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1. The oxidation of d‐galactose into mucic acid (galactaric acid): experimental and computational insights towards a bio‐based platform chemical

Author

Pasquale, A, Chiacchio, M, Acciaretti, F, Della Pergola, R, Legnani, L, Cipolla, L, Pasquale, Andrea, Chiacchio, Maria Assunta, Acciaretti, Federico, Della Pergola, Roberto, Legnani, Laura, Cipolla, Laura, Pasquale, A, Chiacchio, M, Acciaretti, F, Della Pergola, R, Legnani, L, Cipolla, L, Pasquale, Andrea, Chiacchio, Maria Assunta, Acciaretti, Federico, Della Pergola, Roberto, Legnani, Laura, and Cipolla, Laura

Abstract

Aldaric acids are becoming valuable platform chemicals in bioeconomy and circular economy approaches. Among them, mucic acid (meso-galactaric acid) is gaining industrial attention as a bio-based precursor of adipic acid found in polyamides, and of 2,5-furan dicarboxylic acid, a valuable substitute for terephthalic acid in polyesters. A combination of detailed experimental protocols and conditions with DFT computational calculations for the synthesis of mucic acid from galactose are herein described. The product is obtained by reaction with diluted aqueous nitric acid as the oxidizing agent and the reaction medium. Optimized reaction conditions require 5 M nitric acid, 95 °C, galactose/HNO3 molar ratio 1 : 9, 100 g/L galactose concentration in the reaction medium. Computational calculations suggest that the oxidation mechanism may involve a contextual oxygen protonation and nitrate nucleophilic attack, leading to the oxidized product. The proposed mechanism requires a stoichiometry of 6 moles of nitric acid per galactose mole, albeit both experimental and computational data evidence that proton excess may be necessary to start the reaction. The reported study gives useful insights for the production of galactaric acid.

Published
2024

3. Chitosan-Based Biomaterials: Insights into Chemistry, Properties, Devices, and Their Biomedical Applications

Author

Petroni, S, Tagliaro, I, Antonini, C, D’Arienzo, M, Orsini, S, Mano, J, Brancato, V, Borges, J, Cipolla, L, Petroni S., Tagliaro I., Antonini C., D’Arienzo M., Orsini S. F., Mano J. F., Brancato V., Borges J., Cipolla L., Petroni, S, Tagliaro, I, Antonini, C, D’Arienzo, M, Orsini, S, Mano, J, Brancato, V, Borges, J, Cipolla, L, Petroni S., Tagliaro I., Antonini C., D’Arienzo M., Orsini S. F., Mano J. F., Brancato V., Borges J., and Cipolla L.

Abstract

Chitosan is a marine-origin polysaccharide obtained from the deacetylation of chitin, the main component of crustaceans’ exoskeleton, and the second most abundant in nature. Although this biopolymer has received limited attention for several decades right after its discovery, since the new millennium chitosan has emerged owing to its physicochemical, structural and biological properties, multifunctionalities and applications in several sectors. This review aims at providing an overview of chitosan properties, chemical functionalization, and the innovative biomaterials obtained thereof. Firstly, the chemical functionalization of chitosan backbone in the amino and hydroxyl groups will be addressed. Then, the review will focus on the bottom-up strategies to process a wide array of chitosan-based biomaterials. In particular, the preparation of chitosan-based hydrogels, organic–inorganic hybrids, layer-by-layer assemblies, (bio)inks and their use in the biomedical field will be covered aiming to elucidate and inspire the community to keep on exploring the unique features and properties imparted by chitosan to develop advanced biomedical devices. Given the wide body of literature that has appeared in past years, this review is far from being exhaustive. Selected works in the last 10 years will be considered.

Published
2023

5. A novel alkoxysilane-bearing photoreversible cinnamic side group: synthesis, characterization and exploitation in the design of multifunctional silica nanoparticles

Author

Orsini, S, Cipolla, L, Petroni, S, Diré, S, Ceccato, R, Callone, E, Bongiovanni, R, Dalle Vacche, S, Di Credico, B, Mostoni, S, Nistico', R, Raimondo, L, D'Arienzo, M, Orsini, SF, Orsini, S, Cipolla, L, Petroni, S, Diré, S, Ceccato, R, Callone, E, Bongiovanni, R, Dalle Vacche, S, Di Credico, B, Mostoni, S, Nistico', R, Raimondo, L, D'Arienzo, M, and Orsini, SF

Published
2023

6. Starch: a natural polysaccharide for the design of innovative materials

Author

Petroni, S, Orsini, S, D'Arienzo, M, Cipolla, L, Petroni, S, Orsini, S, D'Arienzo, M, and Cipolla, L

Subjects
Starch, polysaccharide
Abstract

Starch in its native structure, is the largest energy source in human and animal diet; moreover it is capturing growing attention as a renewable natural resource in material science. Indeed by chemical, physical or enzymatic modification, it can change its physio-chemical properties and becomes suitable in the food industry as densifier or in packaging as biodegradable plastic (1). This work aims at studying different strategies for the modification of starch in order to introduce a photoresponsive behavior by a cinnamyl group. The photoreversible functionality may allow the cross-linking of starch with other (Bio)(macro)molecules, including inorganic matrices for the design of hybrid materials (see Orsini abstract). Modification of starch was accomplished by different chemistries (i.e. etherification, esterification) in order to optimize the degree of substitution, which is fundamental in determining the subsequent photoreactive process. The experimental determination of the degree of substitution (DS), defined as the average number of functional groups introduced in the anhydro glucose unit (AGU), is a key parameter. In order to properly quantify the degree of substitution DS the 1H-NMR technique is preferred to titration, since titration suffers from lack of accuracy and reproducibility (2). In the 1H-NMR analysis the dissolution of the sample is a key issue for the quantitative estimation of DS. However, dissolution of starch and its derivatives is not trivial (3).

