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2. The effects of sulfated hyaluronan in breast, lung and colorectal carcinoma and monocytes/macrophages cells: Its role in angiogenesis and tumor progression

Author

Fiorella M. Spinelli, Paolo Rosales, Stefano Pluda, Daiana L. Vitale, Antonella Icardi, Cristian Guarise, Andrea Reszegi, Ilona Kovalszky, Mariana García, Ina Sevic, Devis Galesso, and Laura Alaniz

Subjects
Lung Neoplasms, Neovascularization, Pathologic, Sulfates, Macrophages, Clinical Biochemistry, Interleukin-8, Biocompatible Materials, Cell Biology, Biochemistry, Monocytes, Hyaluronan Receptors, Genetics, Tumor Microenvironment, Humans, Hyaluronic Acid, Colorectal Neoplasms, Molecular Biology, Lung
Abstract

Hyaluronan (HA) is a component of the extracellular matrix (ECM) it is the main non-sulfated glycosaminoglycan able to modulate cell behavior in the healthy and tumor context. Sulfated hyaluronan (sHA) is a biomaterial derived from chemical modifications of HA, since this molecule is not naturally sulfated. The HA sulfation modifies several properties of the native molecule, acquiring antitumor properties in different cancers. In this study, we evaluated the action of sHA of ~30-60 kDa with different degrees of sulfation (0.7 sHA1 and 2.5 sHA3) on tumor cells of a breast, lung, and colorectal cancer model and its action on other cells of the tumor microenvironment, such as endothelial and monocytes/macrophage cells. Our data showed that in breast and lung tumor cells, sHA3 is able to modulate cell viability, cytotoxicity, and proliferation, but no effects were observed on colorectal cancer cells. In 3D cultures of breast and lung cancer cells, sHA3 diminished the size of the tumorsphere and modulated total HA levels. In these tumor models, treatment of monocytes/macrophages with sHA3 showed a downregulation of the expression of angiogenic factors. We also observed a decrease in endothelial cell migration and modulation of the hyaluronan-binding protein TSG-6. In the breast in vivo xenograft model, monocytes/macrophages preincubated with sHA1 or sHA3 decreased tumor vasculature, TSG-6 and HA levels. Besides, in silico analysis showed an association of TSG-6, HAS2, and IL-8 with biological processes implicated in the progression of the tumor. Taken together, our data indicate that sHA in a breast and lung tumor context is able to induce an antiangiogenic action on tumor cells as well as in monocytes/macrophages (Mo/MØ) by modulation of endothelial migration, angiogenic factors, and vessel formation.

Published
2022

3. Hydrophobic Derivatives of Sulfated Hyaluronic Acid as Drug Delivery Systems for Multi-Target Intra-Articular Treatment of Post-Traumatic Osteoarthritis

Author

Cristian Guarise, Martina Tessari, Mauro Pavan, Stefano Pluda, Alba Di Lucia, Carlo Barbera, and Devis Galesso

Subjects
Sirolimus, Drug Delivery Systems, Sulfates, TOR Serine-Threonine Kinases, Osteoarthritis, Pharmaceutical Science, Humans, TRPV Cation Channels, Water, Hyaluronic Acid, Micelles
Abstract

