Your search keyword '"Cassari, Leonardo"' showing total 12 results

1. Strategies for the Covalent Anchoring of a BMP-2-Mimetic Peptide to PEEK Surface for Bone Tissue Engineering.

Author

Cassari, Leonardo, Zamuner, Annj, Messina, Grazia Maria Lucia, Marsotto, Martina, Chang, Hao-chen, Coward, Trevor, Battocchio, Chiara, Iucci, Giovanna, Marletta, Giovanni, Di Silvio, Lucy, and Dettin, Monica

Subjects

*TISSUE engineering, *PEPTIDES, *TISSUE mechanics, *ATOMIC force microscopy, *AZIDO group

Abstract

Researchers in the field of tissue engineering are always searching for new scaffolds for bone repair. Polyetheretherketone (PEEK) is a chemically inert polymer that is insoluble in conventional solvents. PEEK's great potential in tissue engineering applications arises from its ability to not induce adverse reactions when in contact with biological tissues and its mechanical properties, which are similar to those of human bone. These exceptional features are limited by the bio-inertness of PEEK, which causes poor osteogenesis on the implant surface. Here, we demonstrated that the covalent grafting of the sequence (48–69) mapped on the BMP-2 growth factor (GBMP1α) significantly enhances the mineralization and gene expression of human osteoblasts. Different chemical methods were employed for covalently grafting the peptide onto 3D-printed PEEK disks: (a) the reaction between PEEK carbonyls and amino-oxy groups inserted in the peptides' N-terminal sites (oxime chemistry) and (b) the photoactivation of azido groups present in the peptides' N-terminal sites, which produces nitrene radicals able to react with PEEK surface. The peptide-induced PEEK surface modification was assessed using X-ray photoelectron measurements, while the superficial properties of the functionalized material were analyzed by means of atomic force microscopy and force spectroscopy. Live and dead assays and SEM measurements showed greater cell cover on functionalized samples than the control, without any cytotoxicity induction. Moreover, functionalization improved the rate of cell proliferation and the amount of calcium deposits, as demonstrated by the AlamarBlue™ and alizarin red results, respectively. The effects of GBMP1α on h-osteoblast gene expression were assayed using quantitative real-time polymerase chain reaction. [ABSTRACT FROM AUTHOR]

Published

2023

2. SARS-CoV-2 S Mutations: A Lesson from the Viral World to Understand How Human Furin Works.

Author

Cassari, Leonardo, Pavan, Angela, Zoia, Giulia, Chinellato, Monica, Zeni, Elena, Grinzato, Alessandro, Rothenberger, Sylvia, Cendron, Laura, Dettin, Monica, and Pasquato, Antonella

Subjects

*SARS-CoV-2, *VIRAL envelope proteins, *AMINO acid sequence, *AMINO acid residues

Abstract

Severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2) is the etiological agent responsible for the worldwide pandemic and has now claimed millions of lives. The virus combines several unusual characteristics and an extraordinary ability to spread among humans. In particular, the dependence of the maturation of the envelope glycoprotein S from Furin enables the invasion and replication of the virus virtually within the entire body, since this cellular protease is ubiquitously expressed. Here, we analyzed the naturally occurring variation of the amino acids sequence around the cleavage site of S. We found that the virus grossly mutates preferentially at P positions, resulting in single residue replacements that associate with gain-of-function phenotypes in specific conditions. Interestingly, some combinations of amino acids are absent, despite the evidence supporting some cleavability of the respective synthetic surrogates. In any case, the polybasic signature is maintained and, as a consequence, Furin dependence is preserved. Thus, no escape variants to Furin are observed in the population. Overall, the SARS-CoV-2 system per se represents an outstanding example of the evolution of substrate–enzyme interaction, demonstrating a fast-tracked optimization of a protein stretch towards the Furin catalytic pocket. Ultimately, these data disclose important information for the development of drugs targeting Furin and Furin-dependent pathogens. [ABSTRACT FROM AUTHOR]