Published
2022

7. Modification of polysaccharides for a new generation of renewable plastics

Author

Petroni, S, Orsini, SF, D'Arienzo, M, Cipolla, L, Petroni, S, Orsini, S, D'Arienzo, M, and Cipolla, L

Subjects
polysaccharide, CHIM/06 - CHIMICA ORGANICA
Abstract

Polysaccharides natural polymers are very abundant in nature and available in most part of heart and seas. Among polysaccharides starch is capturing attention because of its large availability in nature. Starch is an example of renewable resource suitable as raw material for plastic consumer market. Compared to plastics derived by fossil resources it has the advantages of biodegradability, biocompatibility and possible conversion to energy source such as biogas. Nowadays modified starch has not yet mechanical robustness and chemical inertness to be competitive with plastics present on the market, however the research is intense and with interesting sparks. Some research activities concern the modification of starch with natural molecules. Cinnamic acid, in particular, is characterized by anti-inflammatory properties. The studies are devoted to the synthesis of an augmented polymer by merging the biocompatibility with the therapeutic properties of the functional group. Present work study different strategies for the modification of starch (Scheme 1) in order to introduce the cinnamyl group. Moreover this group allows the photoinduced cross-linking of starch improving mechanical properties. Modification of starch is accomplished by different chemistries in order to optimize the degree of substitution (DS), defined as the average number of functional groups introduced in the anhydro glucose unit (AGU). DS is the key parameter to quantify the modification of the polymer and 1H-NMR is the chosen for this determination, preferred to titration that suffers from lack of accuracy and reproducibility.1 In the 1H-NMR analysis the dissolution of the sample and the presence of hydroxyl groups make hard the accurate DS determination.

Published
2022

8. Squarate Cross-Linked Gelatin Hydrogels as Three-Dimensional Scaffolds for Biomedical Applications

Author

Stucchi, S, Colombo, D, Guizzardi, R, D'Aloia, A, Collini, M, Bouzin, M, Costa, B, Ceriani, M, Natalello, A, Pallavicini, P, Cipolla, L, Stucchi S., Colombo D., Guizzardi R., D'Aloia A., Collini M., Bouzin M., Costa B., Ceriani M., Natalello A., Pallavicini P., Cipolla L., Stucchi, S, Colombo, D, Guizzardi, R, D'Aloia, A, Collini, M, Bouzin, M, Costa, B, Ceriani, M, Natalello, A, Pallavicini, P, Cipolla, L, Stucchi S., Colombo D., Guizzardi R., D'Aloia A., Collini M., Bouzin M., Costa B., Ceriani M., Natalello A., Pallavicini P., and Cipolla L.

Abstract

Hydrogels are useful platforms as three-dimensional (3D) scaffolds for cell culture, drug-release systems, and regenerative medicine applications. Here, we propose a novel chemical cross-linking approach by the use of 3,4-diethoxy-3-cyclobutene-1,2-dione or diethyl squarate for the preparation of 5 and 10% w/v gelatin-based hydrogels. Hydrogels showed good swelling properties, and the 5% gelatin-based hydrogel proved suitable as a 3D cell culture scaffold for the chondrocyte cell line C28/I2. In addition, diffusion properties of different sized molecules inside the hydrogel were determined.

Published
2021

9. Histological validation of adipogenic differentiation potential of ASC on collagen-based 2D scaffolds

Author

Gomarasca, M, Savadori, P, Mariano, S, Cipolla, L, Lombardi, G, Gomarasca M., Savadori P., Mariano S., Cipolla L., Lombardi G., Gomarasca, M, Savadori, P, Mariano, S, Cipolla, L, Lombardi, G, Gomarasca M., Savadori P., Mariano S., Cipolla L., and Lombardi G.

Abstract

Determination of the adipogenic potential and behavior of adipose-derived mesenchymal stem/stromal cells (ASCs) is particularly relevant for their potential clinical application in regenerative medicine, especially when regeneration is supported by biomaterials or scaffolds. Scaffolds need to be able to induce tissue repair and limit undesired adipogenic differentiation. Depending on the scaffold employed, determination of cell behavior may be hindered by material interference with staining, which will limit either cells identification or dye quantification. Collagen is a promising biomaterial in regenerative medicine, however, histological analysis of cells cultured on collagen-based scaffolds is challenging. Here we describe a new histological method based on iron hematoxylin combined with Oil red O (ORO) staining, for the determination of the adipogenic differentiation of ASCs cultivated on a collagen-based 2D scaffold. ASCs were seeded on collagen films or plastic, differentiated into adipocytes for 14 days, and then stained with either ORO or iron hematoxylin and ORO combined. The collagen films avidly absorbed the ORO dye; conventional staining and quantification by dye extraction failed to discriminate between differentiated and undifferentiated cells on the films. On the contrary, the iron hematoxylin-ORO combination provided a quantitative and more reliable determination of adipocytes based on single cell count. This method is particularly recommended for determining the adipogenic differentiation potential of ASCs and other cell types grown on highly absorptive materials that need to be validated for their potential use in bioengineering and regenerative medicine.