During osteoarthritis (OA) development, chondrocytes progressively decompensate, upregulating proteolytic enzymes and reducing the key growth factors involved in promoting chondrocyte anabolism. A combined therapeutic approach is needed to address this multifactorial pathology, which affects the whole joint. Based on the literature, three promising targets for OA treatment have been selected: MMP3 (matrix metallopeptidase 3), TRPV4 (transient receptor potential cation channel subfamily V member 4) and mTOR (mammalian target of rapamycin). In this study, a novel water-soluble and biocompatible amphiphilic polymer named "sHA-oleylamide" was synthesized and screened from a series of hyaluronic acid derivatives for its anticatabolic activity. This MMP inhibitor showed no cytotoxicity, and in an in vitro model of inflammatory OA, it reversed the inflammatory outcome at a concentration of 0.011 mg/mL. The ability of sHA-oleylamide to form 20-50 nm micelles in water with a critical micelle concentration of 0.27±0.1 mg/mL, was confirmed by TEM images and measured by Nile red staining. RN-1747 and rapamycin molecules were successfully loaded in sHA-oleylamide, previously prepared at 12 mg/mL in PBS; both formulations were stable, sterile and confirmed in vitro to have mTOR inhibition by rapamycin and TRPV4 activation activity by RN-1747. The controlled release of RN-1747 from the micellar formulation with sHA-oleylamide showed that only approximately 60% of the total loaded RN-1747 was released within 7 days. These micellar formulations can potentially increase the bioavailability and pharmaceutical efficacy of the selected active molecules, combining their anti-catabolic and pro-anabolic activities and making them suitable for i.a. administration as OA treatments.

Published
2022

4. Peptide-Based Inhibitors of ADAM and ADAMTS Metalloproteinases

Author

Stefano Pluda, Ylenia Mazzocato, and Alessandro Angelini

Subjects
0301 basic medicine, QH301-705.5, Mini Review, Peptide, Computational biology, Matrix metalloproteinase, Biology, Biochemistry, Genetics and Molecular Biology (miscellaneous), Biochemistry, Mini review, 03 medical and health sciences, 0302 clinical medicine, Settore BIO/10 - Biochimica, Molecular Biosciences, Biology (General), Molecular Biology, A-disintegrin and metalloproteinase (ADAM), A-disintegrin and metalloproteinase with thrombospondin motifs (ADAMTS), metalloproteinase, peptide inhibitors, linear peptides, cyclic peptides, macrocycles, chemistry.chemical_classification, Metalloproteinase, ADAMTS, linear peptides, Rational design, A-disintegrin and metalloproteinase with thrombospondin motifs (ADAMTS), cyclic peptides, peptide inhibitors, Small molecule, carbohydrates (lipids), 030104 developmental biology, macrocycles, chemistry, 030220 oncology & carcinogenesis, A-disintegrin and metalloproteinase (ADAM), metalloproteinase
Abstract

ADAM and ADAMTS are two large metalloproteinase families involved in numerous physiological processes, such as shedding of cell-surface protein ectodomains and extra-cellular matrix remodelling. Aberrant expression or dysregulation of ADAMs and ADAMTSs activity has been linked to several pathologies including cancer, inflammatory, neurodegenerative and cardiovascular diseases. Inhibition of ADAM and ADAMTS metalloproteinases have been attempted using various small molecules and protein-based therapeutics, each with their advantages and disadvantages. While most of these molecular formats have already been described in detail elsewhere, this mini review focuses solely on peptide-based inhibitors, an emerging class of therapeutic molecules recently applied against some ADAM and ADAMTS members. We describe both linear and cyclic peptide-based inhibitors which have been developed using different approaches ranging from traditional medicinal chemistry and rational design strategies to novel combinatorial peptide-display technologies.

Published
2021

5. Hyaluronic acid-alendronate conjugate: A macromolecular drug delivery system for intra-articular treatment of osteoarthritis

Author

Stefano Pluda, Alba di Lucia, Filippo Gatti, Riccardo Beninatto, Cristian Guarise, Mauro Pavan, Devis Galesso, Carlo Barbera, Lidia Fassina, and Matteo Soato

Subjects
Alendronate, Chemistry, Biological activity, Osteoarthritis, Diseases of the musculoskeletal system, Pharmacology, medicine.disease, Bovine Cartilage, Glycosaminoglycan, chemistry.chemical_compound, RC925-935, Drug delivery, Hyaluronic acid, medicine, Synovial fluid, Bisphosphonate, Viscosupplementation, Intra-articular, Hyaluronan
Abstract

