efficiency. Moreover, the endotoxin level and anaphylactic activity of the empty solid lipid nanoparticles and recombinant Par j 2-loaded solid lipid nanoparticles were evaluated by looking at the overexpression of CD203c marker on human basophils. These results demonstrate that recombinant Par j 2-nanoparticles could be proposed as safe compositions for the development of new therapeutic dosage forms to cure allergic reactions.

Published

2011

19. Folate-targeted supramolecular vesicular aggregates based on polyaspartyl-hydrazide copolymers for the selective delivery of antitumoral drugs.

Author

Licciardi M, Paolino D, Celia C, Giammona G, Cavallaro G, and Fresta M

Subjects

Antineoplastic Agents chemistry, Biocompatible Materials chemistry, Biocompatible Materials metabolism, Cell Line, Tumor, Deoxycytidine analogs & derivatives, Deoxycytidine chemistry, Deoxycytidine metabolism, Drug Carriers chemical synthesis, Drug Carriers metabolism, Folic Acid metabolism, Humans, Materials Testing, Microscopy, Confocal, Molecular Structure, Polymers chemical synthesis, Tissue Distribution, Gemcitabine, Antineoplastic Agents administration & dosage, Azides chemistry, Drug Carriers chemistry, Drug Delivery Systems, Folic Acid chemistry, Peptides chemistry, Polymers chemistry

Abstract

Supramolecular vesicular aggregates (SVAs) have the advantage of combining the safe and biocompatible properties of colloidal vesicular carriers based on phospholipids with those of polymeric materials, i.e. polyaspartyl-hydrazide (PAHy) copolymers. To provide SVAs with a certain tumour selectivity, folate moieties were chemically conjugated to PAHy copolymers. Physicochemical properties (mean sizes, polydispersity index and zeta potential) of folate-targeted SVAs (FT-SVAs) loaded with gemcitabine were evaluated. The antiproliferative and anticancer activity of gemcitabine-loaded FT-SVAs was evaluated against two cancer cell lines, i.e. MCF-7 cells which over-express the folate receptor and the BxPC-3 cells, which do not over-express this receptor. Gemcitabine-loaded FT-SVAs showed a significantly (p < 0.001) greater and more specific in vitro anticancer activity with respect to both the free drug and the drug-loaded conventional liposomes or untargeted SVAs. Confocal microscopy, flow cytometry analysis and beta-scintillation highlighted that FT-SVAs were able to interact with MCF-7 cells after just 3 h and to increase the amount internalization in cells over-expressing the folate receptor. The in vivo biodistribution and pharmacokinetic experiments showed that gemcitabine-loaded SVAs and FT-SVAs were removed from the circulatory system at a slower rate than the native drug and a prolonged gemcitabine plasma concentration was observed for up to 16 h. SVAs were accumulated mainly in the lungs, spleen and kidneys, while FT-SVAs were also up taken by brain. These interesting and stimulating results suggest the existence of a possible in vivo application of SVAs and encourage the use of folate as a targeting agent in anticancer therapy.

Published

2010

20. New self-assembling polyaspartylhydrazide copolymer micelles for anticancer drug delivery.

Author

Licciardi M, Cavallaro G, Di Stefano M, Pitarresi G, Fiorica C, and Giammona G

Subjects

Antineoplastic Agents pharmacology, Breast Neoplasms pathology, Cell Line, Tumor, Cell Survival drug effects, Chemistry, Pharmaceutical, Dose-Response Relationship, Drug, Drug Compounding, Female, Fluorescence, Humans, Hydrophobic and Hydrophilic Interactions, Light, Magnetic Resonance Spectroscopy, Microscopy, Electron, Transmission, Nanotechnology, Particle Size, Polymers, Scattering, Radiation, Tamoxifen pharmacology, Technology, Pharmaceutical methods, Antineoplastic Agents chemistry, Drug Carriers, Micelles, Palmitic Acid chemistry, Peptides chemistry, Polyethylene Glycols chemistry, Tamoxifen chemistry