Published

2023

3. Bioactive PEEK: Surface Enrichment of Vitronectin-Derived Adhesive Peptides.

Author

Cassari, Leonardo, Zamuner, Annj, Messina, Grazia M. L., Marsotto, Martina, Chen, Hongyi, Gonnella, Giovanni, Coward, Trevor, Battocchio, Chiara, Huang, Jie, Iucci, Giovanna, Marletta, Giovanni, Di Silvio, Lucy, and Dettin, Monica

Subjects

*PEPTIDES, *X-ray photoelectron spectroscopy, *ATOMIC force microscopy, *PROTEOLYSIS, *CELL morphology

Abstract

Polyetheretherketone (PEEK) is a thermoplastic polymer that has been recently employed for bone tissue engineering as a result of its biocompatibility and mechanical properties being comparable to human bone. PEEK, however, is a bio-inert material and, when implanted, does not interact with the host tissues, resulting in poor integration. In this work, the surfaces of 3D-printed PEEK disks were functionalized with: (i) an adhesive peptide reproducing [351–359] h-Vitronectin sequence (HVP) and (ii) HVP retro-inverted dimer (D2HVP), that combines the bioactivity of the native sequence (HVP) with the stability toward proteolytic degradation. Both sequences were designed to be anchored to the polymer surface through specific covalent bonds via oxime chemistry. All functionalized PEEK samples were characterized by Water Contact Angle (WCA) measurements, Atomic Force Microscopy (AFM), and X-ray Photoelectron Spectroscopy (XPS) to confirm the peptide enrichment. The biological results showed that both peptides were able to increase cell proliferation at 3 and 21 days. D2HVP functionalized PEEK resulted in an enhanced proliferation across all time points investigated with higher calcium deposition and more elongated cell morphology. [ABSTRACT FROM AUTHOR]

Published

2023

4. Covalently Grafted Peptides to Decellularized Pericardium: Modulation of Surface Density.

Author

Cassari, Leonardo, Todesco, Martina, Zamuner, Annj, Imran, Saima Jalil, Casarin, Martina, Sandrin, Deborah, Ródenas-Rochina, Joaquin, Gomez Ribelles, José Luis, Romanato, Filippo, Bagno, Andrea, Gerosa, Gino, and Dettin, Monica

Subjects

*PEPTIDOMIMETICS, *PERICARDIUM, *PEPTIDES, *DIFFERENTIAL scanning calorimetry, *SCHIFF bases, *CONTACT angle

Abstract

The covalent functionalization of synthetic peptides allows the modification of different biomaterials (metallic, polymeric, and ceramic), which are enriched with biologically active sequences to guide cell behavior. Recently, this strategy has also been applied to decellularized biological matrices. In this study, the covalent anchorage of a synthetic peptide (REDV) to a pericardial matrix decellularized via Schiff base is realized starting from concentrated peptide solutions (10−4 M and 10−3 M). The use of a labeled peptide demonstrated that as the concentration of the working solution increased, the surface density of the anchored peptide increased as well. These data are essential to pinpointing the concentration window in which the peptide promotes the desired cellular activity. The matrices were extensively characterized by Water Contact Angle (WCA) analysis, Differential Scanning Calorimetry (DSC) analysis, geometric feature evaluation, biomechanical tests, and preliminary in vitro bioassays. [ABSTRACT FROM AUTHOR]

Published

2023

5. Exploiting Conserved Quorum Sensing Signals in Streptococcus mutans and Streptococcus pneumoniae.

Author

Bernabè, Giulia, Pauletto, Anthony, Zamuner, Annj, Cassari, Leonardo, Castagliuolo, Ignazio, Brun, Paola, and Dettin, Monica

Subjects

QUORUM sensing, STREPTOCOCCUS pneumoniae, STREPTOCOCCUS mutans, PEPTIDES, MICROBIAL communities, BACTERIAL growth