Published
2020

10. A precise and versatile platform for rapid glycosylation analysis of brain tissue

Author

Vacchini, M, Cipolla, L, Gornik, O, Lauc, G, Klaric, T, Vacchini M., Cipolla L., Gornik O., Lauc G., Klaric T., Vacchini, M, Cipolla, L, Gornik, O, Lauc, G, Klaric, T, Vacchini M., Cipolla L., Gornik O., Lauc G., and Klaric T.

Abstract

Glycans influence a variety of aspects of tissue development and pathophysiology, harboring a wealth of biochemical information exploitable for the discovery of new biomarkers. The development of versatile and precise glycoanalytical platforms is crucial to bring to the scientific community reliable tools to unveil the glycan-encoded biochemical information. In this work, a novel platform for brain glycan analysis, named Lysate in-Solution Deglycosylation (LSD), is presented, validated and compared to similar methodologies reported in the literature. Briefly, within the LSD workflow, brain tissue is lysed, proteins are purified via methanol/chloroform extraction, and directly deglycosylated with PNGase F. Released N-glycans are purified using a second round of methanol/chloroform extraction, labelled with fluorescent tags, and cleaned-up prior to LC-FLR/MS analysis. LSD is a quick, sensitive, robust, precise, specific and versatile glycomic workflow, compatible with multiple glyco(proteo)mics analyses of the same sample and eventually applicable to other solid tissues. LSD was devised as a plug-and-play platform for quick glycosylation analysis, and was designed to be compatible with a variety of analytical set-ups (i.e., diverse detection systems), thus enabling the extraction of an additional layer of information from different studies (i.e., proteomics) without the need to collect fresh biological materials. In comparison to analogous N-glycomic workflows, LSD performs reliably on the smallest amount of starting brain tissue and, to the best of the authors' knowledge, is currently the most thoroughly validated neuro-N-glycomic method in the field-related literature, thus representing a significant step forward on the road towards glycan-based biomedical applications.

Published
2020

13. Synthesis and Characterization of Alkoxysilane-Bearing Photoreversible Cinnamic Side Groups: A Promising Building-Block for the Design of Multifunctional Silica Nanoparticles

Author

Orsini, S, Cipolla, L, Petroni, S, Dirè, S, Ceccato, R, Callone, E, Bongiovanni, R, Dalle Vacche, S, Di Credico, B, Mostoni, S, Nisticò, R, Raimondo, L, Scotti, R, D'Arienzo, M, Orsini, Sara Fernanda, Cipolla, Laura, Petroni, Simona, Dirè, Sandra, Ceccato, Riccardo, Callone, Emanuela, Bongiovanni, Roberta, Dalle Vacche, Sara, Di Credico, Barbara, Mostoni, Silvia, Nisticò, Roberto, Raimondo, Luisa, Scotti, Roberto, D'Arienzo, Massimiliano, Orsini, S, Cipolla, L, Petroni, S, Dirè, S, Ceccato, R, Callone, E, Bongiovanni, R, Dalle Vacche, S, Di Credico, B, Mostoni, S, Nisticò, R, Raimondo, L, Scotti, R, D'Arienzo, M, Orsini, Sara Fernanda, Cipolla, Laura, Petroni, Simona, Dirè, Sandra, Ceccato, Riccardo, Callone, Emanuela, Bongiovanni, Roberta, Dalle Vacche, Sara, Di Credico, Barbara, Mostoni, Silvia, Nisticò, Roberto, Raimondo, Luisa, Scotti, Roberto, and D'Arienzo, Massimiliano

Abstract

The present study reports on the synthesis of a new alkoxysilane-bearing light-responsive cinnamyl group and its application as a surface functionalization agent for the development of SiO2 nanoparticles (NPs) with photoreversible tails. In detail, cinnamic acid (CINN) was activated with N-hydroxysuccinimide (NHS) to obtain the corresponding NHS-ester (CINN-NHS). Subsequently, the amine group of 3-aminopropyltriethoxysilane (APTES) was acylated with CINN-NHS leading to the generation of a novel organosilane, CINN-APTES, which was then exploited for decorating SiO2 NPs. The covalent bond to the silica surface was confirmed by solid state NMR, whereas thermogravimetric analysis unveiled a functionalization degree much higher compared to that achieved by a conventional double-step post-grafting procedure. In light of these intriguing results, the strategy was successfully extended to naturally occurring sepiolite fibers, widely employed as fillers in technological applications. Finally, a preliminary proof of concept of the photoreversibility of the obtained SiO2@CINN-APTES system has been carried out through UV diffuse reflectance. The overall outcomes prove the consistency and the versatility of the methodological protocol adopted, which appears promising for the design of hybrid NPs to be employed as building blocks for photoresponsive materials with the ability to change their molecular structure and subsequent properties when exposed to different light stimuli.

