Your search keyword '"Saracino E"' showing total 44 results

1. One year of surgical mask testing at the University of Bologna labs: Lessons learned from data analysis

Author

Boi, C., Borsetti, F., Brugo, T.M., Cappelletti, M., De Angelis, M.G., Fedi, S., Di Giacomo, S., Fabiani, T., Foli, G., Garelli, A., Genchi, U., Ghezzi, D., Gualandi, C., Lalli, E., Magnani, M., Maurizzi, A., Mazzi, F., Mehrabi, N., Minelli, M., Montalbano, R., Morelli, L., Nici, S., Onesti, R., Paglianti, A., Papchenko, K., Pappalardo, S., Parisi, N.F., Rapino, S., Reggio, M., Roselli, M., Ruggeri, E., Sabatini, L., Saracino, E., Scarponi, G.E., Serra, L., Signorini, V., Storione, A., Torsello, M., Tugnoli, E., Vargiu, C.M., Vidali, G., and Violante, F.S.

Published

2022

2. Validation of the BCLC Prognostic System in Surgical Hepatocellular Cancer Patients

Author

Vitale, A., Saracino, E., Boccagni, P., Brolese, A., D'Amico, F., Gringeri, E., Neri, D., Srsen, N., Valmasoni, M., Zanus, G., Carraro, A., Violi, P., Pauletto, A., Bassi, D., Polacco, M., Burra, P., Farinati, F., Feltracco, P., Romano, A., D'Amico, D.F., and Cillo, U.

Published

2009

3. Prospective Validation of a New Priority Allocation Model for Liver Transplant Candidates: An Interim Analysis

Author

Vitale, A., Saracino, E., D'Amico, F.E., Grigoletto, F., Burra, P., Angeli, P., Boccagni, P., Brolese, A., Zanus, G., Neri, D., Gringeri, E., D'Amico, F., Valmasoni, M., Carraro, A., Gambato, M., Feltracco, P., Romano, A., Buggio, M., D'Amico, D.F., and Cillo, U.

Published

2009

4. Graphene glial-interfaces: challenges and perspectives. Nanoscale

Author

Fabbri R , Saracino E , Treossi E , Zamboni R , Palermo V , Benfenati V .

Published

2021

5. Biomimetic graphene for enhanced interaction with the external membrane of astrocytes

Author

Durso, M., primary, Borrachero-Conejo, A. I., additional, Bettini, C., additional, Treossi, E., additional, Scidà, A., additional, Saracino, E., additional, Gazzano, M., additional, Christian, M., additional, Morandi, V., additional, Tuci, G., additional, Giambastiani, G., additional, Ottaviano, L., additional, Perrozzi, F., additional, Benfenati, V., additional, Melucci, M., additional, and Palermo, V., additional

Published

2018

6. Test report parte prima: 'Prove di lavaggio con acqua trattata'

Author

Michela Saracino e Alberto Zanelli

Subjects

macchine lavabiancheria, Riqualificazione acqua

Published

2013

7. Stima degli effetti dell’inquinamentoatmosferico sulla salute nel quartiere diBorsea a Rovigo nell’anno 2008

Author

Cocchio, Silvia, Gallo, L, Casale, P, Contessa, C, Casale, G, Simonato, Lorenzo, Furlan, P, Saracino, E, Baldovin, Tatjana, and Baldo, Vincenzo

Published

2010

8. Vaccinazioni e nanotecnologie

Author

Baldo, Vincenzo, Cocchio, Silvia, Saracino, E., Boemo, D. G., and Baldovin, Tatjana

Published

2010

9. Mortalità Evitabile nella popolazionedell’Azienda ULSS 18 della RegioneVeneto

Author

Mazzucco, T, Casale, P, Baldovin, Tatjana, Marcolongo, A, Venturini, M, Tessaro, S, Saracino, E, Furlan, P, and Baldo, Vincenzo

Published

2010

10. A PRIORITIZATION MODEL FOR LIVER TRANSPLANTATION BASED ON A DUAL WAITING LIST: A PROSPECTIVE CONTROLLED STUDY

Author

Gambato, M., Vitale, A., Brolese, A., Zanus, G., Amico, Francesco Enrico D., ENRICO GRINGERI, Senzolo, M., FRANCESCO PAOLO RUSSO, Grigoletto, F., Saracino, E., Martin, E., Umberto Cillo, and Patrizia Burra

Published

2009

11. Isometric exercise and common carotid artery haemodynamics in borderline and substained hypertensive subjects

Author

Saracino, E, primary

Published

2001

12. Effect of alcohol consumption versus abstinence on 24-h blood pressure profile in normotensive alcoholic patients

Author

MAIORANO, G, primary, BARTOLOMUCCI, F, additional, CONTURSI, V, additional, SARACINO, E, additional, and AGOSTINACCHIO, E, additional

