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8. Sers investigation on oligopeptides used as biomimetic coatings for medical devices

Author

Di Foggia, M., Tugnoli, Vitaliano, Ottani, Stefano, Dettin, Monica, Zamuner, Annj, Sánchez-Cortés, Santiago, Cesini, Daniele, Torreggiani, A., Di Foggia, M., Tugnoli, Vitaliano, Ottani, Stefano, Dettin, Monica, Zamuner, Annj, Sánchez-Cortés, Santiago, Cesini, Daniele, and Torreggiani, A.

Abstract

The surface-enhanced Raman scattering (SERS) spectra of three amphiphilic oligopeptides derived from EAK16 (AEAEAKAK) were examined to study systematic amino acid substitution effects on the corresponding interaction with Ag colloidal nanoparticles. Such self-assembling molecular systems, known as “molecular Lego”, are of particular interest for their uses in tissue engineering and as biomimetic coatings for medical devices because they can form insoluble macroscopic membranes under physiological conditions. Spectra were collected for both native and gamma-irradiated samples. Quantum mechanical data on two of the examined oligopeptides were also obtained to clarify the assignment of the prominent significative bands observed in the spectra. In general, the peptide–nanoparticles interaction occurs through the COO groups, with the amide bond and the aliphatic chain close to the colloid surface. After gamma irradiation, mimicking a free oxidative radical attack, the SERS spectra of the biomaterials show that COO groups still provide the main peptide–nanoparticle interactions. However, the spatial arrangement of the peptides is different, exhibiting a systematic decrease in the distance between aliphatic chains and colloid nanoparticles.

Published
2021

11. Effects of two protein hydrolysates obtained from Chickpea (Cicer arietinum L.) and Spirulina platensis on zea mays (L.) plants

Author

SCOAP, Ertani, A., Nardi, S., Francioso, Ornella, Sánchez-Cortés, Santiago, Di Foggia, M., Schiavon, M., SCOAP, Ertani, A., Nardi, S., Francioso, Ornella, Sánchez-Cortés, Santiago, Di Foggia, M., and Schiavon, M.

Abstract

Two liquid protein hydrolysates obtained from chickpea (Cicer arietinum L.) (CA) and Spirulina platensis (SP) were analyzed via FT-IR and SERS spectroscopy. Their hormone-like activities and contents in indole-3-acetic acid (IAA), isopentenyladenosine (IPA), nitrogen (N), carbon (C), sulfur (S), phenols, amino acids, and reducing sugars were determined. CA and SP showed different chemical compositions in N, C, sugars, amino acid, and TP contents, which were generally higher in CA. The two products exhibited (IAA)-like and gibberellin (GA)-like activities and contained the hormones IAA and IPA. Specifically, CA held higher (∼3.6 fold) IAA-like activity than SP, while its GA-like activity was comparable to SP. The content in IAA was similar between hydrolysates, but CA contained ∼6 fold more IPA. CA and SP were further supplied at two different dosages (0.1 and 1 mL L) for 2 days to maize (Zea mays L.) plants grown in hydroponics. They positively influenced plant growth and accumulation of N-compounds (proteins, chlorophylls and phenols), with a more pronounced effect observed in plants treated with CA. Furthermore, they increased the activity of two enzymes, i.e., peroxidase and esterase, which are established markers for plant growth, differentiation and organogenesis-related processes. Peroxidase activity in particular, was enhanced by ~1.6 and ~2.3 fold in leaves and roots of CA-treated plants, respectively. Greater accumulation of macro (Ca, Mg, and K) and micro (Cu, Zn) elements was also evident in plants supplied with these products. In conclusion, our data indicate that both CA and SP exert positive effects in maize plants. However, CA appeared to be more efficient than SP to improve plant nutrition and growth parameters in some respects, likely by virtue of its higher content in phytochemicals (hormones, phenols, amino acids, reducing sugars) that may act as signaling molecules, and more pronounced IAA-like activity.

Published
2019

18. The Influence of the Matrix on the Apatite-Forming Ability of Calcium Containing Polydimethylsiloxane-Based Cements for Endodontics

Author

Paola Taddei, Michele Di Foggia, Fausto Zamparini, Carlo Prati, Maria Giovanna Gandolfi, Taddei P., Di Foggia M., Zamparini F., Prati C., and Gandolfi M.G.

Subjects
GuttaFlow Bioseal, Calcium Phosphates, Calcium Phosphate, Pharmaceutical Science, endodontic sealer, hydroxiapatite (HA), Dimethylpolysiloxane, calcium silicates (CaSi), Analytical Chemistry, Hydroxyapatite, biogla, Root Canal Filling Materials, root filling material, Apatites, Drug Discovery, Materials Testing, crosslinking, polydimethylsiloxane, Dimethylpolysiloxanes, Physical and Theoretical Chemistry, GuttaFlow 2, Silicates, Organic Chemistry, apatite, bioactivity, bioglass, RoekoSeal, vibrational IR and Raman spectroscopy, root filling materials, calcium phosphate dihydrate (DCPD), Silicate, Calcium Compounds, Calcium Compound, Chemistry (miscellaneous), Molecular Medicine, Calcium, Hydroxyapatites
Abstract

This study aimed to characterize the chemical properties and bioactivity of an endodontic sealer (GuttaFlow Bioseal) based on polydimethylsiloxane (PDMS) and containing a calcium bioglass as a doping agent. Commercial PDMS-based cement free from calcium bioglass (GuttaFlow 2 and RoekoSeal) were characterized for comparison as well as GuttaFlow 2 doped with dicalcium phosphate dihydrate, hydroxyapatite, or a tricalcium silicate-based cement. IR and Raman analyses were performed on fresh materials as well as after aging tests in Hank’s Balanced Salt Solution (28 d, 37 °C). Under these conditions, the strengthening of the 970 cm−1 Raman band and the appearance of the IR components at 1455–1414, 1015, 868, and 600–559 cm−1 revealed the deposition of B-type carbonated apatite. The Raman I970/I638 and IR A1010/A1258 ratios (markers of apatite-forming ability) showed that bioactivity decreased along with the series: GuttaFlow Bioseal > GuttaFlow 2 > RoekoSeal. The PDMS matrix played a relevant role in bioactivity; in GuttaFlow 2, the crosslinking degree was favorable for Ca2+ adsorption/complexation and the formation of a thin calcium phosphate layer. In the less crosslinked RoekoSeal, such processes did not occur. The doped cements showed bioactivity higher than GuttaFlow 2, suggesting that the particles of the mineralizing agents are spontaneously exposed on the cement surface, although the hydrophobicity of the PDMS matrix slowed down apatite deposition. Relevant properties in the endodontic practice (i.e., setting time, radiopacity, apatite-forming ability) were related to material composition and the crosslinking degree.

Published
2022

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

Author

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

Subjects
covalent functionalization, BMP-2, bone tissue engineering, glass-ceramic, General Materials Science
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.

Published
2022

20. Vibrational Study on Structure and Bioactivity of Protein Fibers Grafted with Phosphorylated Methacrylates

Author

Paola Taddei, Masuhiro Tsukada, Michele Di Foggia, Di Foggia M., Tsukada M., and Taddei P.

Subjects
Chemical Phenomena, phosmer, Simulated body fluid, Silk, Pharmaceutical Science, Fibroin, Organic chemistry, Biocompatible Materials, Cysteic acid, Methacrylate, Spectrum Analysis, Raman, Article, Analytical Chemistry, chemistry.chemical_compound, QD241-441, Drug Discovery, Keratin, Polymer chemistry, Spectroscopy, Fourier Transform Infrared, Animals, Physical and Theoretical Chemistry, Phosphorylation, chemistry.chemical_classification, Biocompatible Material, Molecular Structure, Animal, Tussah, Wool, Bombyx mori, Phosphate, Grafting, grafting, SILK, chemistry, Chemistry (miscellaneous), silk fibroin, IR spectroscopy, Raman spectroscopy, Molecular Medicine, Keratins, Methacrylates, wool keratin, Fibroins
Abstract

In the last decades, silk fibroin and wool keratin have been considered functional materials for biomedical applications. In this study, fabrics containing silk fibers from Bombyx mori and Tussah silk fibers from Antheraea pernyi, as well as wool keratin fabrics, were grafted with phosmer CL and phosmer M (commercial names, i.e., methacrylate monomers containing phosphate groups in the molecular side chain) with different weight gains. Both phosmers were recently proposed as flame retarding agents, and their chemical composition suggested a possible application in bone tissue engineering. IR and Raman spectroscopy were used to disclose the possible structural changes induced by grafting and identify the most reactive amino acids towards the phosmers. The same techniques were used to investigate the nucleation of a calcium phosphate phase on the surface of the samples (i.e., bioactivity) after ageing in simulated body fluid (SBF). The phosmers were found to polymerize onto the biopolymers efficiently, and tyrosine and serine underwent phosphorylation (monitored through the strengthening of the Raman band at 1600 cm−1 and the weakening of the Raman band at 1400 cm−1, respectively). In grafted wool keratin, cysteic acid and other oxidation products of disulphide bridges were detected together with sulphated residues. Only slight conformational changes were observed upon grafting, generally towards an enrichment in ordered domains, suggesting that the amorphous regions were more prone to react (and, sometimes, degrade). All samples were shown to be bioactive, with a weight gain of up to 8%. The most bioactive samples contained the highest phosmers amounts, i.e., the highest amounts of phosphate nucleating sites. The sulphate/sulphonate groups present in grafted wool samples appeared to increase bioactivity, as shown by the five-fold increase of the IR phosphate band at 1040 cm−1.