Abstract

Bacterial species of the Streptococcus genera are considered either commensal bacteria or potential pathogens, according to their metabolic evolution and production of quorum sensing (QS)-controlled virulence factors. S. mutans, in particular, has become one of the best-studied examples of bacteria that are able to get along or cheat commensal species, even of the same genera. S. mutans and S. pneumoniae share homolog QS pathways and a competence stimulating peptide (CSP) for regulating bacteriocin production. Intriguingly, the abundance of S. pneumoniae and S. mutans alternates in complex microbial communities, thus opening the role for the fratricide communication of homolog QS systems. Since the inhibition of the QS has been proposed in treating bacterial infections, in this study, we designed and synthesized analogs of S. pneumoniae CSP with precise residual modifications. We reported that S. pneumoniae CSP analogs reduced the expression of genes involved in the QS of S. mutans and biofilm formation without affecting bacterial growth. The CSP analogs inhibited bacteriocin production in S. mutans, as reported by co-cultures with commensal bacteria of the oral cavity. The peptide CSP1AA, bearing substitutions in the residues involved in QS receptor recognition and activation, reported the most significant quorum-quenching activities. Our findings provide new insights into specific chemical drivers in the CSP sequences controlling the interconnection between S. mutans and S. pneumoniae. We think that the results reported in this study open the way for new therapeutic interventions in controlling the virulence factors in complex microbial communities such as the oral microbiota. [ABSTRACT FROM AUTHOR]

Published

2022

6. Development of Two-Layer Hybrid Scaffolds Based on Oxidized Polyvinyl Alcohol and Bioactivated Chitosan Sponges for Tissue Engineering Purposes.

Author

Stocco, Elena, Barbon, Silvia, Zeni, Elena, Cassari, Leonardo, Zamuner, Annj, Gloria, Antonio, Russo, Teresa, Boscolo-Berto, Rafael, Sfriso, Maria Martina, Macchi, Veronica, De Caro, Raffaele, Dettin, Monica, and Porzionato, Andrea

Subjects

TISSUE scaffolds, TISSUE engineering, CHITOSAN, SCANNING electron microscopy, PERIPHERAL nerve injuries, POLYCAPROLACTONE

Abstract

Oxidized polyvinyl alcohol (OxPVA) is a new polymer for the fabrication of nerve conduits (NCs). Looking for OxPVA device optimization and coupling it with a natural sheath may boost bioactivity. Thus, OxPVA/chitosan sponges (ChS) as hybrid scaffolds were investigated to predict in the vivo behaviour of two-layered NCs. To encourage interaction with cells, ChS were functionalized with the self-assembling-peptide (SAP) EAK, without/with the laminin-derived sequences -IKVAV/-YIGSR. Thus, ChS and the hybrid scaffolds were characterized for mechanical properties, ultrastructure (Scanning Electron Microscopy, SEM), bioactivity, and biocompatibility. Regarding mechanical analysis, the peptide-free ChS showed the highest values of compressive modulus and maximum stress. However, among +EAK groups, ChS+EAK showed a significantly higher maximum stress than that found for ChS+EAK-IKVAV and ChS+EAK-YIGSR. Considering ultrastructure, microporous interconnections were tighter in both the OxPVA/ChS and +EAK groups than in the others; all the scaffolds induced SH-SY5Y cells' adhesion/proliferation, with significant differences from day 7 and a higher total cell number for OxPVA/ChS+EAK scaffolds, in accordance with SEM. The scaffolds elicited only a slight inflammation after 14 days of subcutaneous implantation in Balb/c mice, proving biocompatibility. ChS porosity, EAK 3D features and neuro-friendly attitude (shared with IKVAV/YIGSR motifs) may confer to OxPVA certain bioactivity, laying the basis for future appealing NCs. [ABSTRACT FROM AUTHOR]

Published

2022

7. Mn-Containing Bioactive Glass-Ceramics: BMP-2-Mimetic Peptide Covalent Grafting Boosts Human-Osteoblast Proliferation and Mineral Deposition.