Published

1995

13. KLOE first results on hadronic physics

Author

Adinolfi, M., Aloisio, A., Ambrosino, F., Andryakov, A., Antonelli, A., Antonelli, M., Anulli, F., Bacci, C., Bankamp, A., Barbiellini, G., Bellini, F., Bencivenni, G., Bertolucci, S., Bini, C., Bloise, C., Bocci, V., Bossi, F., Branchinin, P., Bulychjov, S. A., Cabibbo, G., Calcaterra, A., Caloi, R., Campana, P., Capon, G., Carbonim, G., Cardini, A., Casarsa, M., Cataldi, G., Ceradinin, F., Cervelli, F., Cevenini, F., Chiefari, G., Ciambrone, P., Conetti, S., Lucia, E., Robertis, G., Sangro, R., Simone, P., Zorzi, G., Agnello, S., Denig, A., Di Domenico, A., Di Donato, C., Di Falco, S., Doria, A., Drago, E., Elia, V., Erriquez, O., Felici, G., Ferrari, A., Ferrer, M. L., Finocchiaro, G., Forti, C., Franceschi, A., Franzini, P., Gao, M. L., Gatti, C., Paolo Gauzzi, Giovannella, S., Golovatyuk, V., Gorini, E., Grancagnolo, F., Grandegger, W., Grazianin, E., Guarnaccia, P., Hagel, U., Han, H. G., Han, S. W., Huang, X., Incagli, M., Ingrosso, L., Jiang, Y. Y., Kim, W., Kluge, W., Kulikov, V., Lacava, F., Lanfranchi, G., Lee-Franzini, Juliet, Lomtadze, T., Luisi, C., Mao, C. S., Martemianov, M., Martini, A., Matsyuk, M., Mei, W., Merola, L., Messim, R., Miscetti, S., Moalem, A., Moccia, S., Moulson, M., Mueller, S., Murtas, F., Napolitano, M., Nedosekin, A., Panareo, M., Pacciani, L., Pages, P., Palutan, M., Paoluzi, L., Pasqualucci, E., Passalacqua, L., Passaseo, M., Passerin, A., Patera, V., Petrolo, E., Petrucci, G., Picca, D., Pirozzi, G., Pistillo, C., Pollack, M., Pontecorvo, L., Primavera, M., Ruggieri, F., Santangelo, Paolo, Santovetti, E., Saracino, E., Schamberger, R. Dean, Schwick, C., Sciascia, B., Sciubba, A., Scuri, Fabrizio, Sfiligoi, I., Shan, J., Silano, P., Spadaro, T., Spagnolo, S., Spiriti, E., Stanescu, C., Tong, G. L., Tortora, L., Valente, E., Valente, P., Valeriani, B., Venanzoni, G., Veneziano, S., Wu, Y., Xie, Y. G., Zhao, P. P., Zhou, Y., M., Adinolfi, A., Aloisio, F., Ambrosino, A., Andryakov, A., Antonelli, M., Antonelli, F., Anulli, C., Bacci, A., Bankamp, G., Barbiellini, F., Bellinin, G., Bencivenni, S., Bertolucci, C., Bini, C., Bloise, V., Bocci, F., Bossi, P., Branchinin, S. A., Bulychjov, G., Cabibbo, A., Calcaterra, R., Caloi, P., Campana, G., Capon, G., Carbonim, A., Cardini, M., Casarsa, G., Cataldi, F., Ceradinin, F., Cervelli, F., Cevenini, G., Chiefari, P., Ciambrone, S., Conetti, E., DE LUCIA, G., DE ROBERTIS, R., DE SANGRO, P., DE SIMONE, G., DE ZORZI, S., Dell'Agnello, A., Denig, A., DI DOMENICO, C., DI DONATO, S., DI FALCO, A., Doria, E., Drago, V., Elia, O., Erriquez, G., Felici, A., Ferrari, M. L., Ferrer, G., Finocchiaro, C., Forti, A., Franceschi, P., Franzini, M. L., Gao, C., Gatti, P., Gauzzi, S., Giovannella, V., Golovatyuk, Gorini, Edoardo, F., Grancagnolo, W., Grandegger, E., Grazianin, P., Guarnaccia, U., VON HAGEL, H. G., Han, S. W., Han, X., Huang, M., Incagli, L., Ingrosso, Y. Y., Jiang, W., Kim, W., Kluge, V., Kulikov, F., Lacava, G., Lanfranchi, J., LEE FRANZINI, T., Lomtadze, C., Luisi, C. S., Mao, M., Martemianov, A., Martini, M., Matsyuk, W., Mei, L., Merola, R., Messim, S., Miscetti, A., Moalem, S., Moccia, M., Moulson, S., Mueller, F., Murta, M., Napolitano, A., Nedosekin, Panareo, Marco, L., Pacciani, P., Page, M., Palutan, L., Paoluzi, E., Pasqualucci, L., Passalacqua, M., Passaseo, A., Passerin, V., Patera, E., Petrolo, G., Petrucci, D., Picca, G., Pirozzi, C., Pistillo, M., Pollack, L., Pontecorvo, M., Primavera, F., Ruggieri, P., Santangelo, E., Santovetti, E., Saracino, R. D., Schamberger, C., Schwick, B., Sciascia, A., Sciubba, F., Scuri, I., Sfiligoi, J., Shan, P., Silano, T., Spadaro, Spagnolo, Stefania Antonia, E., Spiriti, C., Stanescu, G. L., Tong, L., Tortora, E., Valente, P., Valente, B., Valeriani, G., Venanzoni, S., Veneziano, Y., Wu, Y. G., Xie, P. P., Zhao, and Y., Zhou