Published
2022

14. Cinnamic acid: a photoreactive cross-linking biomolecule for the design of innovative materials

Author

Orsini, S, Petroni, S, Cipolla, L, Dirè, S, Callone, E, D'Arienzo, M, Sara Fernanda Orsini, Simona Petroni, Laura Cipolla, Sandrà Dirè, Emanuela Callone, Massimiliano D'Arienzo, Orsini, S, Petroni, S, Cipolla, L, Dirè, S, Callone, E, D'Arienzo, M, Sara Fernanda Orsini, Simona Petroni, Laura Cipolla, Sandrà Dirè, Emanuela Callone, and Massimiliano D'Arienzo

Published
2022

15. Decoration of silica and sepiolite surfaces with photoreversible coupling agent: a new route for producing multifunctional hybrid nanoparticles

Author

Orsini, S, Bongiovanni, R, Callone, E, Cipolla, L, DI CREDICO, B, Dirè, S, Mostoni, S, Nistico, R, Petroni, S, Scotti, R, D'Arienzo, M, Sara Fernanda Orsini, Roberta Bongiovanni, Emanuela Callone, Laura Cipolla, Barbara Di Credico, Sandra Dirè, Silvia Mostoni, Roberto Nistico, Simona Petroni, Roberto Scotti, Massimiliano D'Arienzo, Orsini, S, Bongiovanni, R, Callone, E, Cipolla, L, DI CREDICO, B, Dirè, S, Mostoni, S, Nistico, R, Petroni, S, Scotti, R, D'Arienzo, M, Sara Fernanda Orsini, Roberta Bongiovanni, Emanuela Callone, Laura Cipolla, Barbara Di Credico, Sandra Dirè, Silvia Mostoni, Roberto Nistico, Simona Petroni, Roberto Scotti, and Massimiliano D'Arienzo

Published
2022

21. Photoinduced Porcine Gelatin Cross-Linking by Homobi- and Homotrifunctional Tetrazoles

Author

Vaghi, L, Monti, M, Marelli, M, Motto, E, Papagni, A, Cipolla, L, Vaghi, Luca, Monti, Mauro, Marelli, Marcello, Motto, Elisa, Papagni, Antonio, Cipolla, Laura, Vaghi, L, Monti, M, Marelli, M, Motto, E, Papagni, A, Cipolla, L, Vaghi, Luca, Monti, Mauro, Marelli, Marcello, Motto, Elisa, Papagni, Antonio, and Cipolla, Laura

Abstract

Gelatin is a costless polypeptide material of natural origin, able to form hydrogels that are potentially useful in biomaterial scaffold design for drug delivery, cell cultures, and tissue engineering. However, gelatin hydrogels are unstable at physiological conditions, losing their features only after a few minutes at 37 °C. Accordingly, treatments to address this issue are of great interest. In the present work, we propose for the first time the use of bi- and trifunctional tetrazoles, most of them unknown to date, for photoinduced gelatin cross-linking towards the production of physiologically stable hydrogels. Indeed, after UV-B irradiation, aryl tetrazoles generate a nitrilimine intermediate that is reactive towards different functionalities, some of them constitutively present in the amino acid side chains of gelatin. The efficacy of the treatment strictly depends on the structure of the cross-linking agent used, and substantial improved stability was observed by switching from bifunctional to trifunctional cross-linker

Published
2021

22. Biomimetic and Collagen-based Biomaterials for Biomedical Applications

Author

Azevedo, HS, Mano, JF, Borges, J, Cipolla, L, Azevedo, HS, Mano, JF, Borges, J, and Cipolla, L

Abstract

Collagen, being the main constituent of the mammalian extra cellular matrix, is an ideal candidate as a biomaterial for regenerative medicine applications. In this chapter, besides a brief introduction about key elements guiding tissue regeneration, recent advances in collagen-based biomaterials will be outlined. Collagen properties may be improved when used in combination with other materials: collagen-inorganic blends, collagen materials in combination with natural (protein and carbohydrates) or synthetic polymers will be considered.

Published
2021

23. Binary biocompatible CNCs-Gelatine hydrogel as 3D scaffolds suitable for cell culture adhesion and growth

Author

Zoia, L, Binda, A, Cipolla, L, Rivolta, I, La Ferla, B, Zoia, L, Binda, A, Cipolla, L, Rivolta, I, and La Ferla, B

Abstract

Binary nano-biocomposite 3D scaffolds of cellulose nanocrystals (CNCs) - gelatin were fabricated without the use of chemical cross-linking additives. Controlled oxidative treatment allowed the introduction of carboxyl or carbonyl functionalities on the surface of CNCs that were responsible for the cross-linking of gelatin polymers. The obtained composites were characterized for their physico-chemical properties, and their biocompatibility towards different cell cultures was eval-uated through MTT and LDH assays, cellular adhesion and proliferation experiments. Gelatin composites reinforced with carbonyl-modified CNCs showed the most performing swell-ing/degradation profile and the most promising adhesion and proliferation properties towards cell lines, suggesting their potential application in the field of tissue engineering

Published
2021

25. Synthesis, Molecular Modeling and Biological Evaluation of Metabolically Stable Analogues of the Endogenous Fatty Acid Amide Palmitoylethanolamide

