Your search keyword '"Licciardi, M."' showing total 7 results

1. Self-organized environment-sensitive inulin–doxorubicin conjugate with a selective cytotoxic effect towards cancer cells.

Author

Mauro, N., Campora, S., Scialabba, C., Adamo, G., Licciardi, M., Ghersi, G., and Giammona, G.

Published

2015

2. Bisphosphonate-polyaspartamide conjugates as bone targeted drug delivery systems[†].

Author

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

Abstract

Poly-hydroxy-aspartamide was used as a backbone to synthesize bisphosphonate derivatives thus achieving macromolecular carriers to be potentially used as targeting agents for bone drug delivery. Molecules bearing bisphosphonate groups, such as aminobisphosphonate (ABP) and neridronate (NRD), have been conjugated to polyaspartamide (α,β-poly(N-2-hydroxyethyl)-DL-aspartamide, PHEA), with or without a spacer (succinic acid or 6-aminocaproic acid) thus obtaining PHEA-succinate-ABP and PHEA-caproylcarbamate-ABP and PHEA-ABP and PHEA-NRD, respectively. Bisphosphonate-polymer conjugates were physico-chemically characterized using size exclusion chromatography and 1H-NMR; and their in vitro and ex vivo affinity for bone tissue has been further tested using the hydroxylapatite and rabbit bone binding assays, respectively. In vivo studies were carried out using rats to evaluate the biodistribution features of bisphosphonate-polymer conjugates in comparison with the starting PHEA. In vivo findings evidenced a suitable selectivity of bisphosphonate-polymer conjugates toward the bone tissues also as a function of time. [ABSTRACT FROM AUTHOR]

Published

2015

3. Amphiphilic inulin graft co-polymers as self-assembling micelles for doxorubicin delivery.

Author

Licciardi, M., Scialabba, C., Sardo, C., Cavallaro, G., and Giammona, G.

Abstract

This paper reports the synthesis and characterization of a new amphiphilic inulin graft copolymer able to self-assemble in water into a micelle type structure and to deliver the anticancer model drug doxorubicin. For this aim, inulin was chemically modified in the side chain with primary amine groups (INU-EDA) and these were used as reactive moieties for the conjugation of poly ethylene glycol 2000 and succinyl-ceramide. The CMC of obtained amphiphilic inulin derivatives (INU-ceramide and INU-ceramide-PEG2000) was measured by means of fluorescence analysis using pyrene as the fluorescent probe. The obtained micelles were characterized by DLS and AFM analysis and the ability to release the loaded doxorubicin was studied in different media. Finally the cytotoxicity profile on both cancer (HCT116) and normal (16 HBE) cell lines and in vitro ability to deliver the drug into cancer cells were evaluated. [ABSTRACT FROM AUTHOR]

Published

2014

4. Hyaluronan-coated polybenzofulvene brushes as biomimetic materials

Author

Germano Giuliani, Alessandro Donati, Francesco Makovec, Giorgio Grisci, Filippo Samperi, Claudia Bonechi, Andrea Cappelli, Raniero Mendichi, Mariano Licciardi, Marco Paolino, Vincenzo Razzano, Gaetano Giammona, Salvatore Battiato, Cinzia Scialabba, Cappelli, A., Paolino, M., Grisci, G., Razzano, V., Giuliani, G., Donati, A., Bonechi, C., Mendichi, R., Battiato, S., Samperi, F., Scialabba, C., Giammona, G., Makovec, F., and Licciardi, M.

Subjects

polymer brush, Polymers and Plastics, Hyaluronic acid, Biomedical Engineering, Bioengineering, 02 engineering and technology, 010402 general chemistry, Polymer brush, 01 natural sciences, Biochemistry, chemistry.chemical_compound, Polymer chemistry, Zeta potential, Cell adhesion, Polymers and Plastic, biology, CD44, polybenzofulvene, Organic Chemistry, 021001 nanoscience & nanotechnology, 0104 chemical sciences, chemistry, Settore CHIM/09 - Farmaceutico Tecnologico Applicativo, Drug delivery, biology.protein, Biophysics, 0210 nano-technology, Ethylene glycol, Macromolecule

Abstract

Hyaluronic acid (HA) forms pericellular coats in many cell types that are involved in the early stages of cell adhesion by interacting with the CD44 receptor. Based on the largely recognized overexpression of the CD44 receptor in tumor tissues, a polybenzofulvene molecular brush has been enveloped into hyaluronan shells to obtain a tri-component polymer brush (TCPB) composed of intrinsically fluorescent backbones bearing nona(ethylene glycol) arms terminated with low molecular weight HA macromolecules. The nanoaggregates obtained in TCPB water dispersions were characterized on the basis of dimensions, zeta potential, and in vitro cell toxicity. This biomimetic multifunctional material bearing HA on the surface of its cylindrical brush architecture showed promising prerequisites for the preparation of nanostructured drug delivery systems.