Abstract

KLOE-MEMO-00-215

14. First results from $\phi \to K(L) K(S)$ decays with the KLOE detector

Author

Adinolfi, M., Aloisio, A., Ambrosino, F., Andryakov, A., Antonelli, A., Antonelli, M., Anulli, F., Bacci, C., Bankamp, A., Barbiellini, G., Fabio Bellini, Bencivenni, G., Bertolucci, S., Bini, C., Bloise, C., Bocci, V., Bossi, F., Branchinin, P., Bulychjov, S. A., Cabibbo, G., Calcaterra, A., Caloi, R., Campana, P., Capon, G., Carbonim, G., Cardini, A., Casarsa, M., Cataldi, G., Ceradinin, F., Cervelli, F., Cevenini, F., Chiefari, G., Ciambrone, P., Conetti, S., Lucia, E., Robertis, G., Sangro, R., Simone, P., Zorzi, G., Agnello, S., Denig, A., Di Domenico, A., Di Donato, C., Di Falco, S., Doria, A., Drago, E., Elia, V., Erriquez, O., Felici, G., Ferrari, A., Ferrer, M. L., Finocchiaro, G., Forti, C., Franceschi, A., Franzini, P., Gao, M. L., Gatti, C., Gauzzi, P., Giovannella, S., Golovatyuk, V., Gorini, E., Grancagnolo, F., Grandegger, W., Grazianin, E., Guarnaccia, P., Hagel, U., Han, H. G., Han, S. W., Huang, X., Incagli, M., Ingrosso, L., Jiang, Y. Y., Kim, W., Kluge, W., Kulikov, V., Lacava, F., Lanfranchi, G., Lee-Franzini, Juliet, Lomtadze, T., Luisi, C., Mao, C. S., Martemianov, M., Martini, A., Matsyuk, M., Mei, W., Merola, L., Messim, R., Miscetti, S., Moalem, A., Moccia, S., Moulson, M., Mueller, S., Murtas, F., Napolitano, M., Nedosekin, A., Panareo, M., Pacciani, L., Pages, P., Palutan, M., Paoluzi, L., Pasqualucci, E., Passalacqua, L., Passaseo, M., Passerin, A., Patera, V., Petrolo, E., Petrucci, G., Picca, D., Pirozzi, G., Pistillo, C., Pollack, M., Pontecorvo, L., Primavera, M., Ruggieri, F., Santangelo, Paolo, Santovetti, E., Saracino, E., Schamberger, R. Dean, Schwick, C., Sciascia, B., Sciubba, A., Scuri, Fabrizio, Sfiligoi, I., Shan, J., Silano, P., Spadaro, T., Spagnolo, S., Spiriti, E., Stanescu, C., Tong, G. L., Tortora, L., Valente, E., Valente, P., Valeriani, B., Venanzoni, G., Veneziano, S., Wu, Y., Xie, Y. G., Zhao, P. P., Zhou, Y., and Zhouc, Y.

15. Blood Pressure and Isometric Exercise: Correlation With Anthropometric Data and Electrolyte Urinary Excretion in Two Groups of Trained and Untrained Young Men

Author

Maiorano, G., primary, Contursi, V., additional, Saracino, E., additional, Lecce, G. D., additional, and Ricapito, M., additional

Published

1989

16. Physical Exercise and Hypertension: New Insights and Clinical Implications

Author

Maiorano, G., primary, Contursi, V., additional, Saracino, E., additional, and Ricapito, M., additional

Published

1989

17. Electroconductive and injectable hydrogels based on gelatin and PEDOT:PSS for a minimally invasive approach in nervous tissue regeneration

Author

Franco Furlani, Margherita Montanari, Nicola Sangiorgi, Emanuela Saracino, Elisabetta Campodoni, Alessandra Sanson, Valentina Benfenati, Anna Tampieri, Silvia Panseri, Monica Sandri, Furlani F., Montanari M., Sangiorgi N., Saracino E., Campodoni E., Sanson A., Benfenati V., Tampieri A., Panseri S., and Sandri M.

Subjects

Animal, Polymers, Biomedical Engineering, Hydrogels, Bridged Bicyclo Compounds, Heterocyclic, Nerve Regeneration, Rats, PEDOT:PSS, Rat, Animals, Gelatin, General Materials Science, Injectable Hydrogel, Nervous tissue regeneration, Polymer

Abstract

This work describes the development of electroconductive hydrogels as injectable matrices for neural tissue regeneration by exploiting a biocompatible conductive polymer - poly(3,4-ethylenedioxythiophene)- poly(styrenesulfonate) (PEDOT:PSS) - combined with a biomimetic polymer network made of gelatin. Our approach involved also genipin - a natural cross-linking agent - to promote gelation of gelatin networks embedding PEDOT:PSS. The achieved results suggest that physical-chemical properties of the resulting hydrogels, like impedance, gelation time, mechanical properties, swelling and degradation in physiological conditions, can be finely tuned by the amount of PEDOT:PSS and genipin used in the formulation. Furthermore, the presence of PEDOT:PSS (i) enhances the electrical conductivity, (ii) improves the shear modulus of the resulting hydrogels though (iii) partially impairing their resistance to shear deformation, (iv) reduces gelation time and (v) reduces their swelling ability in physiological medium. Additionally, the resulting electroconductive hydrogels demonstrate enhanced adhesion and growth of primary rat cortical astrocytes. Given the permissive interaction of hydrogels with primary astrocytes, the presented biomimetic, electroconductive and injectable hydrogels display potential applications as minimally invasive systems for neurological therapies and damaged brain tissue repair.