Published
2021

21. Assessing the Potential of the Terrestrial Cyanobacterium Anabaena minutissima for Controlling Botrytis cinerea on Tomato Fruits

Author

Antera Martel Quintana, Hillary Righini, Ornella Francioso, Roberta Roberti, Michele Di Foggia, Righini H., Francioso O., Di Foggia M., Quintana A.M., and Roberti R.

Subjects
0106 biological sciences, 0301 basic medicine, Cyanobacteria, food.ingredient, Pectin, aqueous extract, Plant Science, Cutin, Phycobiliprotein, Horticulture, tomato, 01 natural sciences, cyanobacteria, SB1-1110, Botrytis cinerea, 03 medical and health sciences, food, Botany, biocontrol, Mycelium, biology, Phototroph, Anabaena, fungi, antifungal activity, Plant culture, food and beverages, biology.organism_classification, Plant disease, FT-IR, 030104 developmental biology, phycobiliproteins, bacteria, 010606 plant biology & botany, FT-Raman
Abstract

Cyanobacteria are oxygenic phototrophs that have an essential role in soil N2 fixation, fertility, and water retention. Cyanobacteria are also natural sources of bioactive metabolites beneficial to improve plant vigor and potentially active against fungal plant pathogens. Therefore, we studied the antifungal activity of water extract (WE) and phycobiliproteins (PBPs) from Anabaena minutissima strain BEA 0300B against the fungal plant pathogen Botrytis cinerea on tomato fruits and in vitro. The water extract and PBPs were characterized by using FT-IR and FT-Raman spectroscopies. Both water extract (5 mg/mL) and PBPs (ranged from 0.3 to 4.8 mg/mL) reduced disease incidence and disease severity on tomato fruits and mycelium growth and colony forming units in vitro. For mycelium growth, a linear PBP dose-response was found. Tomato fruits were also characterized by FT-IR and FT-Raman spectroscopies in order to evaluate structural modifications induced by pathogen and PBP treatment. PBPs preserved cutin and pectin structures by pathogen challenge. In conclusion, A. minutissima can be considered a potential tool for future large-scale experiments for plant disease control.

Published
2021
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22. Post-Harvest Non-Conventional and Traditional Methods to Control Cadophora luteo-olivacea: Skin Pitting Agent of Actinidia chinensis var. deliciosa (A. Chev.)

Author

Alessandra Di Francesco, Elena Baraldi, Alessio Vittoria, Michele Di Foggia, Di Francesco A., Di Foggia M., Vittoria A., and Baraldi E.

Subjects
0106 biological sciences, Fungicide, Brassica, yeasts, Plant Science, Horticulture, Fludioxonil, 01 natural sciences, fungicides, Trichoderma, SB1-1110, 040501 horticulture, kiwifruit, Mycelium, biology, VOC, Plant culture, Trichoderma harzianum, VOCs, 04 agricultural and veterinary sciences, biology.organism_classification, Aureobasidium pullulans, Postharvest, 0405 other agricultural sciences, 010606 plant biology & botany
Abstract

Cadophora luteo-olivacea represents a critical problem for kiwifruit in the post-harvest phase, mainly for its little note epidemiology. The study presented some results about the possibility of preserving kiwifruit from skin pitting symptoms using alternative methods to fungicides. By in vitro assays, antagonist mechanisms of action against pathogen isolates were tested. Trichoderma harzianum (Th1) showed the highest inhibitory activity against C. luteo-olivacea isolates by volatile, non-volatile, and by dual culture assay, displaying an inhibition respectively by 90%, 70.6%, and 78.8%, and with respect to Aureobasidium pullulans (L1 and L8) by 23.3% and 25.8%, 50% and 34.7%, and 22.5% and 23.6%, respectively. Further, the sensitivity on CFU and mycelial growth of C. luteo-olivacea isolates to fludioxonil, and CaCl2 was tested, displaying interesting EC50 values (0.36 and 0.92 g L−1, 22.5 g L−1, respectively). The effect of Brassica nigra defatted meal was tested as biofumigation assays and through FT-IR (Fourier-Transform Infrared) spectroscopy. The above-mentioned treatments were applied in vivo to evaluate their efficacy on kiwifruits. Our data demonstrated that alternative solutions could be considered to control postharvest pathogens such as C. luteo-olivacea.

Published
2021
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23. SERS Investigation on Oligopeptides Used as Biomimetic Coatings for Medical Devices

Author

Armida Torreggiani, Daniele Cesini, Annj Zamuner, Stefano Ottani, Monica Dettin, Vitaliano Tugnoli, Michele Di Foggia, Santiago Sánchez-Cortés, Di Foggia M., Tugnoli V., Ottani S., Dettin M., Zamuner A., Sanchez-Cortes S., Cesini D., and Torreggiani A.

Subjects
biomimetic coating, Silver, Surface Properties, Nanoparticle, 02 engineering and technology, 010402 general chemistry, Photochemistry, Spectrum Analysis, Raman, 01 natural sciences, Biochemistry, DFT, Microbiology, Article, symbols.namesake, Colloid, Biomimetic Materials, Biomimetics, Amphiphile, Amphiphilic oligopeptides, Biomimetic coating, Oligopeptide–surface interaction, Oxidative stress, SERS, Humans, Nanoparticles, Oligopeptides, Peptides, Peptide bond, oxidative stress, Molecular Biology, Raman, oligopeptide–surface interaction, Oligopeptide, Chemistry, Spectrum Analysis, 021001 nanoscience & nanotechnology, QR1-502, 0104 chemical sciences, Membrane, Peptide, symbols, Oxidative stre, Biomimetic, Amphiphilic oligopeptide, amphiphilic oligopeptides, 0210 nano-technology, Raman scattering, Gamma irradiation, Biomimetic Material, Human
Abstract

20 pags., 5 figs., 3 tabs. This article belongs to the Special Issue Peptides and Proteins as Innovative Biomaterials, The surface-enhanced Raman scattering (SERS) spectra of three amphiphilic oligopeptides derived from EAK16 (AEAEAKAK) were examined to study systematic amino acid substitution effects on the corresponding interaction with Ag colloidal nanoparticles. Such self-assembling molecular systems, known as “molecular Lego”, are of particular interest for their uses in tissue engineering and as biomimetic coatings for medical devices because they can form insoluble macroscopic membranes under physiological conditions. Spectra were collected for both native and gamma-irradiated samples. Quantum mechanical data on two of the examined oligopeptides were also obtained to clarify the assignment of the prominent significative bands observed in the spectra. In general, the peptide–nanoparticles interaction occurs through the COO groups, with the amide bond and the aliphatic chain close to the colloid surface. After gamma irradiation, mimicking a free oxidative radical attack, the SERS spectra of the biomaterials show that COO groups still provide the main peptide–nanoparticle interactions. However, the spatial arrangement of the peptides is different, exhibiting a systematic decrease in the distance between aliphatic chains and colloid nanoparticles.

Published
2021

24. Changes in organic compounds secreted by roots in two Poaceae species (Hordeum vulgare and Polypogon monspenliensis) subjected to iron deficiency

Author

Dorsaf Nakib, Adamo Domenico Rombola, Chedly Abdelly, Michele Di Foggia, Tarek Slatni, Nakib D., Slatni T., Di Foggia M., Rombola A.D., and Abdelly C.