Objective Osteoarthritis (OA) is a painful degenerative disease of the whole joint structure, including articular cartilage, synovial fluid, and subchondral bone. Hyaluronic acid (HA), an anionic non-sulfated glycosaminoglycan, is commonly used for intra-articular (IA) treatment in OA, while bisphosphonates (BPs) are anti-resorptive drugs that act on the bone. Here, a novel conjugate with a covalent and hydrolysable linker between HA and alendronate (ALD) was designed as an attractive therapeutic strategy for IA drug delivery. Design The HA-ALD derivative was synthesized and tested in comparison with a simple mixture of HA and ALD for in vitro ALD release, rheological properties, cytotoxicity towards osteoblasts and chondrocytes and in an in vitro efficacy assay of OA inflammatory model on bovine cartilage explants. Results The structure of HA-ALD was elucidated exhibiting no depolymerization and efficient drug incorporation. The controlled ALD release in vitro was slower compared to the simple mixture of HA and ALD; moreover, the derivative showed calcium-tuned rheological properties. The absence of cytotoxicity towards osteoblasts and chondrocytes was shown for up to 7 days, and the viability of chondrocytes was confirmed by fluorescence microscopy. Finally, a reduction in collagen release and MMP-13 expression was measured in the OA inflammatory model. Conclusion This new HA-ALD derivative opens the door to a new approach for OA treatment, as it combines viscosupplementation and biological effects of HA with the pharmacological activity of BPs. Prolonged ALD release increased rheological properties and beneficial effect against cartilage degradation make it a promising IA therapy for OA.

Published
2021

6. Molecular evolution of peptides by yeast surface display technology

Author

Sara Linciano, Alessandro Angelini, Arianna Bacchin, and Stefano Pluda

Subjects
Pharmacology, chemistry.chemical_classification, Phage display, 010405 organic chemistry, Chemistry, Organic Chemistry, Pharmaceutical Science, Peptide, Computational biology, Yeast display, 01 natural sciences, Biochemistry, Surface display, Yeast, 0104 chemical sciences, 010404 medicinal & biomolecular chemistry, Molecular evolution, Settore BIO/10 - Biochimica, Drug Discovery, Ribosome display, Molecular Medicine, mRNA display
Abstract

Genetically encoded peptides possess unique properties, such as a small molecular weight and ease of synthesis and modification, that make them suitable to a large variety of applications. However, despite these favorable qualities, naturally occurring peptides are often limited by intrinsic weak binding affinities, poor selectivity and low stability that ultimately restrain their final use. To overcome these limitations, a large variety of in vitro display methodologies have been developed over the past few decades to evolve genetically encoded peptide molecules with superior properties. Phage display, mRNA display, ribosome display, bacteria display, and yeast display are among the most commonly used methods to engineer peptides. While most of these in vitro methodologies have already been described in detail elsewhere, this review describes solely the yeast surface display technology and its valuable use for the evolution of a wide range of peptide formats.

Published
2019

7. Dopamine-functionalized sulphated hyaluronic acid as a titanium implant coating enhances biofilm prevention and promotes osseointegration

Author

Devis Galesso, Stefano Pluda, Cristian Guarise, Micol Celestre, Carlo Barbera, and Mauro Pavan

Subjects
0301 basic medicine, Staphylococcus aureus, Prosthesis-Related Infections, Surface Properties, Settore CHIM/05 - Scienza e Tecnologia dei Materiali Polimerici, Dopamine, 02 engineering and technology, Microbial Sensitivity Tests, cathecol, Aquatic Science, engineering.material, Applied Microbiology and Biotechnology, biofilm, Osseointegration, 03 medical and health sciences, chemistry.chemical_compound, Sulfation, Coating, Coated Materials, Biocompatible, Hyaluronic acid, medicine, Alloys, Moiety, Hyaluronic Acid, Environmental scanning electron microscope, Hyaluronan, Water Science and Technology, Titanium, Sulfates, Biofilm, Osteoblast, Ti coating, Prostheses and Implants, Staphylococcal Infections, 021001 nanoscience & nanotechnology, sulphated hyaluronic acid, Anti-Bacterial Agents, 030104 developmental biology, medicine.anatomical_structure, chemistry, Biofilms, engineering, 0210 nano-technology, Nuclear chemistry
Abstract