Published

2022

18. One year of surgical mask testing at the University of Bologna labs: Lessons learned from data analysis

Author

Cristiana Boi, Francesca Borsetti, Tommaso M. Brugo, Martina Cappelletti, Maria G. De Angelis, Stefano Fedi, Simone Di Giacomo, Thomas Fabiani, Giacomo Foli, Andrea Garelli, Umberto Genchi, Daniele Ghezzi, Chiara Gualandi, Eleonora Lalli, Mirna Magnani, Andrea Maurizzi, Fabio Mazzi, Najmeh Mehrabi, Matteo Minelli, Riccardo Montalbano, Luana Morelli, Silvia Nici, Alessandro Paglianti, Kseniya Papchenko, Sebastiano Pappalardo, Nicola F. Parisi, Riccardo Onesti, Stefania Rapino, Marta Reggio, Marco Roselli, Edoardo Ruggeri, Laura Sabatini, Emanuela Saracino, Giordano E. Scarponi, Lorenzo Serra, Virginia Signorini, Alba Storione, Monica Torsello, Eugenia Tugnoli, Claudia M. Vargiu, Gianluca Vidali, Francesco S. Violante, Boi C., Borsetti F., Brugo T.M., Cappelletti M., De Angelis M.G., Fedi S., Di Giacomo S., Fabiani T., Foli G., Garelli A., Genchi U., Ghezzi D., Gualandi C., Lalli E., Magnani M., Maurizzi A., Mazzi F., Mehrabi N., Minelli M., Montalbano R., Morelli L., Nici S., Onesti R., Paglianti A., Papchenko K., Pappalardo S., Parisi N.F., Rapino S., Reggio M., Roselli M., Ruggeri E., Sabatini L., Saracino E., Scarponi G.E., Serra L., Signorini V., Storione A., Torsello M., Tugnoli E., Vargiu C.M., Vidali G., and Violante F.S.

Subjects

History, Pandemic spread prevention, Surgical masks, Polymers and Plastics, COVID-19, Filtration and Separation, Bacterial filtration, Business and International Management, Industrial and Manufacturing Engineering, Breathability, Analytical Chemistry

Abstract

The outbreak of SARS-CoV-2 pandemic highlighted the worldwide lack of surgical masks and personal protective equipment, which represent the main defense available against respiratory diseases as COVID-19. At the time, masks shortage was dramatic in Italy, the first European country seriously hit by the pandemic: aiming to address the emergency and to support the Italian industrial reconversion to the production of surgical masks, a multidisciplinary team of the University of Bologna organized a laboratory to test surgical masks according to European regulations. The group, driven by the expertise of chemical engineers, microbiologists, and occupational physicians, set-up the test lines to perform all the functional tests required. The laboratory started its activity on late March 2020, and as of the end of December of the same year 435 surgical mask prototypes were tested, with only 42 masks compliant to the European standard. From the analysis of the materials used, as well as of the production methods, it was found that a compliant surgical mask is most likely composed of three layers, a central meltblown filtration layer and two external spunbond comfort layers. An increase in the material thickness (grammage), or in the number of layers, does not improve the filtration efficiency, but leads to poor breathability, indicating that filtration depends not only on pure size exclusion, but other mechanisms are taking place (driven by electrostatic charge). The study critically reviewed the European standard procedures, identifying the weak aspects; among the others, the control of aerosol droplet size during the bacterial filtration test results to be crucial, since it can change the classification of a mask when its performance lies near to the limiting values of 95 or 98%.

Published

2022

19. LRRC8A is essential for swelling-activated chloride current and for regulatory volume decrease in astrocytes

Author

Valentina Benfenati, Roberto Zamboni, Emanuela Saracino, Mahmood Amiry-Moghaddam, Marco Caprini, Francesco Formaggio, Shreyas B. Rao, Maria Grazia Mola, Grazia Paola Nicchia, Michele Muccini, ARAG - AREA FINANZA E PARTECIPATE, DIPARTIMENTO DI CHIMICA INDUSTRIALE 'TOSO MONTANARI', DIPARTIMENTO DI FARMACIA E BIOTECNOLOGIE, Da definire, AREA MIN. 03 - Scienze chimiche, AREA MIN. 05 - Scienze biologiche, and Formaggio F, Saracino E, Mola MG, Rao SB, Amiry-Moghaddam M, Muccini M, Zamboni R, Nicchia GP, Caprini M, Benfenati V.

Subjects

0301 basic medicine, VRAC, central nervous system, edema, ion channels, volume regulation, Leucine-Rich Repeat Proteins, Biochemistry, Mice, 03 medical and health sciences, 0302 clinical medicine, Chlorides, Chloride Channels, RNA interference, Genetics, medicine, Animals, Molecular Biology, Cells, Cultured, Ion channel, Cell Size, Cerebral Cortex, Gene knockdown, Ion Transport, Chemistry, Cell Membrane, Proteins, RNA, Immunogold labelling, Rats, Cell biology, Mice, Inbred C57BL, 030104 developmental biology, medicine.anatomical_structure, Animals, Newborn, Astrocytes, ion channel, Chloride channel, 030217 neurology & neurosurgery, Homeostasis, Biotechnology, Astrocyte