Subjects
0106 biological sciences, 0301 basic medicine, Phytosiderophore, Siderophores, Plant Science, Biology, Poaceae, 01 natural sciences, Plant Roots, 03 medical and health sciences, Siderophore, Polypogon monspenliensi, Botany, Humans, Iron deficiency (plant disorder), Hordeum vulgare, Chlorosis, Anemia, Iron-Deficiency, Iron deficiency, Root exudate, food and beverages, Plant physiology, Plant Root, Intercropping, Hordeum, biology.organism_classification, Plant ecology, 030104 developmental biology, Polypogon, Organic acid, Human, 010606 plant biology & botany
Abstract

Despite their economic and ecological interests, Poaceae are affected by the low availability of iron in calcareous soils. Several studies focused on the capacity of this family to secrete phytosiderophores and organic acids as a mechanism of tolerance to iron deficiency. This work aimed at studying the physiological responses of two Poaceae species; Hordeum vulgare (cultivated barley) and Polypogon monspenliensis (spontaneous species) to iron deficiency, and evaluate especially the release of phytosiderophores and organic acids. For this purpose, seedlings of these two species were cultivated in complete nutrient solution with or without iron. The biomass production, iron status, phytosiderophores and organic acids release by roots were studied. The results demonstrated that Polypogon monspenliensis was relatively more tolerant to iron deficiency than Hordeum vulgare. Polypogon monspenliensis had the ability to secrete a higher amount of phytosiderophores and organic acids, especially citric, acetic, oxalic and malic acids, compared to Hordeum vulgare. We propose this spontaneous species as a forage plant in calcareous soils and in intercropping systems with fruit trees to prevent iron chlorosis.

Published
2020

25. Does the addition of vitamin E to conventional UHMWPE improve the wear performance of hip acetabular cups? Micro-Raman characterization of differently processed polyethylene acetabular cups worn on a hip joint simulator

Author

Paola Taddei, M. Di Foggia, Saverio Affatato, Di Foggia M., Affatato S., and Taddei P.

Subjects
0301 basic medicine, Medicine (General), Materials science, QH301-705.5, Physiology, medicine.medical_treatment, Immunology, Biophysics, Vitamin-E doped PE, Ocean Engineering, Biochemistry, 03 medical and health sciences, chemistry.chemical_compound, R5-920, 0302 clinical medicine, Molecular level, Materials Testing, medicine, Vitamin E, Cross-linked PE, Biology (General), General Pharmacology, Toxicology and Pharmaceutics, Composite material, General Neuroscience, Hip joint simulator, Cell Biology, General Medicine, Polyethylene, Wear testing, Microstructure, Hip simulator, 030104 developmental biology, chemistry, Micro raman, 030220 oncology & carcinogenesis, Phase composition, Raman spectroscopy, Standard UHMWPE, Hip Joint, Hip Prosthesis, sense organs, Polyethylenes, human activities, Research Article
Abstract

In knee replacements, vitamin E-doped ultra-high molecular weight polyethylene (UHMWPE) shows a better wear behavior than standard UHMWPE. Therefore, different sets of polyethylene (PE) acetabular cups, i.e. standard UHMWPE and cross-linked polyethylene irradiated with 50 kGy and 75 kGy, were compared, at a molecular level, with vitamin E-doped UHMWPE to evaluate their wear performance after being tested on a hip joint simulator for five million cycles. Unworn control and worn acetabular cups were analyzed by micro-Raman spectroscopy to gain insight into the effects of wear on the microstructure and phase composition of PE. Macroscopic wear was evaluated through mass loss measurements. The data showed that the samples could be divided into two groups: 1) standard and vitamin E-doped cups (mass loss of about 100 mg) and 2) the cross-linked cups (mass loss of about 30-40 mg). Micro-Raman spectroscopy disclosed different wear mechanisms in the four sets of acetabular cups, which were related to surface topography data. The vitamin E-doped samples did not show a better wear behavior than the cross-linked ones in terms of either mass loss or morphology changes. However, they showed lower variation at the morphological level (lower changes in phase composition) than the UHMWPE cups, thus confirming a certain protecting role of vitamin E against microstructural changes induced by wear testing.

Published
2020

26. 3D temperature mapping of a ceramic shell mould in investment casting process via infrared thermography

Author

Michele Di Foggia, Mattia Contino, Carlo Salvatore Greco, Gennaro Cardone, Gerardo Paolillo, C. Caramiello, Greco, C. S., Paolillo, G., Contino, M., Caramiello, C., Di Foggia, M., and Cardone, G.

Subjects
0209 industrial biotechnology, Materials science, Investment casting, Infrared, ceramic shell mold, Process (computing), Shell (structure), Mechanical engineering, 02 engineering and technology, Index terms—3D temperature map reconstruction, 021001 nanoscience & nanotechnology, computer.software_genre, Simulation software, 020901 industrial engineering & automation, visual_art, investment casting, Thermography, infrared thermography, visual_art.visual_art_medium, Ceramic, Electrical and Electronic Engineering, 0210 nano-technology, Instrumentation, computer, Temperature mapping
Abstract

Investment casting is a leading technique to manufacture very reliable components. The design and the optimization of this process are usually performed by simulation software and/or by means of simplified models based on heat transfer coefficients obtained by solving the inverse heat conduction problem (IHCP). Both methods require experimental tests, that involve temperature measurements, aiming at validating the investment casting simulations or evaluating the heat transfer coefficients in the IHCP. Typically, all these temperature measurements are performed with thermocouples that are characterized by several limits, such as heat transfer alteration, approximate location of the measurement points, and spatial-limited evaluation of the heat transfer coefficients. In order to overcome these limits, the infrared thermography is proposed as an alternative measurement technique. The infrared thermography allows to obtain complete and spatial-accurate information about the surface temperature of an investigated body which, in particular, is a ceramic shell mould in the present work. Since the infrared thermography is a 2D technique, the purpose of this work is to provide a procedure to experimentally reconstruct the 3D temperature surface distribution of this ceramic shell mould in a real industrial environment with all its space and time constraints.

Published
2020

27. Vibrational Raman and IR data on brown hair subjected to bleaching

Author

Michele Di Foggia, Gabriele Micheletti, Carla Boga, Benedetta Nocentini, Paola Taddei, Di Foggia M., Boga C., Micheletti G., Nocentini B., and Taddei P.

Subjects
Science (General), Computer applications to medicine. Medical informatics, R858-859.7, Infrared spectroscopy, Cysteic acid, Hair keratin, Q1-390, visual_art.color, chemistry.chemical_compound, symbols.namesake, Secondary structure, Disulfide bridge, Hydrogen peroxide, Data Article, Cuticle (hair), Multidisciplinary, Disulfide bridges, Persulfate, chemistry, IR spectroscopy, Brown hair, visual_art, Raman spectroscopy, symbols, Bleaching, sense organs, Nuclear chemistry
Abstract

Brown human hair was bleached three times (45 min × 3) and four times (45 min × 3 + 15 min) with commercial formulations containing persulfate salts and hydrogen peroxide. The hair samples were characterized by Raman and IR spectroscopy in the Attenuated Total Reflectance (ATR) mode to gain more insights into the possible secondary structure and Cα-Cβ-S-S-Cβ-Cα conformational changes induced by bleaching. The latter were evaluated through band-fitting procedures; the relative content of the disulfide bridges and oxidized sulfur species (cysteic acid, Bunte salt, cystine oxides) was assessed. The observed conformational changes could be significant in developing restoring agents to be used after hair decoloration. The use of two different spectroscopic techniques allowed to discriminate the information coming from the cortical region of hair (Raman) and the cuticle (ATR/IR). This article refers to “Structural investigation on damaged hair keratin treated with α,β-unsaturated Michael acceptors used as repairing agents” (Di Foggia et al., Int. J. Biol. Macromol. 167 (2021) 620–632 https://doi.org/10.1016/j.ijbiomac.2020.11.194 ).

Published
2021

28. Surface enhanced Raman scattering and quantum-mechanical calculations on self-assembling oligopeptides

Author

Michele Di Foggia, Anna Tinti, Daniele Cesini, Armida Torreggiani, Stefano Ottani, Santiago Sánchez-Cortés, Annj Zamuner, Monica Dettin, Di Foggia, M., Ottani, S., Torreggiani, A., Dettin, M., Zamuner, A., Sanchez-Cortes, S., Cesini, D., and Tinti, A.