Author

Cassari, Leonardo, Brun, Paola, Di Foggia, Michele, Taddei, Paola, Zamuner, Annj, Pasquato, Antonella, De Stefanis, Adriana, Valentini, Veronica, Saceleanu, Vicentiu Mircea, Rau, Julietta V., and Dettin, Monica

Subjects

*PEPTIDES, *GLASS-ceramics, *OSTEOBLASTS, *GRAM-positive bacteria, *CALCIUM salts, *GRAM-negative bacteria

Abstract

The addition of Mn in bioceramic formulation is gaining interest in the field of bone implants. Mn activates human osteoblast (h-osteoblast) integrins, enhancing cell proliferation with a dose-dependent effect, whereas Mn-enriched glasses induce inhibition of Gram-negative or Gram-positive bacteria and fungi. In an effort to further optimize Mn-containing scaffolds' beneficial interaction with h-osteoblasts, a selective and specific covalent functionalization with a bioactive peptide was carried out. The anchoring of a peptide, mapped on the BMP-2 wrist epitope, to the scaffold was performed by a reaction between an aldehyde group of the peptide and the aminic groups of silanized Mn-containing bioceramic. SEM-EDX, FT-IR, and Raman studies confirmed the presence of the peptide grafted onto the scaffold. In in vitro assays, a significant improvement in h-osteoblast proliferation, gene expression, and calcium salt deposition after 7 days was detected in the functionalized Mn-containing bioceramic compared to the controls. [ABSTRACT FROM AUTHOR]

Published

2022

8. Biomimetic scaffolds based on oxidized polyvinyl alcohol and functionalized chitosan sponges for peripheral nerve regeneration.

Author

Barbon, Silvia, Stocco, Elena, Zeni, Elena, Cassari, Leonardo, Boscolo-Berto, Rafael, Confalonieri, Marta, Gloria, Antonio, Russo, Teresa, Macchi, Veronica, Dettin, Monica, De Caro, Raffaele, and Porzionato, Andrea

Subjects

POLYVINYL alcohol, NERVOUS system regeneration, PERIPHERAL nervous system, CHITOSAN, BIOMIMETIC materials, PERIPHERAL nerve injuries

Abstract

The article offers information about the biomimetic scaffolds based on oxidized polyvinyl alcohol and functionalized chitosan sponges for peripheral nerve regeneration . It explores the fabrication of biohybrid scaffolds made of chitosan sponges functionalized with the self-assembling peptide EAK +/- binding of laminin-derived adhesive sequences.

Published

2022

9. Chitosan Covalently Functionalized with Peptides Mapped on Vitronectin and BMP-2 for Bone Tissue Engineering.

Author

Brun, Paola, Zamuner, Annj, Cassari, Leonardo, D'Auria, Gabriella, Falcigno, Lucia, Franchi, Stefano, Contini, Giorgio, Marsotto, Martina, Battocchio, Chiara, Iucci, Giovanna, and Dettin, Monica

Subjects

BIOPOLYMERS, TISSUE engineering, VITRONECTIN, FOURIER transform infrared spectroscopy, PEPTIDES, PEPTIDOMIMETICS, CHITOSAN, POLYCAPROLACTONE