Abstract

reserved 10 si Fund for Investment in Basic Research (FIRB)–Futuro in Ricerca (RBFR12SJA8_001; RBFR12SJA8_002) This work was supported by grants from the University of Bologna (RFO2016/17; to M.C.) and the Italian Minister for Education, University, and Research within the FIRB–Futuro in Ricerca (to V.B. and G.P.N.). The U.S. Air Force Office of Scientific Research, Research Projects Advanced Nano-Structured Material Interfaces and Devices for InVivo-like–In Vitro Monitoring of Astrocytes Physiology and Brain Toxicology (ASTROMAT; FA9550 16 1 0502) and Shedding Light on Glial Function (ASTRONIR; FA9550-17-1-0502) (both to V.B.) Consolidated evidence indicates that astroglial cells are critical in the homeostatic regulation of cellular volume by means of ion channels and aquaporin-4. Volume-regulated anion channel (VRAC) is the chloride channel that is activated upon cell swelling and critically contributes to cell volume regulation in astrocytes. The molecular identity of VRAC has been recently defined, revealing that it belongs to the leucine-rich repeat-containing 8 (LRRC8) protein family. However, there is a lack of evidence demonstrating that LRRC8A underpins VRAC currents in astrocyte. Nonetheless, direct evidence of the role of LRRC8A in astrocytic regulatory volume decrease remains to be proved. Here, we aim to bridge this gap in knowledge by combining RNA interference specific for LRRC8A with patch-clamp analyses and a water-permeability assay. We demonstrated that LRRC8A molecular expression is essential for swelling-activated chloride current via VRAC in primary-cultured cortical astrocytes. The knockdown of LRRC8A with a specific short interference RNA abolished the recovery of the cell volume after swelling induced by hypotonic challenge. In addition, immunoblotting, immunofluorescence, confocal imaging, and immunogold electron microscopy demonstrated that LRRC8A is expressed in the plasma membrane of primary cortical astrocytes and in situ in astrocytes at the perivascular interface with endothelial cells. Collectively, our results suggest that LRRC8A is an essential subunit of VRAC and a key factor for astroglial volume homeostasis mixed Formaggio F, Saracino E, Mola MG, Rao SB, Amiry-Moghaddam M, Muccini M, Zamboni R, Nicchia GP, Caprini M, Benfenati V. Formaggio F, Saracino E, Mola MG, Rao SB, Amiry-Moghaddam M, Muccini M, Zamboni R, Nicchia GP, Caprini M, Benfenati V.

Published

2018

20. Instructive proteins for tissue regeneration

Author

Luigi Ambrosio, Emanuela Saracino, Vincenzo Guarino, Roberto Zamboni, Iriczalli Cruz-Maya, Valentina Benfenati, and Guarino V., Benfenati V., Cruz-Maya I., Saracino E., Zamboni R., Ambrosio L.

Subjects

chemistry.chemical_classification, Materials science, Tissue Engineering, Biocompatibility, Nanotechnology, 02 engineering and technology, Polymer, Matrix (biology), 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Porous scaffold, 0104 chemical sciences, Improved performance, chemistry, Tissue engineering, Surface modification, Biomimetics, 0210 nano-technology

Abstract

The basic principle of biomimicry is currently adopted in tissue engineering approach for the design of the majority of the three-dimensional (3D) scaffolds, both in terms of physicochemical properties, as well as bioactivity. Custom-made scaffold fabrication methodologies can be successfully used to manipulate biocompatible materials (synthetic and natural ones), thus assuring an improved performance of the scaffolds through an accurate design of matrix pores and degradation properties to fully match the specific requirements of natural tissue to be regenerated. However, extensive studies have highlighted some intrinsic limitation of synthetic polymers in terms of biological performance, thus requiring the need of tailored functionalization via bioactive molecules (i.e., proteins, growth factors). Hence, proteins of natural origin may represent the most attractive alternative to synthetic polymers, mainly due to their similarities with the extracellular matrix (ECM), chemical versatility as well as their excellent biocompatibility. This chapter aims at classifying the most interesting natural proteins suitable for the fabrication of three-dimensional porous scaffolds, by remarking main advantages in different biologically and clinically relevant applications.

Published

2018

21. Effect of different fabrication methods on the chemo-physical properties of silk fibroin films and on their interaction with neural cells

Author

Valentina Benfenati, Chiara Dionigi, Anna Donnadio, Anna Sagnella, Morena Nocchetti, Simone Bonetti, Assunta Pistone, Michele Muccini, Giampiero Ruani, Tamara Posati, Emanuela Saracino, Roberto Zamboni, and Sagnella A., Pistone A., Bonetti S., Donnadio A., Saracino E., Nocchetti M., Dionigi C:, Ruani G.,Muccini M., Posati T., Benfenati V. and Zamboni R.

Subjects

Materials science, Fabrication, Neurite, General Chemical Engineering, Microfluidics, Fibroin, Nanotechnology, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Tissue engineering, Chemical Engineering (all), Texture (crystalline), Dissolution, Chemistry (all), fungi, biomaterial, General Chemistry, 021001 nanoscience & nanotechnology, 0104 chemical sciences, SILK, Chemical engineering, silk fibroin, tissue engineering, Neuron Regeneration, cell-material interaction, 0210 nano-technology

Abstract

In this study, we investigated the influence of processing methods on the chemo-physical properties of silk fibroin (SF) film and on their interaction with neural cells. Structural, thermal and morphological analysis revealed a strong correlation between the conformation, stability and texture of silk films and the fabrication conditions. An increase in temperature, methanol treatment and the use of a microfluidic approach led to an improvement in SF film stability in terms of beta-sheet content, mechanical resistance, dissolution and enzymatic degradation. An effect on the interaction of SF films with neural cells, through a modulation of the surface properties, was also observed. In particular, hydrophobic surfaces induce proliferation of astrocytes and neuron adhesion whereas hydrophilic surfaces promote a remarkable neurite outgrowth. A detailed knowledge of the effect of manufacturing parameters on SF film properties can facilitate and extend the applications of silk-based biomaterials in tissue engineering and drug release systems.

Published

2016

22. Androgen receptor targeted conjugate for bimodal photodynamic therapy of prostate cancer in vitro

Author

Greta Varchi, Emanuela Saracino, Daniele Ragno, Gabriella Castoria, Emilia Della Pietra, Valentina Benfenati, Andrea Guerrini, Valentina Rapozzi, Marzia Di Donato, Claudia Ferroni, Daniela Cesselli, Greta, Varchi, Valentina, Rapozzi, Daniele, Ragno, Castoria, Gabriella, DI DONATO, Marzia, Emilia Della Pietra, Valentina, Benfenati, Claudia, Ferroni, Andrea, Guerrini, Daniela, Cesselli, Emanuela, Saracino, and Rapozzi V., Ragno D., Guerrini A., Ferroni C., dalla Pietra E., Ceselli D., Castoria G., Di Donato M., Saracino E., Benfenati V., Varchi G.