Subjects
Surface (mathematics), Materials science, amino acid substitution, DFT, oligopeptide-surface interaction, self-assembling peptides, SERS, Materials Science (all), Spectroscopy, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, symbols.namesake, Self assembling, General Materials Science, Quantum, Oligopeptide, Amino acid substitution, 021001 nanoscience & nanotechnology, 0104 chemical sciences, autoassembling oligopeptides, Raman spectroscopy, SERS, secondary structure, Crystallography, symbols, 0210 nano-technology, Raman spectroscopy, Raman scattering
Abstract

Five alternating polar/non-polar peptides derived from the self-assembling peptide EAK-16 (AEAEAKAK)2 were examined in comparison with the EAK-16 parent form (pept1). The peptides were studied for their possible use as biomimetic materials due to their auto-assembling properties and to the presence, in two of them, of the RGD sequence, an active modulator of cell adhesion. The use of SERS allows the detection of peptides at very low concentrations (10-5-10-6 M), a feature of extreme interest to check their presence in the aqueous environment surrounding a metal implant and to study the effects of systematic amino acid substitution along the peptide chain on the corresponding interaction with the Ag colloidal nanoparticles. Quantum-mechanical data on two of the examined peptides were carried out and were very useful for clarifying the bands assignment debated in the literature. The results indicate that, in general, the peptide-nanoparticle interaction takes place through the carboxylate groups. The SERS spectrum displays an enhancement of the bands attributed to carboxylate vibrations, indicating that these groups directly interact with the nanoparticles. The most prominent band of carboxylate groups appears at 1393 cm-1 (symmetrical COO- stretching), intensified and red shifted of about 10 cm-1, as compared to the FT-Raman spectrum. This effect can be attributed to the proximity of the COO- group to the surface and to a charge transfer mechanism. Moreover, other bands can be attributed to COO- vibrations: 909 cm-1 (C-COO- stretching), 655 cm-1 (COO- bending) and 563 cm-1 (COO- wagging). The theoretical calculations pointed out that the last two bands are mixed with amide motions. As regards the other examined peptides, the spacer substitution in the sequence is a factor able to affect the peptide-Ag particles interaction: the increase in the hydrophobic chain length (Ala substituted by 2-aminobutanoic acid) favors the interaction by NH3+ groups, although the charge transfer interaction with the COO- ions is still the main interaction with the colloid. In fact, the presence of many SERS bands attributable to the NH3+ moieties of the Lys amino acid side chains, indicates the existence of interactions between the NH3+ groups and the nanoparticles, mediated by the Cl- anions present in the colloidal solution. The substitution of Ala with an aromatic Tyr residue strongly affects the interaction mechanism: the Tyr residue lies in a position close to perpendicular to the silver surface, partly as tyrosinate ion.

Published
2018

29. DSC and Raman study of DMPC liposomes in presence of Ibuprofen at different pH

Author

Anna Tinti, M. Di Foggia, Sergio Bonora, Vitaliano Tugnoli, Di Foggia, M, Bonora, S., Tinti, A., and Tugnoli, V.

Subjects
Ibuprofen, 02 engineering and technology, Condensed Matter Physic, 01 natural sciences, DSC, symbols.namesake, Differential scanning calorimetry, medicine, Physical and Theoretical Chemistry, Liposome, Chromatography, Chemistry, Bilayer, technology, industry, and agriculture, Penetration (firestop), 021001 nanoscience & nanotechnology, Condensed Matter Physics, 010406 physical chemistry, 0104 chemical sciences, Membrane, Raman spectroscopy, symbols, DMPC, 0210 nano-technology, Drug carrier, Nuclear chemistry, medicine.drug
Abstract

Ibuprofen (IbuH), 2-(4-isobutylphenyl) propionic acid, is a well-known nonsteroidal anti-inflammatory drug and is a promising antiatherosclerotic agent. Since IbuH has demonstrated to affect cell membranes structure, the study of the interaction between the membrane components, like phospholipids, and the drug, is of paramount interest. Moreover, liposomes can be used as drug carriers. In this paper, the effect of increasing amounts of Ibuprofen at neutral and acidic pH on the behaviour of dimyristoylphosphatidylcholine (DMPC) liposomes was investigated by means of Raman and differential scanning calorimetry (DSC) techniques. The results showed that pH influenced noticeably the liposome structure. A simple ‘solution-like’ model can explain the system when small or high IbuH or IbuNa (IbuH sodium salt forming at neutral and basic pH) amounts are present (IbuH/DMPC molar ratio ≤1/8.3 or ≥1/2.2 or IbuNa/DMPC molar ratio ≤1/17.5 or ≥1/4), whereas at intermediate amounts, two DSC peaks appeared: these systems could be described as a mixture of ‘phase II’ domains inserted within a structure of smaller and further ramified ‘phase I’ domains. Both DSC and Raman data suggested IbuH can penetrate within the apolar bilayer at pH 3, while at pH 7, the setting up of polar interactions of different strength between the carboxylic groups of IbuNa and the choline head of the DMPC, hamper a further penetration of the drug. Similar results were obtained both inserting directly IbuH molecules into liposomes as well as acidifying IbuNa water solutions, suggesting a possible use of liposomes as drug carriers when polarity is pH dependent.

Published
2017

30. Spectroscopic and morphological data assessing the apatite forming ability of calcium hydroxide-releasing materials for pulp capping

Author

Paola Taddei, Carlo Prati, Maria Giovanna Gandolfi, Michele Di Foggia, Di Foggia M., Prati C., Gandolfi M.G., and Taddei P.

Subjects
chemistry.chemical_element, Balanced salt solution, Calcium, lcsh:Computer applications to medicine. Medical informatics, Apatite, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, stomatognathic system, Calcium-releasing cement, Dentin, medicine, lcsh:Science (General), micro-Raman spectroscopy, 030304 developmental biology, Cement, Pulp capping material, 0303 health sciences, Multidisciplinary, Calcium hydroxide, Chemistry, Pulp capping, Demineralization, stomatognathic diseases, medicine.anatomical_structure, IR spectroscopy, apatite, visual_art, visual_art.visual_art_medium, lcsh:R858-859.7, 030217 neurology & neurosurgery, lcsh:Q1-390, Nuclear chemistry
Abstract

A pulp capping material must perform as a barrier and protect the dental pulpal complex by inducing the formation of a new dentin bridge or dentin-like tissue. Being a favorable condition for the healing process, the apatite forming ability of TheraCal (light-curable Portland-dimethacrylate cement) and Dycal (calcium hydroxide-based) pulp capping materials was studied in two simulated body fluids, i.e. Dulbecco’s Phosphate Buffered Saline (DPBS) and Hank’s Balanced Salt Solution (HBSS). The cements were analyzed before and after soaking in these media for different times (1–28 days) by ESEM-EDX, micro-Raman and IR spectroscopy. This data article refers to “An in vitro study on dentin demineralization and remineralization: collagen rearrangements and influence on the enucleated phase” (Di Foggia et al., 2019).

Published
2019

31. Chemical and physical characterization of thermal aggregation of model proteins modulated by zinc(II) and copper(II) ions

Author

Giovanna Navarra, Armida Torreggiani, M. Di Foggia, Anna Tinti, Valeria Militello, Torreggiani, A., Navarra, G., Tinti, A., Di Foggia, M., and Militello, V.

Subjects
inorganic chemicals, 0301 basic medicine, Metal ions in aqueous solution, Kinetics, Inorganic chemistry, Beta-lactoglobulin, chemistry.chemical_element, Zinc, Protein aggregation, 010402 general chemistry, 01 natural sciences, Bovine Serum Albumin (BSA), Beta-lactoglobulin, bovine serum albumin (BSA), copper and zinc ions,Raman spectroscopy, dynamic light scattering, Metal, 03 medical and health sciences, Protein structure, Dynamic light scattering, copper and zinc ion, Radiology, Nuclear Medicine and imaging, copper and zinc ions, Bovine serum albumin, Raman spectroscopy, dynamic light scattering, biology, digestive, oral, and skin physiology, 0104 chemical sciences, 030104 developmental biology, chemistry, visual_art, Biophysics, biology.protein, visual_art.visual_art_medium
Abstract

BACKGROUND: Metal ions are implicated in protein aggregation processes of several neurodegenerative pathologies, where the protein deposition occurs, and in the biotechnology field like the food technology where many processes in food manufacturing are based on thermal treatments. OBJECTIVE: The influence of Cu2+ or Zn2+ ions on the thermal aggregation process of Bovine beta-lactoglobulin (BLG) and Bovine Serum Albumin (BSA), two protein models, was studied with the aim of delineating the role of these ions in the protein aggregation kinetics and to clarify the related molecular mechanisms. METHODS: The protein structure changes were monitored by Raman spectroscopy, whereas the aggregate growth was followed by Dynamic Light Scattering measurements. RESULTS: Both metal ions are able to favour the BLG aggregation, whereas only Zn2+ ions have a promoter effect on the thermal aggregation of BSA. The reason of this different behaviour is that the BLG aggregation evolution is manly affected by the redistribution of charges, whereas that of BSA by the metal coordination binding which depends on metal. CONCLUSIONS: Raman spectroscopy, combined with dynamic light scattering experiments, was very useful in identifying the role played by Cu2+ and Zn2+ on the aggregation pathways of BLG and BSA. The results provide evidence for the role of histidine residues both in the redistribution of charges and in the two modes of metal binding that take place in BLG- and BSA-containing systems, respectively.