Author

D'Aloia, A, Arrigoni, F, Tisi, R, Palmioli, A, Ceriani, M, Artusa, V, Airoldi, C, Zampella, G, Costa, B, Cipolla, L, D'Aloia, A, Arrigoni, F, Tisi, R, Palmioli, A, Ceriani, M, Artusa, V, Airoldi, C, Zampella, G, Costa, B, and Cipolla, L

Abstract

Palmitoylethanolamide (PEA) belongs to the class of N-acylethanolamine and is an endogenous lipid potentially useful in a wide range of therapeutic areas; products containing PEA are licensed for use in humans as a nutraceutical, a food supplement, or food for medical purposes for its analgesic and anti-inflammatory properties demonstrating ecacy and tolerability. However, the exogenously administered PEA is rapidly inactivated; in this process, fatty acid amide hydrolase (FAAH) plays a key role both in hepatic metabolism and in intracellular degradation. So, the aim of the present study was the design and synthesis of PEA analogues that are more resistant to FAAH-mediated hydrolysis. A small library of PEA analogues was designed and tested by molecular docking and density functional theory calculations to find the more stable analogue. The computational investigation identified RePEA as the best candidate in terms of both synthetic accessibility and metabolic stability to FAAH-mediated hydrolysis. The selected compound was synthesized and assayed ex vivo to monitor FAAH-mediated hydrolysis and to confirm its anti-inflammatory properties. 1H-NMR spectroscopy performed on membrane samples containing FAAH in integral membrane protein demonstrated that RePEA is not processed by FAAH, in contrast with PEA. Moreover, RePEA retains PEA’s ability to inhibit LPS-induced cytokine release in both murine N9 microglial cells and human PMA-THP-1 cells.

Published
2020

26. Gelatin-based hydrogels for the controlled release of 5,6-dihydroxyindole-2-carboxylic acid, a melanin-related metabolite with potent antioxidant activity

Author

Alfieri, M, Pilotta, G, Panzella, L, Cipolla, L, Napolitano, A, Alfieri, Maria Laura, Pilotta, Giovanni, Panzella, Lucia, Cipolla, Laura, Napolitano, Alessandra, Alfieri, M, Pilotta, G, Panzella, L, Cipolla, L, Napolitano, A, Alfieri, Maria Laura, Pilotta, Giovanni, Panzella, Lucia, Cipolla, Laura, and Napolitano, Alessandra

Abstract

The ability of gelatin-based hydrogels of incorporating and releasing under controlled conditions 5,6-dihydroxyindole-2-carboxylic acid (DHICA), a melanin-related metabolite endowed with marked antioxidant properties was investigated. The methyl ester of DHICA, MeDHICA, was also tested in view of its higher stability, and different solubility profile. Three types of gelatin-based hydrogels were prepared: pristine porcine skin type A gelatin (HGel-A), a pristine gelatin cross-linked by amide coupling of lysines and glutamic/aspartic acids (HGel-B), and a gelatin/chitosan blend (HGel-C). HGel-B and HGel-C differed in the swelling behavior, showed satisfactorily high mechanical strength at physiological temperatures and well-defined morphology. The extent of incorporation into all the gelatins tested using a 10% w/w indole to gelatin ratio was very satisfactory ranging from 60 to 90% for either indoles. The kinetics of indole release under conditions of physiological relevance was evaluated up to 72 h. The highest values were obtained with HGel-B and HGel-C for MeDHICA (90% after 6 h), and an appreciable release was observed for DHICA reaching 30% and 40% at 6 h for HGel-B and HGel-C, respectively. At 72 h, DHICA and MeDHICA were released at around 30% from HGel-A at pH 7.4, with an increase up to 40% at pH 5.5 in the case of DHICA. DHICA incorporated into HGel-B proved fairly stable over 6 h whereas the free compound at the same concentration was almost completely oxidized. The antioxidant power of the indole loaded gelatins was monitored by chemical assays and proved unaltered even after prolonged storage in air, suggesting that the materials could be prepared in advance with respect to their use without alteration of their efficacy.

Published
2020

32. Gelatin-based hydrogels through homobifunctional triazolinediones targeting tyrosine residues

Author

Guizzardi, R, Vaghi, L, Marelli, M, Natalello, A, Andreosso, I, Papagni, A, Cipolla, L, Guizzardi, Roberto, Vaghi, Luca, Marelli, Marcello, Natalello, Antonino, Andreosso, Ivan, Papagni, Antonio, Cipolla, Laura, Guizzardi, R, Vaghi, L, Marelli, M, Natalello, A, Andreosso, I, Papagni, A, Cipolla, L, Guizzardi, Roberto, Vaghi, Luca, Marelli, Marcello, Natalello, Antonino, Andreosso, Ivan, Papagni, Antonio, and Cipolla, Laura

Abstract

Gelatin is a biopolymer with interesting properties that can be useful for biomaterial design for different applications such as drug delivery systems, or 3D scaffolds for tissue engineering. However, gelatin suffers from poor mechanical stability at physiological temperature, hence methods for improving its properties are highly desirable. In the present work, a new chemical cross-linking strategy based on triazolinedione ene-type chemistry towards stable hydrogel is proposed. Two different homobifunctional 1,2,4-triazoline-3,5(4H)-diones, namely 4,40-hexane-1,6-diylbis(3H-1,2,4-triazoline-3,5(4H)-dione) 1 and 4,40-[methylenebis(4,1-phenylene)]bis(3H-1,2,4-triazoline-3,5(4H)-dione) 2 were used as cross-linkers in different ratio to tyrosine residues in gelatin. The reaction was proved effective in all experimented conditions and hydrogels featured with different thermal stability were obtained. In general, the higher the cross-linker/tyrosine ratio, the more thermostable the hydrogel. The swelling properties are strictly dependent upon the chemical nature of the cross-linker.