Subjects

Chlorophyll, Male, medicine.medical_specialty, medicine.medical_treatment, Biomedical Engineering, Pharmaceutical Science, Photodynamic therapy, Bioengineering, Antineoplastic Agents, In Vitro Techniques, NO, Androgen, Targeted therapy, Prostate cancer, chemistry.chemical_compound, PDT, Internal medicine, Receptors, medicine, Tumor Cells, Cultured, Humans, Photosensitizer, Pharmacology, Cultured, Photosensitizing Agents, business.industry, Medicine (all), Organic Chemistry, Cancer, Prostatic Neoplasms, Androgen Antagonists, medicine.disease, In vitro, Tumor Cells, Androgen receptor, Receptors, Androgen, Photochemotherapy, Biotechnology, 3003, Endocrinology, chemistry, photodynamic therapy, Pheophorbide A, Cancer research, business, Conjugate

Abstract

Prostate cancer (PC) represents the most common type of cancer among males and is the second leading cause of cancer death in men in Western society. Current options for PC therapy remain unsatisfactory, since they often produce uncomfortable long-term side effects, such as impotence (70%) and incontinence (5–20%) even in the first stages of the disease. Light-triggered therapies, such as photodynamic therapy, have the potential to provide important advances in the treatment of localized and partially metastasized prostate cancer. We have designed a novel molecular conjugate (DR2) constituted of a photosensitizer (pheophorbide a, Pba), connected to a nonsteroidal anti-androgen molecule through a small pegylated linker. This study aims at investigating whether DR2 represents a valuable approach for PC treatment based on light-induced production of single oxygen and nitric oxide (NO) in vitro. Besides being able to efficiently bind the androgen receptor (AR), the 2-trifluoromethylnitrobenzene ring on the DR2 backbone is able to release cytotoxic NO under the exclusive control of light, thus augmenting the general photodynamic effect. Although DR2 is similarly internalized in cells expressing different levels of androgen receptor, the AR ligand prevents its efflux through the ABCG2-pump. In vitro phototoxicity experiments demonstrated the ability of DR2 to kill cancer cells more efficiently than Pba, while no dark toxicity was observed. Overall, the presented approach is very promising for further development of AR-photosensitizer conjugates in the multimodal photodynamic treatment of prostate cancer.

Published

2015

23. Author Correction: Graphene oxide electrodes enable electrical stimulation of distinct calcium signalling in brain astrocytes.

Author

Fabbri R, Scidà A, Saracino E, Conte G, Kovtun A, Candini A, Kirdajova D, Spennato D, Marchetti V, Lazzarini C, Konstantoulaki A, Dambruoso P, Caprini M, Muccini M, Ursino M, Anderova M, Treossi E, Zamboni R, Palermo V, and Benfenati V

Published

2024

24. Graphene oxide electrodes enable electrical stimulation of distinct calcium signalling in brain astrocytes.

Author

Fabbri R, Scidà A, Saracino E, Conte G, Kovtun A, Candini A, Kirdajova D, Spennato D, Marchetti V, Lazzarini C, Konstantoulaki A, Dambruoso P, Caprini M, Muccini M, Ursino M, Anderova M, Treossi E, Zamboni R, Palermo V, and Benfenati V

Subjects

Animals, Calcium metabolism, Cells, Cultured, Rats, Mice, Astrocytes metabolism, Astrocytes cytology, Graphite chemistry, Graphite pharmacology, Calcium Signaling, Electric Stimulation, Brain metabolism, Brain cytology, Electrodes

Abstract

Astrocytes are responsible for maintaining homoeostasis and cognitive functions through calcium signalling, a process that is altered in brain diseases. Current bioelectronic tools are designed to study neurons and are not suitable for controlling calcium signals in astrocytes. Here, we show that electrical stimulation of astrocytes using electrodes coated with graphene oxide and reduced graphene oxide induces respectively a slow response to calcium, mediated by external calcium influx, and a sharp one, exclusively due to calcium release from intracellular stores. Our results suggest that the different conductivities of the substrate influence the electric field at the cell-electrolyte or cell-material interfaces, favouring different signalling events in vitro and ex vivo. Patch-clamp, voltage-sensitive dye and calcium imaging data support the proposed model. In summary, we provide evidence of a simple tool to selectively control distinct calcium signals in brain astrocytes for straightforward investigations in neuroscience and bioelectronic medicine., (© 2024. The Author(s).)

Published

2024

25. Aquaporin-4 and transient receptor potential vanilloid 4 balance in early postnatal neurodevelopment.

Author

Cibelli A, Mola MG, Saracino E, Barile B, Abbrescia P, Mogni G, Spray DC, Scemes E, Rossi A, Spennato D, Svelto M, Frigeri A, Benfenati V, and Nicchia GP

Subjects

Aquaporin 4 metabolism, Neuroglia metabolism, Brain metabolism, Astrocytes metabolism, TRPV Cation Channels metabolism