Abstract

A new amphiphilic copolymer have been synthesized starting from the hydrosoluble polyaspartylhydrazide (PAHy) polymer, by grafting both hydrophilic PEG(2000) chains and hydrophobic palmitic acid (C(16)) moieties on polymer backbone, and the structure of obtained PAHy-PEG(2000)-C(16) copolymer have been characterized by 2D (1)H/(13)C NMR experiments. PAHy-PEG(2000)-C(16) copolymer showed the ability of self-assembling in aqueous media giving a core-shell structure and resulted potentially useful for encapsulating and dissolving hydrophobic drug. The formation of micellar core-shell structure has been investigated by 2D (1)H NMR NOESY experiments. The presence of cross-peaks for protons of C(16) and PAHy portions, indicated that the two domains are in close proximity forming micelle core. The critical aggregation concentration (CAC) values of PAHy-PEG(2000)-C(16) amphiphilic graft copolymer was determined in water by fluorescence technique, and it was demonstrated that PAHy-PEG(2000)-C(16) micelles are well suited to be micellar vehicle of highly hydrophobic molecules. Therefore, anticancer drug tamoxifen, used as a model hydrophobic molecule, was loaded into PAHy-PEG(2000)-C(16) micelles obtaining an increase of drug solubility of about 3000 times. Transmission electron microscopy (TEM) observations showed the spherical morphology of micelles formed by PAHy-PEG(2000)-C(16) copolymer with a mean diameter of about 30nm, as confirmed also by dynamic light scattering (DLS) studies. Finally, in vitro cell viability studies were carried out on human breast cancer cells (MCF-7) testing the pharmacological activity of tamoxifen-loaded PAHy-PEG(2000)-C(16) micelles, in comparison with free tamoxifen at different drug concentrations, demonstrating that tamoxifen-loaded PAHy-PEG(2000)-C(16) micelles exhibited a concentration-dependent cytotoxic activity., (Copyright 2010 Elsevier B.V. All rights reserved.)

Published

2010

21. Brain-targeted solid lipid nanoparticles containing riluzole: preparation, characterization and biodistribution.

Author

Bondì ML, Craparo EF, Giammona G, and Drago F

Subjects

Animals, Drug Stability, Humans, Male, Nanoparticles chemistry, Particle Size, Plasma metabolism, Rats, Rats, Sprague-Dawley, Brain metabolism, Drug Carriers chemistry, Lipids chemistry, Neuroprotective Agents administration & dosage, Neuroprotective Agents pharmacokinetics, Riluzole administration & dosage, Riluzole pharmacokinetics

Abstract

Aim: Developments within nanomedicine have revealed a great potential for drug delivery to the brain. In this study nanoparticulate systems as drug carriers for riluzole, with sufficiently high loading capacity and small particle size, were prepared to a reach therapeutic drug level in the brain., Materials & Method: Solid lipid nanoparticles containing riluzole have great potential as drug-delivery systems for amyotrophic lateral sclerosis and were produced by using the warm oil-in-water microemulsion technique. The resulting systems obtained were approximately 88 nm in size and negatively charged. Drug-release profiles demonstrated that a drug release was dependent on medium pH. Biodistribution of riluzole blended into solid lipid nanoparticles was carried out after administration to rats and the results were compared with those obtained by riluzole aqueous dispersion administration. Rats were sacrificed at time intervals of 8, 16 and 30 h, and the riluzole concentration in the blood and organs such as the brain, liver, spleen, heart and kidney was determined., Results: It was demonstrated that these solid lipid nanoparticles were able to successfully carry riluzole into the CNS. Moreover, a low drug biodistribution in organs such as the liver, spleen, heart, kidneys and lung was found when riluzole was administered as drug-loaded solid lipid nanoparticles., Conclusion: Riluzole-loaded solid lipid nanoparticles showed colloidal size and high drug loading, a greater efficacy than free riluzole in rats, a higher capability to carry the drug into the brain and a lower indiscriminate biodistribution.

Published

2010

22. Photocrosslinking of dextran and polyaspartamide derivatives: a combination suitable for colon-specific drug delivery.

Author

Pitarresi G, Casadei MA, Mandracchia D, Paolicelli P, Palumbo FS, and Giammona G

Subjects

Beclomethasone administration & dosage, Beclomethasone chemistry, Caco-2 Cells, Cell Adhesion, Cell Survival drug effects, Cross-Linking Reagents adverse effects, Cross-Linking Reagents radiation effects, Dextrans adverse effects, Dextrans radiation effects, Drug Carriers adverse effects, Drug Carriers radiation effects, Drug Compounding, Drug Stability, Humans, Hydrogels adverse effects, Hydrogels radiation effects, Hydrogen-Ion Concentration, Hydrolysis, Methacrylates adverse effects, Methacrylates radiation effects, Mucins chemistry, Particle Size, Peptides adverse effects, Peptides radiation effects, Photochemistry, Colon drug effects, Cross-Linking Reagents chemistry, Dextrans chemistry, Drug Carriers chemistry, Hydrogels chemistry, Methacrylates chemistry, Peptides chemistry