Published

2016

5. Hyaluronan-based graft copolymers bearing aggregation-induced emission fluorogens.

Author

Cappelli A, Paolino M, Reale A, Razzano V, Grisci G, Giuliani G, Donati A, Bonechi C, Lamponi S, Mendichi R, Battiato S, Samperi F, Makovec F, Licciardi M, Depau L, and Botta C

Abstract

In order to develop a technology platform based on two natural compounds from biorenewable resources, a short series of hyaluronan (HA) copolymers grafted with propargylated ferulic acid (HA-FA-Pg) were designed and synthesized to show different grafting degree values and their optical properties were characterized in comparison with reference compounds containing the same ferulate fluorophore. Interestingly, these studies revealed that the ferulate fluorophore was quite sensitive to the restriction of intramolecular motion and its introduction into the rigid HA backbone, as in HA-FA-Pg graft copolymers, led to higher photoluminescence quantum yield values than those obtained with the isolated fluorophore. Thus, the propargyl groups of HA-FA-Pg derivatives were exploited in the coupling with oleic acid through a biocompatible nona(ethylene glycol) spacer as an example of the possible applications of this technology platform. The resulting HA-FA-NEG-OA materials showed self-assembling capabilities in aqueous environment. Furthermore, HA-FA-NEG-OA derivatives have been shown to interact with phospholipid bilayers both in liposomes and living cells, retaining their fluorogenic properties and showing a high degree of cytocompatibility and for this reason they were proposed as potential biocompatible self-assembled aggregates forming new materials for biomedical applications., Competing Interests: The authors declare no competing financial interest., (This journal is © The Royal Society of Chemistry.)

Published

2018

6. Inulin coated plasmonic gold nanoparticles as a tumor-selective tool for cancer therapy.

Author

Li Volsi A, Jimenez de Aberasturi D, Henriksen-Lacey M, Giammona G, Licciardi M, and Liz-Marzán LM

Abstract

Polymer coated gold nanospheres are proposed as a tumor selective carrier for the anticancer drug doxorubicin. Thiolated polyethyleneglycol (PEG-SH) and an inulin-amino derivative based copolymer (INU-EDA) were used as stabilizing and coating materials for 40 nm gold nanospheres. The resulting polymer coated gold nanospheres (Au@PEG-INU) showed excellent physicochemical stability and potential stealth like behavior. The system was loaded with doxorubicin (Au@PEG-INU/Doxo) and its cytotoxicity profile was evaluated on human cervical cancer cells (HeLa) and lung cancer cells (A549), as compared to Au@PEG-INU and doxorubicin alone. Cytotoxicity assays showed that the system is able to drastically reduce cell viability upon incubation for 3 days. This result was supported by the ability of Au@PEG-INU/Doxo to be internalized by cancer cells and to release doxorubicin, as assessed by fluorescence microscopy. Finally, a cancer/non cancer cell co-culture model was used to display the advantageous therapeutic effects of the proposed system with respect to doxorubicin alone, thereby demonstrating the ability of Au@PEG-INU/Doxo to preferentially accumulate in tumor cells due to their enhanced metabolism, and to selectively kill target cells.

Published

2016

7. Polybenzofulvene derivatives bearing dynamic binding sites as potential anticancer drug delivery systems.

Author

Cappelli A, Grisci G, Paolino M, Razzano V, Giuliani G, Donati A, Bonechi C, Mendichi R, Boccia AC, Licciardi M, Scialabba C, Giammona G, and Vomero S

Abstract

In order to obtain new advanced functional materials capable of recognizing drug molecules, the polybenzofulvene backbone of molecular brush poly-6-MOEG-9-TM-BF3k has been functionalized with a "synthetic dynamic receptor" composed of two 1-adamantylurea moieties linked together by means of a dipropyleneamino bridge as in Meijer's bis(adamantylurea) pincer (BAUP). This functional material, bearing synthetic receptors potentially capable of recognizing/loading and then delivering drug molecules, was used to prepare colloidal drug delivery systems (by means of soft interaction with BAUP) for delivering the model anti-cancer drug doxorubicin (DOXO). The resulting nanostructured drug delivery systems containing the physically loaded drug were characterized in terms of drug loading and release, dimensions and zeta potential, and in vitro cell activity and uptake on two different cell lines (i.e. the human bronchial epithelial 16HBE and the human colon cancer HCT116). On normal cells, free DOXO was found to be more cytotoxic than DOXO-loaded nanogels at the higher tested concentration and, only on cancer cells, DOXO-loaded nanogels show similar or slightly higher cytotoxicity values than free DOXO, suggesting potential advantages in the treatment of cancer. These results were supported by fluorescence microscopy studies, which suggested that DOXO-loaded nanogels provide an extracellular reservoir of the drug, which is gradually released and internalized within the cells.

Published

2015