Abstract

Worldwide, over 20 million patients suffer from bone disorders annually. Bone scaffolds are designed to integrate into host tissue without causing adverse reactions. Recently, chitosan, an easily available natural polymer, has been considered a suitable scaffold for bone tissue growth as it is a biocompatible, biodegradable, and non-toxic material with antimicrobial activity and osteoinductive capacity. In this work, chitosan was covalently and selectively biofunctionalized with two suitably designed bioactive synthetic peptides: a Vitronectin sequence (HVP) and a BMP-2 peptide (GBMP1a). Nuclear magnetic resonance (NMR), X-ray photoelectron spectroscopy (XPS), and Fourier transform infrared spectroscopy (FT-IR) investigations highlighted the presence of the peptides grafted to chitosan (named Chit-HVP and Chit-GBMP1a). Chit-HVP and Chit-GBMP1a porous scaffolds promoted human osteoblasts adhesion, proliferation, calcium deposition, and gene expression of three crucial osteoblast proteins. In particular, Chit-HVP highly promoted adhesion and proliferation of osteoblasts, while Chit-GBMP1a guided cell differentiation towards osteoblastic phenotype. [ABSTRACT FROM AUTHOR]

Published

2021

10. Bio-Functionalized Chitosan for Bone Tissue Engineering.

Author

Brun, Paola, Zamuner, Annj, Battocchio, Chiara, Cassari, Leonardo, Todesco, Martina, Graziani, Valerio, Iucci, Giovanna, Marsotto, Martina, Tortora, Luca, Secchi, Valeria, and Dettin, Monica

Subjects

CHITOSAN, TISSUE engineering, BIOMATERIALS, BIOMIMETIC materials, ANTIBACTERIAL agents, POLYSACCHARIDES

Abstract

Hybrid biomaterials allow for the improvement of the biological properties of materials and have been successfully used for implantology in medical applications. The covalent and selective functionalization of materials with bioactive peptides provides favorable results in tissue engineering by supporting cell attachment to the biomaterial through biochemical cues and interaction with membrane receptors. Since the functionalization with bioactive peptides may alter the chemical and physical properties of the biomaterials, in this study we characterized the biological responses of differently functionalized chitosan analogs. Chitosan analogs were produced through the reaction of GRGDSPK (RGD) or FRHRNRKGY (HVP) sequences, both carrying an aldehyde-terminal group, to chitosan. The bio-functionalized polysaccharides, pure or "diluted" with chitosan, were chemically characterized in depth and evaluated for their antimicrobial activities and biocompatibility toward human primary osteoblast cells. The results obtained indicate that the bio-functionalization of chitosan increases human-osteoblast adhesion (p < 0.005) and proliferation (p < 0.005) as compared with chitosan. Overall, the 1:1 mixture of HVP functionalized-chitosan:chitosan is the best compromise between preserving the antibacterial properties of the material and supporting osteoblast differentiation and calcium deposition (p < 0.005 vs. RGD). In conclusion, our results reported that a selected concentration of HVP supported the biomimetic potential of functionalized chitosan better than RGD and preserved the antibacterial properties of chitosan. [ABSTRACT FROM AUTHOR]

Published

2021

11. Development of Two-Layer Hybrid Scaffolds Based on Oxidized Polyvinyl Alcohol and Bioactivated Chitosan Sponges for Tissue Engineering Purposes

Author

Elena Stocco, Silvia Barbon, Elena Zeni, Leonardo Cassari, Annj Zamuner, Antonio Gloria, Teresa Russo, Rafael Boscolo-Berto, Maria Martina Sfriso, Veronica Macchi, Raffaele De Caro, Monica Dettin, Andrea Porzionato, Stocco, Elena, Barbon, Silvia, Zeni, Elena, Cassari, Leonardo, Zamuner, Annj, Gloria, Antonio, Russo, Teresa, Boscolo-Berto, Rafael, Sfriso, Maria Martina, Macchi, Veronica, De Caro, Raffaele, Dettin, Monica, and Porzionato, Andrea

Subjects

Polymers, Biocompatible Materials, chitosan sponge, hybrid scaffold, Catalysis, Inorganic Chemistry, Mice, Neuroblastoma, chitosan sponges, hybrid scaffolds, mechanical analysis, nerve conduits, nerve regeneration, oxidized polyvinyl alcohol, peripheral nerve injury, self-assembling peptides, nerve conduit, Animals, Humans, Physical and Theoretical Chemistry, Molecular Biology, Spectroscopy, Chitosan, Tissue Engineering, Tissue Scaffolds, Organic Chemistry, General Medicine, mechanical analysi, Computer Science Applications, Polyvinyl Alcohol, Laminin, Porosity