Abstract

The aim of this study was to prepare and characterize novel hydrogels with polysaccharide-polyaminoacid structure, able to undergo an enzymatic hydrolysis in the colon and potentially useful for treating inflammatory bowel diseases (IBD). Starting materials were methacrylated dextran (DEX-MA) and methacrylated alpha,beta-poly(N-2-hydroxyethyl)-dl-aspartamide (PHM). These polymers were photocrosslinked by exposure of their aqueous solutions at 313 nm without photoinitiators. Different samples, shaped as microparticles, were obtained as a function of polymer concentration and irradiation time. FT-IR analysis confirmed the occurrence of a co-crosslinking between DEX-MA and PHM in all experimental conditions. Size analysis evidenced a narrow particle distribution and swelling studies, performed in twice-distilled water and simulated gastrointestinal fluids, showed a good affinity of these hydrogels towards the aqueous medium. DEX-MA/PHM based hydrogels undergo a negligible chemical hydrolysis, whereas they are partially degraded by dextranase. In vitro biological assays showed cell compatibility of these samples. Beclomethasone dipropionate (BDP), a drug recently proposed for the treatment of IBD was entrapped into a DEX-MA/PHM based hydrogel and its release was evaluated in the absence or in the presence of dextranase. Obtained release profiles suggest the potential use of BDP loaded DEX-MA/PHM based hydrogels for the treatment of IBD.

Published

2007

23. Synthesis, characterization and in vitro cytotoxicity studies of a macromolecular conjugate of paclitaxel bearing oxytocin as targeting moiety.

Author

Cavallaro G, Maniscalco L, Campisi M, Schillaci D, and Giammona G

Subjects

Antineoplastic Agents, Phytogenic metabolism, Antineoplastic Agents, Phytogenic pharmacology, Breast Neoplasms pathology, Cell Line, Tumor, Cell Proliferation drug effects, Chemistry, Pharmaceutical, Delayed-Action Preparations, Dose-Response Relationship, Drug, Drug Compounding, Drug Stability, Female, Humans, Hydrogen-Ion Concentration, Hydrolysis, Molecular Structure, Oxytocin analogs & derivatives, Oxytocin blood, Oxytocin chemical synthesis, Oxytocin pharmacology, Paclitaxel analogs & derivatives, Paclitaxel blood, Paclitaxel metabolism, Paclitaxel pharmacology, Prodrugs metabolism, Prodrugs pharmacology, Receptors, Oxytocin metabolism, Solubility, Time Factors, Antineoplastic Agents, Phytogenic chemical synthesis, Drug Carriers, Oxytocin metabolism, Paclitaxel chemical synthesis, Peptides chemistry, Polyethylene Glycols chemistry, Prodrugs chemical synthesis

Abstract

The present study describes the experimental synthetic procedure and the characterization of a new polyaspartamide macromolecular prodrug of paclitaxel, bearing oxytocin residues as targeting moieties. In vitro stability studies of bioconjugate, performed in media mimicking biological fluids (buffer solutions at pH 7.4 and 5.5) and in human plasma, evidenced the high stability of the targeting portion (oxytocin)-polymer linkage and the ability of this conjugate to release linked paclitaxel in a prolonged way in plasma. Moreover, preliminary in vitro antiproliferative studies, carried out on MCF-7 cells, that are oxytocin receptor positive cells, showed that the polymeric conjugate has the same cell growing inhibition ability of free drug.

Published

2007

24. Novel cationic solid-lipid nanoparticles as non-viral vectors for gene delivery.

Author

Bondi ML, Azzolina A, Craparo EF, Lampiasi N, Capuano G, Giammona G, and Cervello M

Subjects

Cations chemistry, Cell Line, Tumor, Cell Survival, DNA chemistry, Humans, Particle Size, Transfection, beta-Galactosidase genetics, DNA administration & dosage, Drug Carriers chemistry, Gene Transfer Techniques, Glycerides chemistry, Nanoparticles chemistry

Abstract

In this paper, the suitability of novel cationic solid-lipid nanoparticles (SLN) as a nonviral transfection agent for gene delivery was investigated. SLN were produced by using the microemulsion method and Compritol ATO 888 as matrix lipid, dimethyldioctadecylammonium bromide as charge carrier and Pluronic F68 as surfactant. Obtained nanoparticles were approximately 120 nm in size and positively charged, with a zeta potential value equal to +45 mV in twice-distilled water. Cationic SLN were able to form stable complexes with DNA and to protect DNA against DNase I digestion. The SLN-DNA complexes were characterized by mean diameter and zeta potential measurements. In vitro studies on human liver cancer cells demonstrated a very low degree of toxicity of both SLN and SLN-DNA complexes. Further, SLN-DNA complexes were able to promote transfection of liver cancer cells. These data suggest that our cationic SLN may be potentially useful for gene therapy.