Published
2019

33. Glycan carriers as glycotools for medicinal chemistry applications

Author

Vacchini, M, Edwards, R, Guizzardi, R, Palmioli, A, Ciaramelli, C, Paiotta, A, Airoldi, C, La Ferla, B, Cipolla, L, Vacchini, Mattia, Edwards, Rana, Guizzardi, Roberto, Palmioli, Alessandro, Ciaramelli, Carlotta, Paiotta, Alice, Airoldi, Cristina, La Ferla, Barbara, Cipolla, Laura, Vacchini, M, Edwards, R, Guizzardi, R, Palmioli, A, Ciaramelli, C, Paiotta, A, Airoldi, C, La Ferla, B, Cipolla, L, Vacchini, Mattia, Edwards, Rana, Guizzardi, Roberto, Palmioli, Alessandro, Ciaramelli, Carlotta, Paiotta, Alice, Airoldi, Cristina, La Ferla, Barbara, and Cipolla, Laura

Abstract

Carbohydrates are one of the most powerful and versatile classes of biomolecules that nature uses to regulate organisms’ biochemistry, modulating plenty of signaling events within cells, triggering a plethora of physiological and pathological cellular behaviors. In this framework, glycan carrier systems or carbohydrate-decorated materials constitute interesting and relevant tools for medicinal chemistry applications. In the last few decades, efforts have been focused, among others, on the development of multivalent glycoconjugates, biosensors, glycoarrays, carbohydrate-decorated biomaterials for regenerative medicine, and glyconanoparticles. This review aims to provide the reader with a general overview of the different carbohydrate carrier systems that have been developed as tools in different medicinal chemistry approaches relying on carbohydrate-protein interactions. Given the extent of this topic, the present review will focus on selected examples that highlight the advancements and potentialities offered by this specific area of research, rather than being an exhaustive literature survey of any specific glyco-functionalized system.

Published
2019

34. Hybrid Materials And Process For Production Thereof

Author

Tallia, F, Jones, JR, Cipolla, L, Russo, L, Young, GR, Tallia, F, Jones, J, Cipolla, L, Russo, L, and Young, G

Subjects
inorganic-organic hydrid, self-healing
Abstract

The invention relates to inorganic-organic hydrid 5 materials comprising interpenetrated organic and inorganic components, wherein the organic component comprises polymer chains formed at least in part by ring-opening polymerization of a cyclic monomer, and processes for the production thereof.

Published
2017

35. C-Glycosylation Starting from Unprotected O-Glycosides

Author

La Ferla, B, Hogendorf, W, Nicotra, F, Cipolla, L, Pavol Kováč, La Ferla, B, Hogendorf, W, Nicotra, F, and Cipolla, L

Subjects
chemistry.chemical_classification, chemistry.chemical_compound, Glycosylation, carbohydrate, Stereochemistry, Chemistry, CHIM/06 - CHIMICA ORGANICA, Glycoside
Abstract

The use of carbohydrates as structural scaffolds for the design and synthesis of new drugs has found growing interest in the last decade. The main drawback of existing syntheses of carbohydrate scaffolds is the tedious protecting group manipulation necessary for the introduction of orthogonality of protecting groups. In this chapter, we describe a direct approach for generation of monocyclic and bicyclic C-galactosyl compounds from commercially available methyl α-d-galactopyranoside without the use of protecting groups.

Published
2016

36. Regioselective Debenzylation of C-Glycosylpropene

Author

Cipolla, L, la Ferla, B, Rauter, AP, Nicotra, F, Pavol Kováč, Cipolla, L, la Ferla, B, Rauter, A, and Nicotra, F

Subjects
Chemistry, CHIM/06 - CHIMICA ORGANICA, Regioselectivity, Medicinal chemistry, C-glycosides, regioselective debenzylation, deprotection
Abstract

Analogues of cell surface-associated carbohydrates or inhibitors of carbohydrateprocessing enzymes are of great pharmaceutical interest. Therefore, many synthetic efforts have been devoted to mimetics of this class of molecules, such as C-glycosyl compounds, which mimic glycosides by replacement of their exocyclic acetalic oxygen with a methylene group. The C-C linkage provides hydrolytic stability without greatly affecting the carbohydrate structure. The C-glycosyl scaffolds should be suitably functionalized in order to mimic their natural counterpart. Toward this aim, regioselective deprotection can be useful for the introduction of the required functional groups. Here, we present an easy procedure for the regioselective deprotection of 3-C-(2, 3, 4, 6-tetra-O-benzyl-α-d-glucopyranosyl)prop-1-ene (1)1 at glycon position 2 and of 3-C-(1, 3, 4, 6-tetra-O-benzyl-α-d-fructofuranosyl)prop-1-ene (4)2 at glycon position 1, respectively. Reaction of the fully benzylated C-glycosylpropene with molecular iodine affords a cyclic iodoether (2 or 5), which upon reductive elimination restores the double bond and a free hydroxyl group. The overall process results in regioselective debenzylation, giving products 3 and 6, respectively. The iodocyclization reaction first involves formation of the iodonium ion, on which the oxygen of the neighboring benzyl ether can act as a nucleophile in a 5-exotype cyclization, with subsequent loss of the benzyl group as benzyl iodide, in an intramolecular process (Scheme 17.1). This regioselective deprotection has been successfully used for the synthesis of a variety of biologically relevant carbohydrate mimetics, such as C-glycosyl derivatives of glucosamine and mannosamine, 3 mimics of α-and β-N-acetyllactosamine, 4 N-acetylgalactosamine, 5 C-glycosyl nojirimycins, 6-8 sugar azido acids, 9 fructose-derived scaffolds, 10 and rigid benzodiazepine chimeric scaffolds.11.