Abstract

Oxidized polyvinyl alcohol (OxPVA) is a new polymer for the fabrication of nerve conduits (NCs). Looking for OxPVA device optimization and coupling it with a natural sheath may boost bioactivity. Thus, OxPVA/chitosan sponges (ChS) as hybrid scaffolds were investigated to predict in the vivo behaviour of two-layered NCs. To encourage interaction with cells, ChS were functionalized with the self-assembling-peptide (SAP) EAK, without/with the laminin-derived sequences -IKVAV/-YIGSR. Thus, ChS and the hybrid scaffolds were characterized for mechanical properties, ultrastructure (Scanning Electron Microscopy, SEM), bioactivity, and biocompatibility. Regarding mechanical analysis, the peptide-free ChS showed the highest values of compressive modulus and maximum stress. However, among +EAK groups, ChS+EAK showed a significantly higher maximum stress than that found for ChS+EAK-IKVAV and ChS+EAK-YIGSR. Considering ultrastructure, microporous interconnections were tighter in both the OxPVA/ChS and +EAK groups than in the others; all the scaffolds induced SH-SY5Y cells’ adhesion/proliferation, with significant differences from day 7 and a higher total cell number for OxPVA/ChS+EAK scaffolds, in accordance with SEM. The scaffolds elicited only a slight inflammation after 14 days of subcutaneous implantation in Balb/c mice, proving biocompatibility. ChS porosity, EAK 3D features and neuro-friendly attitude (shared with IKVAV/YIGSR motifs) may confer to OxPVA certain bioactivity, laying the basis for future appealing NCs.

Published

2022

12. Proprotein convertases regulate trafficking and maturation of key proteins within the secretory pathway.

Author

Cendron L, Rothenberger S, Cassari L, Dettin M, and Pasquato A

Subjects

Humans, Proprotein Convertase 9 metabolism, Furin metabolism, Pandemics, Secretory Pathway, SARS-CoV-2 metabolism, Proprotein Convertases chemistry, Proprotein Convertases metabolism, COVID-19

Abstract

Proprotein Convertases (PCs) are serine endoproteases that regulate the homeostasis of protein substrates in the cell. The PCs family counts 9 members-PC1/3, PC2, PC4, PACE4, PC5/6, PC7, Furin, SKI-1/S1P, and PCSK9. The first seven PCs are known as Basic Proprotein Convertases due to their propensity to cleave after polybasic clusters. SKI-1/S1P requires the additional presence of hydrophobic residues for processing, whereas PCSK9 is catalytically dead after autoactivation and exerts its functions using mechanisms alternative to direct cleavage. All PCs traffic through the canonical secretory pathway, reaching different compartments where the various substrates reside. Despite PCs members do not share the same subcellular localization, most of the cellular organelles count one or more Proprotein Convertases, including ER, Golgi stack, endosomes, secretory granules, and plasma membranes. The widespread expression of these enzymes at the systemic level speaks for their importance in the homeostasis of a large number of biological functions. Among others, PCs cleave precursors of hormones and growth factors and activate receptors and transcription factors. Notably, dysregulation of the enzymatic activity of Proprotein Convertases is associated to major human pathologies, such as cardiovascular diseases, cancer, diabetes, infections, inflammation, autoimmunity diseases, and Parkinson. In the current COVID-19 pandemic, Furin has further attracted the attention as a key player for conferring high pathogenicity to SARS-CoV-2. Here, we review the Proprotein Convertases family and their most important substrates along the secretory pathway. Knowledge about the complex functions of PCs is important to identify potential drug strategies targeting this class of enzymes., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published

2023