Published

2007

25. Employment of cationic solid-lipid nanoparticles as RNA carriers.

Author

Montana G, Bondì ML, Carrotta R, Picone P, Craparo EF, San Biagio PL, Giammona G, and Di Carlo M

Subjects

Animals, Cell Survival, Drug Carriers administration & dosage, Drug Carriers pharmacology, Electrophoretic Mobility Shift Assay, Emulsions, Fatty Acids chemistry, Membrane Proteins genetics, Membrane Proteins metabolism, Microinjections, Microscopy, Electron, Scanning, Nanotechnology, Ovum metabolism, Poloxamer chemistry, Quaternary Ammonium Compounds chemistry, RNA administration & dosage, RNA pharmacology, Sea Urchins embryology, Transfection, Cations chemistry, Drug Carriers chemistry, Lipids chemistry, Nanoparticles, RNA chemistry

Abstract

Gene transfer represents an important advance in the treatment of both genetic and acquired diseases. In this article, the suitability of cationically modified solid-lipid nanoparticles (SLN) as a nonviral vector for gene delivery was investigated, in order to obtain stable materials able to condense RNA. Cationic SLN were produced by microemulsion using Compritol ATO 888 as matrix lipid, Pluronic F68 as tenside, and dimethyldioctadecylammonium bromide (DDAB) as cationic lipid. The resulting particles were approximately 100 nm in size and showed a highly positive surface charge (+41 mV) in water. Size and shape were further characterized by scanning electron microscopy (SEM) measurements. Moreover, we utilized the sea urchin as a model system to test their applicability on a living organism. To evaluate cationic SLN ability to complex the in vitro transcribed Paracentrotus lividus bep3 RNA, we utilized both light scattering and gel mobility experiments, and protection by nuclease degradation was also investigated. By microinjection experiment, we demonstrated that the nanoparticles do not inference with the viability of the P. lividus embryo and the complex nanoparticles-bep3 permits movement of the RNA during its localization in the egg, suggesting that it could be a suitable system for gene delivery. Taken together, all these results indicate that the cationic SNL are a good RNA carrier for gene transfer system and the sea urchin a simple and versatile candidate to test biological properties of nanotechnology devices.

Published

2007

26. Nanostructured lipid carriers-containing anticancer compounds: preparation, characterization, and cytotoxicity studies.

Author

Bondì ML, Craparo EF, Giammona G, Cervello M, Azzolina A, Diana P, Martorana A, and Cirrincione G

Subjects

Antineoplastic Agents chemistry, Cell Line, Tumor, Cell Survival drug effects, Chromatography, High Pressure Liquid, Drug Compounding, Electrochemistry, Humans, Particle Size, Plasma chemistry, Solubility, Antineoplastic Agents administration & dosage, Antineoplastic Agents pharmacology, Drug Carriers chemistry, Lipids chemistry, Nanoparticles

Abstract

This article describes the development of nanostructured lipid carriers (NLC) as colloidal carriers for two antitumor compounds that possess a remarkable antineoplastic activity. But their limited stability and low solubility in water could give a very low parenteral bioavailability. Results revealed an enhancement of the cytotoxicity effect of drug-loaded NLC on human prostate cancer (PC-3) and human hepatocellular carcinoma (HuH-6, HuH-7) cell lines with respect to that of both free drugs. Results of characterization studies strongly support the potential application of these drugs-loaded NLC as prolonged delivery systems for lipophilic drugs by several administration routes, in particular for intravenous administration.