Published
2016

32. It’s all about the surface! Vibrational spectroscopy applied to the study of biomimetic surfaces in Tissue Engineering

Author

DI FOGGIA, MICHELE, TADDEI, PAOLA, BONORA, SERGIO, TINTI, ANNA, Torreggiani, A., Dettin, M., F. Bella and D. Spinelli, Di Foggia, M., Torreggiani, A., Taddei, P., Bonora, S., Dettin, M., and Tinti, A.

Abstract

Tissue Engineering is a multidisciplinary field aimed at the creation of biological substitutes that restore and maintain the biological function of a damaged tissue. The key of the success of these biomedical devices lies into surface interactions with living tissues, therefore a common strategy is to create biomimetic surfaces that helps cells to colonize the biomaterial, leading to tissue healing. Vibrational spectroscopy, in particular Raman, apart from being mainly surface and non-destructive technique, is extremely sensitive to changes in structure and molecular interactions, thus its use in investigating biomimetic devices is increasing. In particular, we have recently used vibrational spectroscopies to investigate different biomimetic materials and to test some of their proprieties: - self-assembling peptides adsorbed on titanium surfaces for bone implants [1], analyzed before and after attack from free radicals (obtained by gamma-radiolysis and mimicking inflammation processes) [2], with the aim to evaluate their capability in resisting to oxidative stress; - composite (ceramic-polymer, polymer-polymer) bioresorbable biomaterials [3, 4]; - hydroxyapatite nanomaterials functionalized with proteins to increase biocompatibility [5-7]. [1] M. Di Foggia, P. Taddei, A. Torreggiani, M. Dettin, A. Tinti, J. Raman Spectrosc. 42 (2011) 276-285. [2] M. Di Foggia, A. Torreggiani, P. Taddei, M. Dettin, A. Tinti, J. Raman Spectrosc. 44 (2013) 1446-1450. [3] V. Guarino, F. Causa, P. Taddei, M. Di Foggia, G. Ciapetti, D. Martini, C. Fagnano, N. Baldini, L. Ambrosio, Biomaterials 29 (2008) 3662-3670. [4] V. Guarino, P. Taddei, M. Di Foggia, C. Fagnano, G. Ciapetti, L. Ambrosio, Tissue Eng. A 15 (2009) 3655-3668. [5] M. Iafisco, B. Palazzo, G. Falini, M. Di Foggia, S. Bonora, S. Nicolis, L. Casella, N. Roveri, Langmuir 24 (2008) 4924-4930. [6] M. Iafisco, M. Di Foggia, S. Bonora, M. Prat, N. Roveri, Dalton Trans. 40 (2011) 820-827. [7] M. Iafisco, E. Varoni, M. Di Foggia, S. Pietronave, M. Fini, N. Roveri, L. Rimondini, M. Prat, Colloids Surf.s B 90 (2012) 1-7.

Published
2015

33. Mushroom By-Products as a Source of Growth Stimulation and Biochemical Composition Added-Value of Pleurotus ostreatus , Cyclocybe cylindracea , and Lentinula edodes .

Author

Carminati G, Di Foggia M, Garagozzo L, and Di Francesco A

Abstract

Spent mushroom substrates (SMSs) and mushroom basal bodies (MBBs) are significant by-products because of their nutrient content even after harvesting. This study aimed to evaluate the effect of these two by-products, derived from Agaricus bisporus (Ab) and Cyclocybe cylindracea (Cc) cultivation, as potential growth and biochemical composition add-value enhancers of edible mushroom mycelia such as Pleurotus ostreatus , C. cylindracea , and Lentinula edodes . Fungal growth substrates enriched with SMS and MBB extracts significantly affected the growth of mushroom mycelia. In particular, on P. ostreatus , the MBBs Ab and Cc extracts determined an increase in mycelial weight by 89.5%. Also, by-products influenced mushrooms' mycelial texture, which appeared more floccose and abundant in growth. FT-IR analysis showed that L. edodes mycelium, grown on MBB substrates, showed the highest increase in bands associated with proteins and chitin. Results demonstrated that mushroom by-products enhance mycelial growth and confer an enrichment of compounds that could increase mycelial resistance to pathogens and make a nutraceutical improvement.

Published
2024
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34. Yeasts volatile organic compounds (VOCs) as potential growth enhancers and molds biocontrol agents of mushrooms mycelia.

Author

Di Francesco A, Moret E, Cignola R, Garagozzo L, Torelli E, and Di Foggia M

Subjects
Antifungal Agents pharmacology, Antifungal Agents metabolism, Biological Control Agents pharmacology, Biological Control Agents chemistry, Metschnikowia growth & development, Metschnikowia drug effects, Metschnikowia metabolism, Antibiosis, Aureobasidium, Trichoderma growth & development, Trichoderma chemistry, Trichoderma metabolism, Solid Phase Microextraction, Volatile Organic Compounds pharmacology, Volatile Organic Compounds metabolism, Volatile Organic Compounds chemistry, Mycelium growth & development, Mycelium drug effects, Mycelium chemistry, Agaricales chemistry, Agaricales growth & development, Agaricales drug effects, Agaricales metabolism, Gas Chromatography-Mass Spectrometry
Abstract

Volatile organic compounds (VOCs) produced by yeasts can positively affect crops, acting as antifungals or biostimulants. In this study, Aureobasidium pullulans and Metschnikowia pulcherrima were evaluated as potential antagonists of Trichoderma spp., common fungal pathogen in mushroom cultivation. To assess the biocontrol ability and biostimulant properties of the selected yeast species, in vitro co-culture and VOCs exposure assays were conducted. In both assays, VOCs produced by Aureobasidium spp. showed the stronger antifungal activity with a growth inhibition up to 30 %. This result was further confirmed by the higher volatilome alcohol content revealed by solid phase microextraction-gas chromatography mass spectrometry (SPME/GC-MS). Overall, Aureobasidium strains can be potentially used as biocontrol agent in Pleorotus ostreatus and Cyclocybe cylindracea mycelial growth, without affecting their development as demonstrated by VOCs exposure assay and Fourier-transform infrared spectroscopy (FT-IR). Conversely, M. pulcherrima was characterized by a lower or absent antifungal properties and by a volatilome composition rich in isobutyl acetate, an ester often recognized as plant growth promoter. As confirmed by FT-IR, Lentinula mycelia exposed to M. pulcherrima VOCs showed a higher content of proteins and lipids, suggesting an improvement of some biochemical properties. Our study emphasizes that VOCs produced by specific yeast strains are potentially powerful alternative to synthetic fungicide in the vegetative growth of mushroom-forming fungi and also able to modify their biochemical composition., Competing Interests: Declaration of competing interest The authors declare no conflict of interest., (Copyright © 2024 British Mycological Society. All rights reserved.)

Published
2024
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35. Interactions between Damaged Hair Keratin and Juglone as a Possible Restoring Agent: A Vibrational and Scanning Electron Microscopy Study.

Author

Di Foggia M, Taddei P, Boga C, Nocentini B, and Micheletti G

Subjects
Microscopy, Electron, Scanning, Hair, Keratins, Hair-Specific, Acetylcysteine, Naphthoquinones, Sulfites
Abstract

Juglone, a quinonic compound present in walnut extracts, was proposed as a restoring agent for hair keratin treated with permanent or discoloration processes. The proposed mechanism of restoration by juglone involves the formation of a Michael adduct between the quinone and the thiol moieties of cysteine residues. To this purpose, the first part of the present paper involved the spectroscopic study of the product of the reaction between juglone and N-acetyl-L-cysteine as a model compound. IR spectroscopy and Scanning Electron Microscopy (SEM) monitored the chemical and morphological variations induced by applying juglone to hair keratin. In order to simulate the most common hair treatments (i.e., permanent and discoloration), juglone was applied to hair that had been previously treated with a reducing agent, i.e., methyl thioglycolate (MT) or with bleaching agents (based on hydrogen peroxide and persulfates) followed by sodium hydrogen sulfite. IR spectroscopy allowed us to monitor the formation of Michael adducts between juglone and cysteine residues: the Michael adducts' content was related to the cysteine content of the samples. In fact, MT and sodium hydrogen sulfite favored the reduction of the disulfide bonds and increased the content of free cysteine residues, which can react with juglone. SEM analyses confirmed the trend observed by IR spectroscopy since hair samples treated with juglone adopted a more regular hair surface and more imbricated scales, thus supporting the possible use of juglone as a restoring agent for damaged hair keratins.

Published
2024
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36. Guttapercha Improves In Vitro Bioactivity and Dentin Remineralization Ability of a Bioglass Containing Polydimethylsiloxane-Based Root Canal Sealer.