A series of new hyaluronan derivatives was synthesized and tested as an antibiotic release system by antibacterial and osseointegration assays. Specifically, partially sulphated hyaluronic acid (sHA) was functionalized with dopamine (DA). The DA moiety guarantees good performance as a binding agent for coating a titanium alloy surface; furthermore, the negatively charged sHA has bone regenerative effects and a high binding affinity for positively charged antibiotics. A sHA scaffold with a defined degree of sulphation (DS =2) was selected as a good compromise between a high negative charge density and poor heparin-like anticoagulant activity, while the degree of DA derivatization (17.1%mol) was chosen based on the absence of cytotoxic activity and the promotion of osteoblast proliferation. The titanium alloy coating was investigated indirectly using a fluorescent probe and directly by environmental scanning electron microscope (ESEM) analysis. Long-duration antibiotic release was demonstrated in vitro, and antibacterial efficacy against a Staphylococcus aureus culture was shown.

Published
2018

8. Hyaluronic acid auto-crosslinked polymer (ACP): Reaction monitoring, process investigation and hyaluronidase stability

Author

Cristian Guarise, Devis Galesso, Mauro Pavan, and Stefano Pluda

Subjects
Settore CHIM/05 - Scienza e Tecnologia dei Materiali Polimerici, Iodide, Hyaluronoglucosaminidase, Hyaluronidase, Biocompatible Materials, macromolecular substances, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Biochemistry, Analytical Chemistry, Auto-crosslinked polymer (ACP), Biopolymers, Polymer chemistry, medicine, Hyaluronic Acid, Particle Size, CMPI, Hyaluronan, chemistry.chemical_classification, Chemistry, Quinolinium Compounds, Organic Chemistry, technology, industry, and agriculture, Nucleophilic acyl substitution, Substrate (chemistry), Hydrogels, General Medicine, Polymer, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Solvent, Cross-Linking Reagents, Self-healing hydrogels, Particle size, Rheology, 0210 nano-technology, medicine.drug
Abstract

Hyaluronic Acid (HA) is a non-sulphated glycosaminoglycan that, despite its high molecular weight, is soluble in water and is not resistant to enzymatic degradation, the latter of which hinders its wider application as a biomedical material. Auto-crosslinked polymer (ACP) gels of HA are fully biocompatible hydrogels that exhibit improved viscoelastic properties and prolonged in vivo residence times compared to the native polymer. Crosslinking is achieved through a base-catalysed reaction consisting of the activation of HA carboxyl groups by 2-chloro-1-methylpyridinium iodide (CMPI) and subsequent nucleophilic acyl substitution by the hydroxyl groups of HA in organic solvent. In this study, a number of ACP hydrogels have been obtained via reactions using varying ratios of CMPI to HA. The crosslinking reaction was monitored by rheological measurements in organic solvents during CMPI addition to the reaction mixture. The ACP intermediates, powders and hydrogels were characterized, helping to elucidate the crosslinking process. A two-step mechanism was proposed to explain the observed trends in viscosity and particle size. Syntheses were carried out by varying the reaction temperature, respectively at 0 °C, 25 °C and 45 °C in N-Methyl-2-Pyrrolidone (NMP), as well as the solvent respectively in NMP, DMSO and DMF at 25 °C. Interestingly, varying these parameters did not substantially affect the degree of crosslinking but likely did influence the intra/inter-molecular crosslinking ratio and, therefore, the viscoelastic properties. A wide range of crosslinking densities was confirmed through ESEM analysis. Finally, a comparative hyaluronidase degradation assay revealed that the ACPs exhibited a higher resistance toward enzymatic cleavage at low elastic modulus compared to other more chemically resistant, crosslinked HAs. These observations demonstrated the importance of crosslinking density of matrix structures on substrate availability.

Published
2016

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