Published

2007

27. Solid lipid nanoparticles containing tamoxifen characterization and in vitro antitumoral activity.

Author

Fontana G, Maniscalco L, Schillaci D, Cavallaro G, and Giammona G

Subjects

Antineoplastic Agents, Hormonal pharmacology, Cell Line, Tumor, Cell Proliferation drug effects, Delayed-Action Preparations, Drug Stability, Humans, Hydrogen-Ion Concentration, Octanols chemistry, Particle Size, Solubility, Tamoxifen pharmacology, Time Factors, Water chemistry, Antineoplastic Agents, Hormonal chemistry, Drug Carriers chemistry, Lipids chemistry, Nanostructures, Tamoxifen chemistry

Abstract

Solid lipid nanoparticles (SLNs) containing tamoxifen, a nonsteroidal antiestrogen used in breast cancer therapy, were prepared by microemulsion and precipitation techniques. Tamoxifen loaded SLNs seem to have dimensional properties useful for parenteral administration, and in vitro plasmatic drug release studies demonstrated that these systems are able to give a prolonged release of the drug in the intact form. Preliminary study of antiproliferative activity in vitro, carried out on MCF-7 cell line (human breast cancer cells), demonstrated that SLNs, containing tamoxifen showed an antitumoral activity comparable to free drug. The results of characterization studies and of in vitro antiproliferative activity strongly support the potential application of tamoxifen-loaded SLNs as a carrier system at prolonged release useful for intravenous administration in breast cancer therapy.

Published

2005

28. Margination of Fluorescent Polylactic Acid-Polyaspartamide based Nanoparticles in Microcapillaries In Vitro: the Effect of Hematocrit and Pressure.

Author

Craparo, Emanuela Fabiola, D'Apolito, Rosa, Giammona, Gaetano, Cavallaro, Gennara, and Tomaiuolo, Giovanna

Subjects

DRUG delivery systems, DRUG carriers, CARDIOVASCULAR diseases, CARDIOVASCULAR system, ERYTHROCYTES

Abstract

The last decade has seen the emergence of vascular-targeted drug delivery systems as a promising approach for the treatment of many diseases, such as cardiovascular diseases and cancer. In this field, one of the major challenges is carrier margination propensity (i.e., particle migration from blood flow to vessel walls); indeed, binding of these particles to targeted cells and tissues is only possible if there is direct carrier-wall interaction. Here, a microfluidic system mimicking the hydrodynamic conditions of human microcirculation in vitro is used to investigate the effect of red blood cells (RBCs) on a carrier margination in relation to RBC concentration (hematocrit) and pressure drop. As model drug carriers, fluorescent polymeric nanoparticles (FNPs) were chosen, which were obtained by using as starting material a pegylated polylactic acid-polyaspartamide copolymer. The latter was synthesized by derivatization of α,β-poly(N-2-hydroxyethyl)-D,L-aspartamide (PHEA) with Rhodamine (RhB), polylactic acid (PLA) and then poly(ethyleneglycol) (PEG) chains. It was found that the carrier concentration near the wall increases with increasing pressure drop, independently of RBC concentration, and that the tendency for FNP margination decreases with increasing hematocrit. This work highlights the importance of taking into account RBC-drug carrier interactions and physiological conditions in microcirculation when planning a drug delivery strategy based on systemically administered carriers. [ABSTRACT FROM AUTHOR]

Published

2017

29. Folate-mediated targeting of polymeric conjugates of gemcitabine

Author

Gennara, Cavallaro, Mariano, Licciardi, Licciardi, Mariano, Stefano, Salmaso, Paolo, Caliceti, Giammona, Gaetano, CAVALLARO G, LICCIARDI M, SALMASO S, CALICETI P, and GIAMMONA G

Subjects

Antimetabolites, Antineoplastic, Time Factors, Stereochemistry, Cell Survival, polyaspartamide, Chemical structure, Pharmaceutical Science, Receptors, Cell Surface, Conjugated system, Deoxycytidine, Drug Delivery Systems, Folic Acid, Cell Line, Tumor, folate-mediated targeting, Extracellular, Humans, Prodrugs, Incubation, Polyhydroxyethyl Methacrylate, Drug Carriers, Dose-Response Relationship, Drug, Chemistry, polymeric conjugate, Folate Receptors, GPI-Anchored, Succinates, Hydrogen-Ion Concentration, Gemcitabine, In vitro, Biochemistry, Cell culture, Carrier Proteins, Macromolecule, Conjugate