Author

Taddei P, Di Foggia M, Zamparini F, Prati C, and Gandolfi MG

Subjects
Dental Pulp Cavity, Silicates, Dimethylpolysiloxanes pharmacology, Dentin, Materials Testing, Gutta-Percha, Calcium Compounds
Abstract

Guttapercha (GP, trans-1,4-polyisoprene) is the most used tooth root filling material, and it must be used with an appropriate cement (typically a polydimethylsiloxane (PDMS)-based sealer) to ensure an adequate canal obturation. This study aimed to assess the bioactivity and dentin remineralization ability of a bioglass containing PDMS commercial endodontic sealer, BG-PDMS (GuttaFlow Bioseal), and to evaluate the possible influence of a GP cone (Roeko GP point) on the mineralization process. To this end, BG-PDMS disks were aged alone or in the presence of a GP cone in Hank's Balanced Salt Solution (28 d, 37 °C). Dentin remineralization experiments were carried out under the same conditions. Micro-Raman and IR analyses demonstrated that BG-PDMS is bioactive, thanks to the formation of a silica-rich layer with nucleation sites for B-type carbonated apatite deposition. This phase was thicker when BG-PDMS was aged in the presence of GP. The two materials influenced each other because GP, which alone did not show any bioactivity, nucleated a calcium phosphate phase under these conditions. Analogously, dentin remineralization experiments showed that BG-PDMS is able to remineralize dentin, especially in the presence of GP. Under the experimental conditions, GP acted as a templating agent for calcium phosphate deposition.

Published
2023
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37. Proteolytically Resistant Bioactive Peptide-Grafted Sr/Mg-Doped Hardystonite Foams: Comparison of Two Covalent Functionalization Strategies.

Author

Zamuner A, Zeni E, Elsayed H, Di Foggia M, Taddei P, Pasquato A, Di Silvio L, Bernardo E, Brun P, and Dettin M

Abstract

Hardystonite-based (HT) bioceramic foams were easily obtained via thermal treatment of silicone resins and reactive oxide fillers in air. By using a commercial silicone, incorporating strontium oxide and magnesium oxide precursors (as well as CaO and ZnO), and treating it at 1100 °C, a complex solid solution (Ca 1.4 Sr 0.6 Zn 0.85 Mg 0.15 Si 2 O 7 ) that has superior biocompatibility and bioactivity properties compared to pure hardystonite (Ca 2 ZnSi 2 O 7 ) can be obtained. Proteolytic-resistant adhesive peptide mapped on vitronectin (D2HVP), was selectively grafted to Sr/Mg-doped HT foams using two different strategies. Unfortunately, the first method (via protected peptide) was unsuitable for acid-sensitive materials such as Sr/Mg-doped HT, resulting in the release of cytotoxic levels of Zinc over time, with consequent negative cellular response. To overcome this unexpected result, a novel functionalization strategy requiring aqueous solution and mild conditions was designed. Sr/Mg-doped HT functionalized with this second strategy (via aldehyde peptide) showed a dramatic increase in human osteoblast proliferation at 6 days compared to only silanized or non-functionalized samples. Furthermore, we demonstrated that the functionalization treatment does not induce any cytotoxicity. Functionalized foams enhanced mRNA-specific transcript levels coding IBSP , VTN , RUNX2 , and SPP1 at 2 days post-seeding. In conclusion, the second functionalization strategy proved to be appropriate for this specific biomaterial and was effective at enhancing the material's bioactivity.

Published
2023
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38. Vibrational Study on the Structure, Bioactivity, and Silver Adsorption of Silk Fibroin Fibers Grafted with Methacrylonitrile.

Author

Di Foggia M, Tsukada M, and Taddei P

Subjects
Animals, Humans, Silver, Adsorption, Nitriles, Silk chemistry, Fibroins chemistry, Bombyx chemistry
Abstract

Natural fibers have received increasing attention as starting materials for innovative applications in many research fields, from biomedicine to engineering. Bombyx mori silk fibroin has become a material of choice in the development of many biomedical devices. Grafting represents a good strategy to improve the material properties according to the desired function. In the present study, Bombyx mori silk fibroin fibers were grafted with methacrylonitrile (MAN) with different weight gains. The potential interest in biomedical applications of MAN functionalization relies on the presence of the nitrile group, which is an acceptor of H bonds and can bind metals. IR and Raman spectroscopy were used to characterize the grafted samples and the possible structural changes induced by grafting. Afterward, the same techniques were used to study the bioactivity (i.e., the calcium phosphate nucleation ability) of MAN-grafted silk fibroins after ageing in simulated body fluid (SBF) for possible application in bone tissue engineering, and their interaction with Ag + ions, for the development of biomaterials with enhanced anti-microbial properties. MAN was found to efficiently polymerize on silk fibroin through polar amino acids (i.e., serine and tryptophan), inducing an enrichment in silk fibroin-ordered domains. IR spectroscopy allowed us to detect the nucleation of a thin calcium phosphate layer and the uptake of Ag + ions through the nitrile group, which may foster the application of these grafted materials in biomedical applications.

Published
2023
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39. Chemical-Physical Properties and Bioactivity of New Premixed Calcium Silicate-Bioceramic Root Canal Sealers.

Author

Zamparini F, Prati C, Taddei P, Spinelli A, Di Foggia M, and Gandolfi MG

Subjects
Calcium chemistry, Dental Pulp Cavity, Silicates chemistry, Water chemistry, Apatites, Root Canal Filling Materials chemistry
Abstract

The aim of the study was to analyze the chemical−physical properties and bioactivity (apatite-forming ability) of three recently introduced premixed bioceramic root canal sealers containing varied amounts of different calcium silicates (CaSi): a dicalcium and tricalcium silicate (1−10% and 20−30%)-containing sealer with zirconium dioxide and tricalcium aluminate (CERASEAL); a tricalcium silicate (5−15%)-containing sealer with zirconium dioxide, dimethyl sulfoxide and lithium carbonate (AH PLUS BIOCERAMIC) and a dicalcium and tricalcium silicate (10% and 25%)-containing sealer with calcium aluminate, tricalcium aluminate and tantalite (NEOSEALER FLO). An epoxy resin-based sealer (AH PLUS) was used as control. The initial and final setting times, radiopacity, flowability, film thickness, open pore volume, water absorption, solubility, calcium release and alkalizing activity were tested. The nucleation of calcium phosphates and/or apatite after 28 days aging in Hanks balanced salt solution (HBSS) was evaluated by ESEM-EDX, vibrational IR and micro-Raman spectroscopy. The analyses showed for NeoSealer Flo and AH Plus the longest final setting times (1344 ± 60 and 1300 ± 60 min, respectively), while shorter times for AH Plus Bioceramic and Ceraseal (660 ± 60 and 720 ± 60 min, respectively). Radiopacity, flowability and film thickness complied with ISO 6876/12 for all tested materials. A significantly higher open pore volume was observed for NeoSealer Flo, AH Plus Bioceramic and Ceraseal when compared to AH Plus (p < 0.05), significantly higher values were observed for NeoSealer Flo and AH Plus Bioceramic (p < 0.05). Ceraseal and AH Plus revealed the lowest solubility. All CaSi-containing sealers released calcium and alkalized the soaking water. After 28 days immersion in HBSS, ESEM-EDX analyses revealed the formation of a mineral layer that covered the surface of all bioceramic sealers, with a lower detection of radiopacifiers (Zirconium for Ceraseal and AH Plus Bioceramic, Tantalum for NeoSealer Flo) and an increase in calcium, phosphorous and carbon. The calcium phosphate (CaP) layer was more evident on NeoSealer Flo and AH Plus Bioceramic. IR and micro-Raman revealed the formation of calcium carbonate on the surface of all set materials. A thin layer of a CaP phase was detected only on AH Plus Bioceramic and NeoSealer Flo. Ceraseal did not show CaP deposit despite its highest calcium release among all the tested CaSi-containing sealers. In conclusion, CaSi-containing sealers met the required chemical and physical standards and released biologically relevant ions. Slight/limited apatite nucleation was observed in relation to the high carbonation processes.

Published
2022
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40. The Influence of the Matrix on the Apatite-Forming Ability of Calcium Containing Polydimethylsiloxane-Based Cements for Endodontics.