Published
2016

37. Differential glycosylation of extracellular matrix specifically modulates lung cancer initiating cells subsets

Author

Bertolini, G, Gardelli, C, Andriani, F, Moro, M, Russo, L, Cipolla, L, Sozzi, G, Roz, L, Bertolini, G, Gardelli, C, Andriani, F, Moro, M, Russo, L, Cipolla, L, Sozzi, G, and Roz, L

Subjects
collagen, glycosylation, ECM, lung cancer
Abstract

In lung cancer CD133+ cells have properties of cancer initiating cells (CICs) as stemness features, high tumorigenic potential and chemoresistance. Within the CD133+ CICs, we have recently identified a specific subset, defined as CD133+CXCR4+EpCAM-, endowed with high dissemination and metastatic potential (metastasis initiating cells, MICs). In normal tissues stem cells reside in specialized niches composed of both stromal cells and extracellular matrix proteins (ECM) while factors responsible for CICs maintenance and modulation are relatively unknown. Collagen, the most abundant protein of ECM, plays a pivotal role in mediating regulation of adhesion, survival and proliferation of tumor cells. The relevance of collagen glycosylation, a fundamental post-translational modification controlling several biological processes, remains however largely unexplored. To investigate the effects of interactions between tumor cells and differentially glycosylated ECM epitopes, we cultured primary (LT73) and established lung cancer cell lines (A549, H460) on type I collagen films neo-glycosylated with glucose, galactose or sialic acid residues. Our results showed a general increase of CICs subsets, evaluated by flow cytometry, in tumor cells cultured on glycosylated collagen compared to pristine collagen or tissue culture plates with a concomitant increased expression of stemness-related genes. Particularly, we observed that collagen functionalized with glucose had the highest efficiency in enriching for MICs (3-fold change). Analysis of proliferation and viability of tumor cells cultured on collagen films showed that glucose residues were particularly proficient in causing G1 phase growth arrest and cell death compared to pristine collagen resulting in an overall decrease in the bulk population and CICs enrichment. In PKH label-retention assays, glucose-glycosylated collagen also selected and increased the fraction of PHK-labeled quiescent tumor cells, enriched for MICs component, confirming the preferential selection/survival of MICs subset. Using LT73 cell line depleted for CD133+ cells, we then proved that CICs increase was also due to a de novo generation of CD133+ cells and in particular of CD133+CXCR4+EpCAM- metastatic subset through non-CICs to CICs conversion. The immunophenotypic increase of CD133+ cells was functionally validated in vivo by a limiting dilution tumorigenic assay that estimated a 4.6 higher frequency of CICs in LT73 cells cultured on glucose-glycosylated collagen compared to control group. Moreover tumors derived from cells exposed to glucose residues retained a higher contents of MICs associated with an increased dissemination potential compared to controls. Our results suggest that differential collagen glycosylation could play an essential role in the creation of a niche favorable for the generation and selection/survival of lung metastasis initiating cells

Published
2016

38. Towards hydrophobic carminic acid derivatives and their incorporation in polyacrylates

Author

Gabrielli, L, Origgi, D, Zampella, G, Bertini, L, Bonetti, S, Vaccaro, G, Meinardi, F, Simonutti, R, Cipolla, L, Gabrielli, Luca, Origgi, Davide, Zampella, Giuseppe, Bertini, Luca, Bonetti, Simone, Vaccaro, Gianfranco, Meinardi, Francesco, Simonutti, Roberto, Cipolla, Laura, Gabrielli, L, Origgi, D, Zampella, G, Bertini, L, Bonetti, S, Vaccaro, G, Meinardi, F, Simonutti, R, Cipolla, L, Gabrielli, Luca, Origgi, Davide, Zampella, Giuseppe, Bertini, Luca, Bonetti, Simone, Vaccaro, Gianfranco, Meinardi, Francesco, Simonutti, Roberto, and Cipolla, Laura

Abstract

Carminic acid, a natural hydrophilic dye extensively used in the food and cosmetic industries, is converted in hydrophobic dyes by acetylation or pivaloylation. These derivatives are successfully used as biocolourants for rubber objects. In this paper, spectroscopic properties of the carminic acid derivatives in dimethyl sulfoxide and in polybutylacrylate are studied by means of photoluminescence and time-resolved photoluminescence decays, revealing a hypsochromic effect due to the presence of bulky substituents as the acetyl or pivaloyl groups. Molecular mechanics and density functional theory calculations confirm the disruption of planarity between the sugar ring and the anthraquinoid system determined by the esterification