Abstract

The synthesis of two new macromolecular prodrugs for active tumor targeting was set up. Gemcitabine (2'-deoxy-2',2'-difluorocytidine) was conjugated to alpha,beta-poly(N-2-hydroxyethyl)-DL-aspartamide (PHEA) through succinyl or diglycolyl hydrolysable spacers. The targeting agent folic acid was attached to the macromolecular backbone through the aminocaproic spacer. The two conjugates [PHEA-(5'-succinylgemcitabine)-1'-carboxypentyl-folamide and PHEA-(5'-diglycolyl-gemcitabine)-1'-carboxypentyl-folamide], were purified and extensively characterised by spectroscopic (UV, IR and NMR) and chromatographic analyses to determine the correct chemical structure, the purity degree and the reaction yield. In vitro studies demonstrated that the drug release depends on the spacer arm (diglycolyil or succinyl) and incubation pH. After 30 h incubation at pH 7.4, mimicking the plasma and extracellular compartments, the gemcitabine release from the succinyl and diglycolyl derivatives was 28 and 31%, respectively. After 30 h incubation at pH 5.5, mimicking the lisosomial compartment, the drug released from both bioconjugates was lower than 13%. In plasma, the polymer conjugation increased the drug stability and provided for a sustained drug release. In vitro citotoxicity studies performed using human nasopharyngeal epidermal carcinoma KB cells demonstrated that PHEA-(5'-succinylgemcitabine)-1'-carboxypentyl-folamide displays an higher dose dependent cytotoxic effect with respect to PHEA-(5'-diglycolyl-gemcitabine)-1'-carboxypentyl-folamide.

Published

2005

30. Controlled delivery of sildenafil by β-Cyclodextrin-decorated sulfur-doped carbon nanodots: a synergistic activation of ROS signaling in tumors overexpressing PDE-5.

Author

Mauro, Nicolò, Cillari, Roberta, Andrea Utzeri, Mara, Costa, Salvatore, Giammona, Gaetano, Nicosia, Aldo, and Cavallaro, Gennara

Subjects

*SILDENAFIL, *GENETIC overexpression, *ELECTRON transport, *CANCER cells, *DRUG carriers, *REACTIVE oxygen species

Abstract

[Display omitted] Fluorescent sulfur- and nitrogen-doped carbon nanodots (CDs) are zero-dimensional nanoparticles that mediate ROS production in cancer cells, displaying inherent anticancer properties. Thus, they have been proposed as nanotheranostic tools useful in image-guided cancer therapy. Here, we try to show that cancerous cells (high PDE-5 expression) receiving sildenafil delivered by CDs-based nanostructures promote positive reinforcement of PDE-5-mediated cell death via the overexpression of genes involved in the production of ROS. We explored the regioselective Huisgen cycloaddition between azide-β-cyclodextrin and CDs-alkyne to synthetize homogeneous nanostructures, named CDs-PEG 4 -β-Cdx, consisting of CDs functionalized at the surface with β-cyclodextrins capable of including high amount drugs such as sildenafil (>20 % w/w), and releasing them in a controlled manner. We investigated how CDs-PEG 4 -β-Cdx bearing sildenafil enter cells, enhancing ROS production and cell death specifically in cancer cells overexpressing PDE-5. These nanoplatforms go beyond the bounds of EPR-based nanomedicines in which carriers are conceived as inert vehicles of toxic drugs. Our findings enable the development of clever anticancer nanoplatforms that synergistically combine nanomedicines that perturb the mitochondrial electron transport chain (ROS production) with PDE-5 inhibitors which trigger oxidative stress specifically in cancer cells regardless of their location. [ABSTRACT FROM AUTHOR]

Published

2023

31. Gold nanostar–polymer hybrids for siRNA delivery: Polymer design towards colloidal stability and in vitro studies on breast cancer cells.

Author

Sardo, Carla, Bassi, Barbara, Craparo, Emanuela F., Scialabba, Cinzia, Cabrini, Elisa, Dacarro, Giacomo, D’Agostino, Agnese, Taglietti, Angelo, Giammona, Gaetano, Pallavicini, Piersandro, and Cavallaro, Gennara

Subjects

*DRUG carriers, *DRUG delivery systems, *GOLD nanoparticles, *SMALL interfering RNA, *BIOAVAILABILITY, *GENE silencing, *THERAPEUTICS