Author

Taddei P, Di Foggia M, Zamparini F, Prati C, and Gandolfi MG

Subjects
Apatites chemistry, Calcium Compounds chemistry, Calcium Phosphates chemistry, Dimethylpolysiloxanes chemistry, Hydroxyapatites, Materials Testing, Silicates chemistry, Calcium chemistry, Root Canal Filling Materials chemistry
Abstract

This study aimed to characterize the chemical properties and bioactivity of an endodontic sealer (GuttaFlow Bioseal) based on polydimethylsiloxane (PDMS) and containing a calcium bioglass as a doping agent. Commercial PDMS-based cement free from calcium bioglass (GuttaFlow 2 and RoekoSeal) were characterized for comparison as well as GuttaFlow 2 doped with dicalcium phosphate dihydrate, hydroxyapatite, or a tricalcium silicate-based cement. IR and Raman analyses were performed on fresh materials as well as after aging tests in Hank’s Balanced Salt Solution (28 d, 37 °C). Under these conditions, the strengthening of the 970 cm−1 Raman band and the appearance of the IR components at 1455−1414, 1015, 868, and 600−559 cm−1 revealed the deposition of B-type carbonated apatite. The Raman I970/I638 and IR A1010/A1258 ratios (markers of apatite-forming ability) showed that bioactivity decreased along with the series: GuttaFlow Bioseal > GuttaFlow 2 > RoekoSeal. The PDMS matrix played a relevant role in bioactivity; in GuttaFlow 2, the crosslinking degree was favorable for Ca2+ adsorption/complexation and the formation of a thin calcium phosphate layer. In the less crosslinked RoekoSeal, such processes did not occur. The doped cements showed bioactivity higher than GuttaFlow 2, suggesting that the particles of the mineralizing agents are spontaneously exposed on the cement surface, although the hydrophobicity of the PDMS matrix slowed down apatite deposition. Relevant properties in the endodontic practice (i.e., setting time, radiopacity, apatite-forming ability) were related to material composition and the crosslinking degree.

Published
2022
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41. Synthesis of thia-Michael-Type Adducts between Naphthoquinones and N -Acetyl- L -Cysteine and Their Biological Activity.

Author

Micheletti G, Boga C, Zalambani C, Farruggia G, Esposito E, Fiori J, Rizzardi N, Taddei P, Di Foggia M, and Calonghi N

Subjects
Acetylcysteine pharmacology, Cell Line, Tumor, HeLa Cells, Humans, Reactive Oxygen Species metabolism, Naphthoquinones metabolism, Naphthoquinones pharmacology, Neuroblastoma
Abstract

A series of naphthoquinones, namely, 1,4-naphthoquinone, menadione, plumbagin, juglone, naphthazarin, and lawsone, were reacted with N -acetyl- L -cysteine, and except for lawsone, which did not react, the related adducts were obtained. After the tuning of the solvent and reaction conditions, the reaction products were isolated as almost pure from the complex reaction mixture via simple filtration and were fully characterized. Therefore, the aim of this work was to evaluate whether the antitumor activity of new compounds of 1,4-naphthoquinone derivatives leads to an increase in ROS in tumor cell lines of cervical carcinoma (HeLa), neuroblastoma (SH-SY5Y), and osteosarcoma (SaOS2, U2OS) and in normal dermal fibroblast (HDFa). The MTT assay was used to assay cell viability, the DCF-DA fluorescent probe to evaluate ROS induction, and cell-cycle analysis to measure the antiproliferative effect. Compounds 8 , 9 , and 12 showed a certain degree of cytotoxicity towards all the malignant cell lines tested, while compound 11 showed biological activity at higher IC 50 values. Compounds 8 and 11 induced increases in ROS generation after 1 h of exposure, while after 48 h of treatment, only 8 induced an increase in ROS formation in HeLa cells. Cell-cycle analysis showed that compound 8 caused an increase in the number of G0/G1-phase cells in the HeLa experiment, while for the U2OS and SH-SY5Y cell lines, it led to an accumulation of S-phase cells. Therefore, these novel 1,4-naphthoquinone derivatives may be useful as antitumoral agents in the treatment of different cancers.

Published
2022
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42. Mn-Containing Bioactive Glass-Ceramics: BMP-2-Mimetic Peptide Covalent Grafting Boosts Human-Osteoblast Proliferation and Mineral Deposition.

Author

Cassari L, Brun P, Di Foggia M, Taddei P, Zamuner A, Pasquato A, De Stefanis A, Valentini V, Saceleanu VM, Rau JV, and Dettin M

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.

Published
2022
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43. Vibrational Study on Structure and Bioactivity of Protein Fibers Grafted with Phosphorylated Methacrylates.

Author

Di Foggia M, Tsukada M, and Taddei P

Subjects
Animals, Biocompatible Materials, Chemical Phenomena, Molecular Structure, Phosphorylation, Spectroscopy, Fourier Transform Infrared, Spectrum Analysis, Raman, Fibroins chemistry, Fibroins pharmacology, Keratins chemistry, Keratins pharmacology, Methacrylates chemistry, Silk chemistry, Wool chemistry
Abstract

In the last decades, silk fibroin and wool keratin have been considered functional materials for biomedical applications. In this study, fabrics containing silk fibers from Bombyx mori and Tussah silk fibers from Antheraea pernyi , as well as wool keratin fabrics, were grafted with phosmer CL and phosmer M (commercial names, i.e., methacrylate monomers containing phosphate groups in the molecular side chain) with different weight gains. Both phosmers were recently proposed as flame retarding agents, and their chemical composition suggested a possible application in bone tissue engineering. IR and Raman spectroscopy were used to disclose the possible structural changes induced by grafting and identify the most reactive amino acids towards the phosmers. The same techniques were used to investigate the nucleation of a calcium phosphate phase on the surface of the samples (i.e., bioactivity) after ageing in simulated body fluid (SBF). The phosmers were found to polymerize onto the biopolymers efficiently, and tyrosine and serine underwent phosphorylation (monitored through the strengthening of the Raman band at 1600 cm -1 and the weakening of the Raman band at 1400 cm -1 , respectively). In grafted wool keratin, cysteic acid and other oxidation products of disulphide bridges were detected together with sulphated residues. Only slight conformational changes were observed upon grafting, generally towards an enrichment in ordered domains, suggesting that the amorphous regions were more prone to react (and, sometimes, degrade). All samples were shown to be bioactive, with a weight gain of up to 8%. The most bioactive samples contained the highest phosmers amounts, i.e., the highest amounts of phosphate nucleating sites. The sulphate/sulphonate groups present in grafted wool samples appeared to increase bioactivity, as shown by the five-fold increase of the IR phosphate band at 1040 cm -1 .

Published
2021
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44. Vibrational Raman and IR data on brown hair subjected to bleaching.

Author

Di Foggia M, Boga C, Micheletti G, Nocentini B, and Taddei P

Abstract

Brown human hair was bleached three times (45 min × 3) and four times (45 min × 3 + 15 min) with commercial formulations containing persulfate salts and hydrogen peroxide. The hair samples were characterized by Raman and IR spectroscopy in the Attenuated Total Reflectance (ATR) mode to gain more insights into the possible secondary structure and C α -C β -S-S-C β -C α conformational changes induced by bleaching. The latter were evaluated through band-fitting procedures; the relative content of the disulfide bridges and oxidized sulfur species (cysteic acid, Bunte salt, cystine oxides) was assessed. The observed conformational changes could be significant in developing restoring agents to be used after hair decoloration. The use of two different spectroscopic techniques allowed to discriminate the information coming from the cortical region of hair (Raman) and the cuticle (ATR/IR). This article refers to "Structural investigation on damaged hair keratin treated with α,β-unsaturated Michael acceptors used as repairing agents" (Di Foggia et al., Int. J. Biol. Macromol. 167 (2021) 620-632 https://doi.org/10.1016/j.ijbiomac.2020.11.194)., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships which have or could be perceived to have influenced the work reported in this article., (© 2021 The Authors.)

Published
2021
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45. SERS Investigation on Oligopeptides Used as Biomimetic Coatings for Medical Devices.

Author

Di Foggia M, Tugnoli V, Ottani S, Dettin M, Zamuner A, Sanchez-Cortes S, Cesini D, and Torreggiani A

Subjects
Biomimetics methods, Humans, Nanoparticles chemistry, Oligopeptides pharmacology, Peptides, Silver chemistry, Surface Properties, Biomimetic Materials pharmacology, Oligopeptides chemistry, Spectrum Analysis, Raman methods
Abstract

The surface-enhanced Raman scattering (SERS) spectra of three amphiphilic oligopeptides derived from EAK16 (AEAEAKAK) 2 were examined to study systematic amino acid substitution effects on the corresponding interaction with Ag colloidal nanoparticles. Such self-assembling molecular systems, known as "molecular Lego", are of particular interest for their uses in tissue engineering and as biomimetic coatings for medical devices because they can form insoluble macroscopic membranes under physiological conditions. Spectra were collected for both native and gamma-irradiated samples. Quantum mechanical data on two of the examined oligopeptides were also obtained to clarify the assignment of the prominent significative bands observed in the spectra. In general, the peptide-nanoparticles interaction occurs through the COO - groups, with the amide bond and the aliphatic chain close to the colloid surface. After gamma irradiation, mimicking a free oxidative radical attack, the SERS spectra of the biomaterials show that COO - groups still provide the main peptide-nanoparticle interactions. However, the spatial arrangement of the peptides is different, exhibiting a systematic decrease in the distance between aliphatic chains and colloid nanoparticles.