Abstract

In the adult brain, the water channel aquaporin-4 (AQP4) is expressed in astrocyte endfoot, in supramolecular assemblies, called "Orthogonal Arrays of Particles" (OAPs) together with the transient receptor potential vanilloid 4 (TRPV4), finely regulating the cell volume. The present study aimed at investigating the contribution of AQP4 and TRPV4 to CNS early postnatal development using WT and AQP4 KO brain and retina and neuronal stem cells (NSCs), as an in vitro model of astrocyte differentiation. Western blot analysis showed that, differently from AQP4 and the glial cell markers, TRPV4 was downregulated during CNS development and NSC differentiation. Blue native/SDS-PAGE revealed that AQP4 progressively organized into OAPs throughout the entire differentiation process. Fluorescence quenching assay indicated that the speed of cell volume changes was time-related to NSC differentiation and functional to their migratory ability. Calcium imaging showed that the amplitude of TRPV4 Ca 2+ transient is lower, and the dynamics are changed during differentiation and suppressed in AQP4 KO NSCs. Overall, these findings suggest that early postnatal neurodevelopment is subjected to temporally modulated water and Ca 2+ dynamics likely to be those sustaining the biochemical and physiological mechanisms responsible for astrocyte differentiation during brain and retinal development., (© 2024 The Authors. GLIA published by Wiley Periodicals LLC.)

Published

2024

26. AQP4-independent TRPV4 modulation of plasma membrane water permeability.

Author

Barile B, Mola MG, Formaggio F, Saracino E, Cibelli A, Gargano CD, Mogni G, Frigeri A, Caprini M, Benfenati V, and Nicchia GP

Abstract

Despite of the major role of aquaporin (AQP) water channels in controlling transmembrane water fluxes, alternative ways for modulating water permeation have been proposed. In the Central Nervous System (CNS), Aquaporin-4 (AQP4) is reported to be functionally coupled with the calcium-channel Transient-Receptor Potential Vanilloid member-4 (TRPV4), which is controversially involved in cell volume regulation mechanisms and water transport dynamics. The present work aims to investigate the selective role of TRPV4 in regulating plasma membrane water permeability in an AQP4-independent way. Fluorescence-quenching water transport experiments in Aqp4 -/- astrocytes revealed that cell swelling rate is significantly increased upon TRPV4 activation and in the absence of AQP4. The biophysical properties of TRPV4-dependent water transport were therefore assessed using the HEK-293 cell model. Calcein quenching experiments showed that chemical and thermal activation of TRPV4 overexpressed in HEK-293 cells leads to faster swelling kinetics. Stopped-flow light scattering water transport assay was used to measure the osmotic permeability coefficient ( Pf , cm/s) and activation energy ( Ea , kcal/mol) conferred by TRPV4. Results provided evidence that although the Pf measured upon TRPV4 activation is lower than the one obtained in AQP4-overexpressing cells ( Pf of AQP4 = 0.01667 ± 0.0007; Pf of TRPV4 = 0.002261 ± 0.0004; Pf of TRPV4 + 4αPDD = 0.007985 ± 0.0006; Pf of WT = 0.002249 ± 0.0002), along with activation energy values ( Ea of AQP4 = 0.86 ± 0.0006; Ea of TRPV4 + 4αPDD = 2.73 ± 1.9; Ea of WT = 8.532 ± 0.4), these parameters were compatible with a facilitated pathway for water movement rather than simple diffusion. The possibility to tune plasma membrane water permeability more finely through TRPV4 might represent a protective mechanism in cells constantly facing severe osmotic challenges to avoid the potential deleterious effects of the rapid cell swelling occurring via AQP channels., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Barile, Mola, Formaggio, Saracino, Cibelli, Gargano, Mogni, Frigeri, Caprini, Benfenati and Nicchia.)

Published

2023

27. Decoding Natural Astrocyte Rhythms: Dynamic Actin Waves Result from Environmental Sensing by Primary Rodent Astrocytes.

Author

O'Neill KM, Saracino E, Barile B, Mennona NJ, Mola MG, Pathak S, Posati T, Zamboni R, Nicchia GP, Benfenati V, and Losert W

Subjects

Animals, Rodentia metabolism, Cells, Cultured, Cytoskeleton metabolism, Actins metabolism, Astrocytes metabolism

Abstract

Astrocytes are key regulators of brain homeostasis, equilibrating ion, water, and neurotransmitter concentrations and maintaining essential conditions for proper cognitive function. Recently, it has been shown that the excitability of the actin cytoskeleton manifests in second-scale dynamic fluctuations and acts as a sensor of chemophysical environmental cues. However, it is not known whether the cytoskeleton is excitable in astrocytes and how the homeostatic function of astrocytes is linked to the dynamics of the cytoskeleton. Here it is shown that homeostatic regulation involves the excitable dynamics of actin in certain subcellular regions of astrocytes, especially near the cell boundary. The results further indicate that actin dynamics concentrate into "hotspot" regions that selectively respond to certain chemophysical stimuli, specifically the homeostatic challenges of ion or water concentration increases. Substrate topography makes the actin dynamics of astrocytes weaker. Super-resolution images demonstrate that surface topography is also associated with the predominant perpendicular alignment of actin filaments near the cell boundary, whereas flat substrates result in an actin cortex mainly parallel to the cell boundary. Additionally, coculture with neurons increases both the probability of actin dynamics and the strength of hotspots. The excitable systems character of actin thus makes astrocytes direct participants in neural cell network dynamics., (© 2023 Wiley-VCH GmbH.)

Published

2023

28. The emerging science of Glioception: Contribution of glia in sensing, transduction, circuit integration of interoception.