Published
2018

39. Maltose conjugation to PCL: Advanced structural characterization and preliminary biological properties

Author

Secchi, V, Guizzardi, R, Russo, L, Pastori, V, Lecchi, M, Franchi, S, Iucci, G, Battocchio, C, Cipolla, L, Secchi, V, Guizzardi, R, Russo, L, Pastori, V, Lecchi, M, Franchi, S, Iucci, G, Battocchio, C, and Cipolla, L

Abstract

The emerging trends in regenerative medicine rely among others on biomaterial-based therapies, with the use of biomaterials as a central delivery system for biochemical and physical cues to manipulate transplanted or ingrowth cells and to orchestrate tissue regeneration. Cell adhesion properties of a biomaterial strongly depend on its surface characteristics. Among others poly(ε-caprolactone) (PCL) is a biocompatible and biodegradable material with low cytotoxicity that is widely adopted as synthetic polymer in several applications. However, it is hydrophobic, which limits its use in tissue engineering. In order to improve its hydrophilicity and cellular compatibility, PCL surface was grafted with maltose through a two-step procedure in which controlled aminolysis of PCL ester bonds by hexanediamine was followed by reductive amination with the carbohydrate reducing end. The modified PCL surface was then characterized in detail by x-ray Photoelectron Spectroscopy (XPS) and Near Edge x-ray Absorption Fine Structure (NEXAFS) spectroscopies. In addition, the biocompatibility of the proposed biomaterial was investigated in preliminary biological assays

Published
2018

44. Legionellosis in Argentina

Author

Aguerre, L., primary, Martínez, C., additional, Rocca, M.F., additional, Cipolla, L., additional, Armitano, R., additional, and Prieto, M., additional

Published
2018
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46. Glyco-functionalysed biomaterials in neuroregeneration

Author

Russo, L, Sgambato, A, Guizzardi, R, Vesentini, S, Cipolla, L, Nicotra, F, Nicotra, F., Russo, L, Sgambato, A, Guizzardi, R, Vesentini, S, Cipolla, L, Nicotra, F, and Nicotra, F.

Abstract

The key signalling roles played by glycans (simple or complex) in the development of smart biomaterials for neuroregeneration is reported. The glycans involved and their diversity (glycomic), the nature and properties of biomaterials, the bioconjugation methods, and the effects in neuroregeneration are discussed.

Published
2017

47. Convergent dendrimer synthesis by olefin metathesis and studies toward glycoconjugation

Author

Guizzardi, R, Vacchini, M, Santambrogio, C, Cipolla, L, GUIZZARDI, ROBERTO, VACCHINI, MATTIA, SANTAMBROGIO, CARLO, CIPOLLA, LAURA FRANCESCA, Guizzardi, R, Vacchini, M, Santambrogio, C, Cipolla, L, GUIZZARDI, ROBERTO, VACCHINI, MATTIA, SANTAMBROGIO, CARLO, and CIPOLLA, LAURA FRANCESCA

Abstract

The synthesis of novel hyperbranched monodisperse linear dendrimers, based on 2,2-bis-(hydroxymethyl)-propionic acid (bis-MPA), has been achieved by convergent metathesis-mediated coupling between the alkene-terminated focal point of bis-MPA dendrons. On their surface, dendrimers present 4, 8 and 16 functional groups. Glycodendrimers exposing multiple saccharide moieties have also been obtained. To the best of our knowledge, this is the first example of the use of metathesis for focal point coupling.

Published
2017

48. Multivalent glycidic constructs toward anti-cancer therapeutics

Author

Nicotra, F., Gabrielli, L., Bini, D., Russo, L., Sgambato, A., Cipolla, L., Rauter, AP, Lindhorst, T, Queneau, Y, Nicotra, F, Gabrielli, L, Bini, D, Russo, L, Sgambato, A, and Cipolla, L

Subjects
Carbohydrates, anticancer therapeutics
Abstract

This review aims at giving a broad overview on the recent efforts in the design and synthesis of potential anti-cancer therapeutics based on multivalent glycidic structures, covering literature up to 2013.

Published
2014

50. Bioresponsive Hydrogels: Chemical Strategies and Perspectives in Tissue Engineering

Author

Sgambato, A, Cipolla, L, Russo, L, SGAMBATO, ANTONELLA, CIPOLLA, LAURA FRANCESCA, RUSSO, LAURA, Sgambato, A, Cipolla, L, Russo, L, SGAMBATO, ANTONELLA, CIPOLLA, LAURA FRANCESCA, and RUSSO, LAURA

Abstract

Disease, trauma, and aging account for a significant number of clinical disorders. Regenerative medicine is emerging as a very promising therapeutic option. The design and development of new cell-customised biomaterials able to mimic extracellular matrix (ECM) functionalities represents one of the major strategies to control the cell fate and stimulate tissue regeneration. Recently, hydrogels have received a considerable interest for their use in the modulation and control of cell fate during the regeneration processes. Several synthetic bioresponsive hydrogels are being developed in order to facilitate cell-matrix and cell-cell interactions. In this review, new strategies and future perspectives of such synthetic cell microenvironments will be highlighted

Published
2016

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