Published
2021
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46. Structural investigation on damaged hair keratin treated with α,β-unsaturated Michael acceptors used as repairing agents.

Author

Di Foggia M, Boga C, Micheletti G, Nocentini B, and Taddei P

Subjects
Disulfides chemistry, Hair metabolism, Hair ultrastructure, Humans, Keratins, Hair-Specific chemistry, Maleates chemistry, Microscopy, Electron, Scanning, Shikimic Acid chemistry, Spectrum Analysis, Raman, Hair drug effects, Keratins, Hair-Specific metabolism, Maleates pharmacology, Shikimic Acid pharmacology
Abstract

Many restoring formulations for damaged hair keratin have been developed. Some patents claim that the hair repair occurs through the reconstruction of disulfide bridges of keratin, through α,β-unsaturated Michael acceptors, such as shikimic acid and bis-aminopropyl diglycol dimaleate. To gain more insights into the possible repairing mechanism, this study is aimed at assessing, by IR and Raman spectroscopies coupled to scanning electron microscopy (SEM), the structural changes induced in keratin from bleached hair by the treatment with commercial reconstructive agents as well as shikimic acid and dimethyl maleate, chosen as model compounds. Vibrational spectroscopy revealed that shikimic acid- and maleate-based restoring agents interacted with hair fibers modifying both their cortex and cuticle regions. None of the investigated treatments induced an increase in the SS disulfide bridges content of the hair cortex, although it cannot be excluded that this phenomenon could have occurred in the cuticle. SS rearrangements were found to occur. None of our results can be interpreted as direct evidence of the sulfa-Michael reaction/cross-linking. From a morphological point of view, beneficial effects of the restoring agents were observed by SEM analyses, in terms of a more regular hair surface and more imbricated scales., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published
2021
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47. Changes in organic compounds secreted by roots in two Poaceae species (Hordeum vulgare and Polypogon monspenliensis) subjected to iron deficiency.

Author

Nakib D, Slatni T, Di Foggia M, Rombolà AD, and Abdelly C

Subjects
Humans, Plant Roots, Poaceae, Siderophores, Anemia, Iron-Deficiency, Hordeum
Abstract

Despite their economic and ecological interests, Poaceae are affected by the low availability of iron in calcareous soils. Several studies focused on the capacity of this family to secrete phytosiderophores and organic acids as a mechanism of tolerance to iron deficiency. This work aimed at studying the physiological responses of two Poaceae species; Hordeum vulgare (cultivated barley) and Polypogon monspenliensis (spontaneous species) to iron deficiency, and evaluate especially the release of phytosiderophores and organic acids. For this purpose, seedlings of these two species were cultivated in complete nutrient solution with or without iron. The biomass production, iron status, phytosiderophores and organic acids release by roots were studied. The results demonstrated that Polypogon monspenliensis was relatively more tolerant to iron deficiency than Hordeum vulgare. Polypogon monspenliensis had the ability to secrete a higher amount of phytosiderophores and organic acids, especially citric, acetic, oxalic and malic acids, compared to Hordeum vulgare. We propose this spontaneous species as a forage plant in calcareous soils and in intercropping systems with fruit trees to prevent iron chlorosis.

Published
2021
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48. Preliminary Study on the Activity of Phycobiliproteins against Botrytis cinerea .

Author

Righini H, Francioso O, Di Foggia M, Quintana AM, and Roberti R

Subjects
Botrytis growth & development, Fruit microbiology, Fungicides, Industrial isolation & purification, Molecular Structure, Phycobiliproteins isolation & purification, Spores, Fungal drug effects, Spores, Fungal growth & development, Structure-Activity Relationship, Botrytis drug effects, Fungicides, Industrial pharmacology, Solanum lycopersicum microbiology, Phycobiliproteins pharmacology, Rhodophyta metabolism, Spirulina metabolism
Abstract

Phycobiliproteins (PBPs) are proteins of cyanobacteria and some algae such as rhodophytes. They have antimicrobial, antiviral, antitumor, antioxidative, and anti-inflammatory activity at the human level, but there is a lack of knowledge on their antifungal activity against plant pathogens. We studied the activity of PBPs extracted from Arthrospira platensis and Hydropuntia cornea against Botrytis cinerea , one of the most important worldwide plant-pathogenic fungi. PBPs were characterized by using FT-IR and FT-Raman in order to investigate their structures. Their spectra differed in the relative composition in the amide bands, which were particularly strong in A. platensis . PBP activity was tested on tomato fruits against gray mold disease, fungal growth, and spore germination at different concentrations (0.3, 0.6, 1.2, 2.4, and 4.8 mg/mL). Both PBPs reduced fruit gray mold disease. A linear dose-response relationship was observed for both PBPs against disease incidence and H. cornea against disease severity. Pathogen mycelial growth and spore germination were reduced significantly by both PBPs. In conclusion, PBPs have the potential for being also considered as natural compounds for the control of fungal plant pathogens in sustainable agriculture.

Published
2020
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49. Degradative Ability of Mushrooms Cultivated on Corn Silage Digestate.

Author

Fornito S, Puliga F, Leonardi P, Di Foggia M, Zambonelli A, and Francioso O

Subjects
Agaricales metabolism, Ascomycota metabolism, Coprinus metabolism, Lignin metabolism, Pleurotus metabolism, Polysaccharides metabolism, Silage analysis, Zea mays chemistry, Agaricales growth & development, Ascomycota growth & development, Coprinus growth & development, Pleurotus growth & development, Zea mays metabolism
Abstract

The current management practice of digestate from biogas plants involves its use for land application as a fertilizer. Nevertheless, the inadequate handling of digestate may cause environmental risks due to losses of ammonia, methane and nitrous oxide. Therefore, the key goals of digestate management are to maximize its value by developing new digestate products, reducing its dependency on soil application and the consequent air pollution. The high nitrogen and lignin content in solid digestate make it a suitable substrate for edible and medicinal mushroom cultivation. To this aim, the mycelial growth rate and degradation capacity of the lignocellulosic component from corn silage digestate, undigested wheat straw and their mixture were investigated on Cyclocybe aegerita, Coprinus comatus, Morchella importuna, Pleurotus cornucopiae and Pleurotus ostreatus . The structural modification of the substrates was performed by using attenuated total reflectance-Fourier transform infrared (ATR-FTIR) spectroscopy. Preliminary in vitro results demonstrated the ability of P. ostreatus , P. cornucopiae and M. importuna to grow and decay hemicellulose and lignin of digestate. Cultivation trials were carried out on C. aegerita , P. cornucopiae and P. ostreatus . Pleurotus ostreatus showed the highest biological efficiency and fruiting body production in the presence of the digestate; moreover, P. ostreatus and P. cornucopiae were able to degrade the lignin. These results provide attractive perspectives both for more sustainable digestate management and for the improvement of mushroom cultivation efficiency.

Published
2020
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50. Aureobasidium pullulans volatile organic compounds as alternative postharvest method to control brown rot of stone fruits.

Author

Di Francesco A, Di Foggia M, and Baraldi E

Subjects
Ascomycota growth & development, Ascomycota metabolism, Fruit microbiology, Fungicides, Industrial chemistry, Fungicides, Industrial metabolism, Mycelium drug effects, Mycelium growth & development, Prunus persica microbiology, Spores, Fungal drug effects, Spores, Fungal growth & development, Volatile Organic Compounds chemistry, Volatile Organic Compounds metabolism, Ascomycota chemistry, Fungicides, Industrial pharmacology, Plant Diseases microbiology, Volatile Organic Compounds pharmacology
Abstract

Volatile compounds produced by L1 and L8 strains were assayed against mycelia and conidia growth of Monilinia laxa, M. fructicola, M. polystroma, and M. fructigena of stone fruits. Results showed that volatile metabolites inhibited significantly pathogens growth, in particular M. fructigena mycelium growth (70% by L1 and 50% by L8) and M. fructicola conidia germination (85% by L1 and 70% by L8) compared to the control. Moreover, the antagonistic activity was enhanced by the addition of asparagine (120 mg L -1 ) in the culture media composition. Synthetic pure compounds were tested in vitro on pathogens mycelial and conidia growth and their EC 50 values were estimated, confirming 2-phenethyl as the most active compound. For this reason 2-phenethyl and VOCs of both yeast strains were assayed in vivo on cherry, peach, and apricot fruits. Regarding peach fruit, both treatments, yeasts and pure compounds, displayed the best inhibiting action against all the pathogens especially against M. laxa (100% by L1, 84% by L8 and 2-phenethyl). ATR/IR spectroscopy analysis showed how VOCs produced by both strains increase the fruit waxes complexity reducing the pathogens attack so playing an essential role in the antagonistic activity of both yeast strains and on fruit structural composition., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published
2020
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