Abstract

To overcome the low bioavailability of siRNA (small interfering RNA) and to improve their transfection efficiency, the use of non-viral delivery carriers is today a feasible approach to transform the discovery of these incredibly potent and versatile drugs into clinical practice. Polymer-modified gold nanoconstructs (AuNCs) are currently viewed as efficient and safe intracellular delivery carriers for siRNA, as they have the possibility to conjugate the ability to stably entrap and deliver siRNAs inside cells with the advantages of gold nanoparticles, which can act as theranostic agents and radiotherapy enhancers through laser-induced hyperthermia. In this study, AuNCs were prepared by coating Gold Nano Stars (GNS) with suitable functionalised polymers, to give new insight on the choice of the coating in order to obtain colloidal stability, satisfying in vitro transfection behaviour and reliability in terms of homogeneous results upon GNS type changing. For this goal, GNS synthesized with three different sizes and shapes were coated with two different polymers: i) α-mercapto-ω-amino polyethylene glycol 3000 Da (SH-PEG 3000 -NH 2 ), a hydrophilic linear polymer; ii) PHEA-PEG 2000 -EDA-LA (PPE-LA), an amphiphilic hydroxyethylaspartamide copolymer containing a PEG moiety. Both polymers contain SH or SS groups for anchoring on gold surface and NH 2 groups, which can be protonated in order to obtain a positive surface for successive siRNA layering. The effect of the features of the coating polymers on siRNA layering, and the extent of intracellular uptake and luciferase gene silencing effect were evaluated for each of the obtained coated GNS. The results highlight that amphiphilic biocompatible polymers with multi-grafting function are more suitable for ensuring the colloidal stability and the effectiveness of these colloidal systems, compared to the coating with linear PEG. [ABSTRACT FROM AUTHOR]

Published

2017

32. Salmeterol Xinafoate (SX) loaded into mucoadhesive solid lipid microparticles for COPD treatment

Author

Donatella Valenti, Maria Letizia Manca, Elisabetta Pace, Maria Ferraro, Maria Luisa Bondì, Mark Gjomarkaj, Erika Amore, Serena Di Vincenzo, Valeria La Parola, Gaetano Giammona, Amore, Erika, Manca, Maria Letizia, Ferraro, Maria, Valenti, Donatella, La Parola, Valeria, Di Vincenzo, Serena, Gjomarkaj, Mark, Giammona, Gaetano, Bondì, Maria Luisa, and Pace, Elisabetta

Subjects

Agonist, Drug, Alginates, Cell Survival, medicine.drug_class, media_common.quotation_subject, Sodium alginate polymer, Pharmaceutical Science, Chronic obstructive pulmonary disease (COPD), Inflammation, 02 engineering and technology, Pharmacology, 030226 pharmacology & pharmacy, Cell Line, Pulmonary Disease, Chronic Obstructive, 03 medical and health sciences, 0302 clinical medicine, cAMP, medicine, Humans, Aerodynamic diameter, Adrenergic beta-2 Receptor Agonists, Salmeterol Xinafoate, media_common, Drug Carriers, COPD, Inhalation, Chemistry, Therapeutic effect, Adhesiveness, 021001 nanoscience & nanotechnology, medicine.disease, Lipids, SALMETEROL XINAFOATE, Bronchodilator Agents, respiratory tract diseases, Salmeterol Xinafoate (SX), Mucus, medicine.symptom, 0210 nano-technology

Abstract

Chronic obstructive pulmonary disease (COPD) is one of the main health problems worldwide. It is characterised by chronic inflammation in the lungs that leads to progressive, chronic, largely irreversible airflow obstruction. The use of long-acting β agonists remain today the frontline treatment for COPD with the aim of minimizing side effects and enhancing therapeutic usefulness. To this purpose, in this paper, mucoadhesive solid lipid microparticles (SLMs) containing a long-acting β-2 agonist, Salmeterol Xinafoate (SX) were prepared, characterised (size, z-potential, aerodynamic diameter, turbidimetric evaluations, drug loading and entrapping efficiency) and tested in a model of bronchial epithelial cells. It was demonstrated that the incorporation of SX into SLMs led to the production of particles suitable for inhalation and more efficient than the free molecule at increasing the cAMP expression in bronchial epithelial cells. In conclusion, the prepared systems, due to their aerodynamic behaviour and mucoadhesive properties, could improve the retention time of SX in the lung epithelium and its therapeutic effect, thus representing a good strategy for the treatment of COPD patients.

Published

2019

33. Core-Shell Arginine-Containing Chitosan Microparticles for Enhanced Transcorneal Permeation of Drugs

Author

Paola Varvarà, Gaetano Giammona, Nicolò Mauro, Mariano Licciardi, Gennara Cavallaro, Giulia Di Prima, Mauro, Nicolò, Di Prima, Giulia, Varvarà, Paola, Licciardi, Mariano, Cavallaro, Gennara, and Giammona, Gaetano

Subjects

Drug, congenital, hereditary, and neonatal diseases and abnormalities, Arginine, Swine, media_common.quotation_subject, amphiphilic copolymer, Pharmaceutical Science, L-arginine, Administration, Ophthalmic, 02 engineering and technology, 030226 pharmacology & pharmacy, Cornea, Chitosan, 03 medical and health sciences, chemistry.chemical_compound, Drug Delivery Systems, 0302 clinical medicine, Mucoadhesion, Side chain, Animals, skin and connective tissue diseases, Protein Kinase Inhibitors, media_common, Mucin-3, microparticles, Drug Carriers, Mucin, nutritional and metabolic diseases, Sorafenib, Permeation, 021001 nanoscience & nanotechnology, Combinatorial chemistry, Bioavailability, Drug Liberation, microparticle, chemistry, Settore CHIM/09 - Farmaceutico Tecnologico Applicativo, ocular administration, chitosan, 0210 nano-technology, mucoadhesion

Abstract

Chitosan oligosaccharide (C) was functionalized with L-arginine (A) and short hydrocarbon chains (C-8) to design an amphiphilic copolymer, henceforth CAC(8), leading to microparticles (MPs) consisting of an arginine-decorated hydrophilic shell and inner hydrophobic domains allowing the encapsulation of high amount hydrophobic drugs such as sorafenib tosylate (>10% w/w). L-arginine side chains were selected in order to impart the final MPs enhanced transcorneal penetration properties, thus overcoming the typical biological barriers which hamper the absorption of drugs upon topical ocular administration. The mucoadhesive properties and drug release profile of the CAC(8) MPs (CAC(8)-MPs) were studied, showing that CAC(8)-MPs can strongly interact with mucin, and thus gradually release their payload in situ to potentially improve the bioavailability of the drug after topical administration. In vitro transcorneal studies also showed that CAC(8)-MPs are endowed with effective permeation enhancer ability combined with negligible toxicity. (c) 2019 American Pharmacists Association (R). Published by Elsevier Inc. All rights reserved.

Published

2019

34. Nanometric ion pair complexes of tobramycin forming microparticles for the treatment of Pseudomonas aeruginosa infections in cystic fibrosis

Author

Roberto Santucci, Davide De Rocco, Gennara Cavallaro, Gaetano Giammona, Enea Gino Di Domenico, Fiorentina Ascenzioni, Carla Sardo, Barbara Porsio, Sardo, Carla, Di Domenico, Enea Gino, Porsio, Barbara, De Rocco, Davide, Santucci, Roberto, Ascenzioni, Fiorentina, Giammona, Gaetano, and Cavallaro, Gennara

Subjects

Pseudomonas aeruginosa infection, pseudomonas aeruginosa infections, Biocompatibility, Cystic Fibrosis, α, Pharmaceutical Science, 02 engineering and technology, medicine.disease_cause, 030226 pharmacology & pharmacy, Cystic fibrosis, Cell Line, 03 medical and health sciences, 0302 clinical medicine, Ion-pair complex, medicine, Tobramycin, Humans, Pseudomonas Infections, Microparticle, α,β-Poly-(N-2-hydroxyethyl)-dl-aspartamide (PHEA), β-Poly-(N-2-hydroxyethyl)-dl-aspartamide (PHEA), chemistry.chemical_classification, Drug Carriers, Aqueous solution, Pseudomonas aeruginosa, Biofilms, Cystic fibrosis artificial mucus (CF-AM), Pseudomonas aeruginosa infections, Biofilm, Polymer, cystic fibrosis artificial mucus (CF-AM), 021001 nanoscience & nanotechnology, medicine.disease, Anti-Bacterial Agents, Mucus, chemistry, Biophysics, Nanoparticles, 0210 nano-technology, Peptides, medicine.drug

Abstract

Sustained pulmonary delivery of tobramycin from microparticles composed of drug/polymer nanocomplexes offers several advantages against traditional delivery methods. Namely, in patients with cystic fibrosis, microparticle delivery can protect the tobramycin being delivered from strong mucoadhesive interactions, thus avoiding effects on its diffusion toward the infection site. Polymeric ion-pair complexes were obtained starting from two synthetic polyanions, through impregnation of their solid dissociated forms with tobramycin in aqueous solution. The structure of these polymeric systems was characterized, and their activities were examined against various biofilm-forming Pseudomonas aeruginosa. Once dried, the nanocomplexes can change their aggregation state, to form microparticle-based aggregates with a spherical shape and a micrometer size. In aqueous dispersions, the ion-pair complexes produced had nanometric size, negative ζ potential, and high biocompatibility toward human bronchial epithelium cells. The antibiofilm activity of these formulations was more efficient than for free tobramycin, with the antibiofilm activity against P. aeruginosa mucoid and nonmucoid end-stage strains isolated from cystic fibrosis lungs being of particular relevance.

Published

2019