Author

Fabbri R, Spennato D, Conte G, Konstantoulaki A, Lazzarini C, Saracino E, Nicchia GP, Frigeri A, Zamboni R, Spray DC, and Benfenati V

Subjects

Humans, Neuroglia, Neurons physiology, Pain, Interoception physiology

Abstract

Interoception is the process by which the nervous system regulates internal functions to achieve homeostasis. The role of neurons in interoception has received considerable recent attention, but glial cells also contribute. Glial cells can sense and transduce signals including osmotic, chemical, and mechanical status of extracellular milieu. Their ability to dynamically communicate "listening" and "talking" to neurons is necessary to monitor and regulate homeostasis and information integration in the nervous system. This review introduces the concept of "Glioception" and focuses on the process by which glial cells sense, interpret and integrate information about the inner state of the organism. Glial cells are ideally positioned to act as sensors and integrators of diverse interoceptive signals and can trigger regulatory responses via modulation of the activity of neuronal networks, both in physiological and pathological conditions. We believe that understanding and manipulating glioceptive processes and underlying molecular mechanisms provide a key path to develop new therapies for the prevention and alleviation of devastating interoceptive dysfunctions, among which pain is emphasized here with more focused details., Competing Interests: Declaration of Competing Interest The authors declare no conflict of interest., (Copyright © 2023. Published by Elsevier Inc.)

Published

2023

29. Electroconductive and injectable hydrogels based on gelatin and PEDOT:PSS for a minimally invasive approach in nervous tissue regeneration.

Author

Furlani F, Montanari M, Sangiorgi N, Saracino E, Campodoni E, Sanson A, Benfenati V, Tampieri A, Panseri S, and Sandri M

Subjects

Animals, Bridged Bicyclo Compounds, Heterocyclic, Nerve Regeneration, Polymers chemistry, Rats, Gelatin, Hydrogels chemistry

Abstract

This work describes the development of electroconductive hydrogels as injectable matrices for neural tissue regeneration by exploiting a biocompatible conductive polymer - poly(3,4-ethylenedioxythiophene)-poly(styrenesulfonate) (PEDOT:PSS) - combined with a biomimetic polymer network made of gelatin. Our approach involved also genipin - a natural cross-linking agent - to promote gelation of gelatin networks embedding PEDOT:PSS. The achieved results suggest that physical-chemical properties of the resulting hydrogels, like impedance, gelation time, mechanical properties, swelling and degradation in physiological conditions, can be finely tuned by the amount of PEDOT:PSS and genipin used in the formulation. Furthermore, the presence of PEDOT:PSS (i) enhances the electrical conductivity, (ii) improves the shear modulus of the resulting hydrogels though (iii) partially impairing their resistance to shear deformation, (iv) reduces gelation time and (v) reduces their swelling ability in physiological medium. Additionally, the resulting electroconductive hydrogels demonstrate enhanced adhesion and growth of primary rat cortical astrocytes. Given the permissive interaction of hydrogels with primary astrocytes, the presented biomimetic, electroconductive and injectable hydrogels display potential applications as minimally invasive systems for neurological therapies and damaged brain tissue repair.

Published

2022

30. Cell Volume Regulation Mechanisms in Differentiated Astrocytes.

Author

Mola MG, Saracino E, Formaggio F, Amerotti AG, Barile B, Posati T, Cibelli A, Frigeri A, Palazzo C, Zamboni R, Caprini M, Nicchia GP, and Benfenati V

Subjects

Animals, Aquaporin 4 metabolism, Astrocytes metabolism, Cells, Cultured, Permeability, Rats, Wistar, TRPV Cation Channels metabolism, Water metabolism, Rats, Astrocytes cytology, Cell Size

Abstract

Background/aims: The ability of astrocytes to control extracellular volume homeostasis is critical for brain function and pathology. Uncovering the mechanisms of cell volume regulation by astrocytes will be important for identifying novel therapeutic targets for neurological conditions, such as those characterized by imbalances to hydro saline challenges (as in edema) or by altered cell volume regulation (as in glioma). One major challenge in studying the astroglial membrane channels involved in volume homeostasis in cell culture model systems is that the expression patterns of these membrane channels do not resemble those observed in vivo. In our previous study, we demonstrated that rat primary astrocytes grown on nanostructured interfaces based on hydrotalcite-like compounds (HTlc) in vitro are differentiated and display molecular and functional properties of in vivo astrocytes, such as the functional expression of inwardly rectifying K + channel (Kir 4.1) and Aquaporin-4 (AQP4) at the astrocytic microdomain. Here, we take advantage of the properties of differentiated primary astrocytes in vitro to provide an insight into the mechanism underpinning astrocytic cell volume regulation and its correlation with the expression and function of AQP4, Transient Receptor Potential Vanilloid 4
(TRPV4), and Volume Regulated Anion Channel (VRAC)., Methods: The calcein quenching method was used to study water transport and cell volume regulation. Calcium imaging and electrophysiology (patch-clamp) were used for functional analyses of calcium dynamics and chloride currents. Western blot and immunofluorescence were used to analyse the expression and localization of the channel proteins of interest., Results: We found that the increase in water permeability, previously observed in differentiated astrocytes, occurs simultaneously with more efficient regulatory volume increase and regulatory volume decrease. Accordingly, the magnitude of the hypotonic induced intracellular calcium response, typically mediated by TRPV4, as well as the hypotonic induced VRAC current, was almost twice as high in differentiated astrocytes. Interestingly, while we confirmed increased AQP4 expression in the membrane of differentiated astrocytes, the expression of the channels TRPV4 and Leucine-Rich Repeats-Containing 8-A (LRRC8-A) were comparable between differentiated and non-differentiated astrocytes., Conclusion: The reported results indicate that AQP4 up-regulation observed in differentiated astrocytes might promote higher sensitivity of the cell to osmotic changes, resulting in increased magnitude of calcium signaling and faster kinetics of the RVD and RVI processes. The implications for cell physiology and the mechanisms underlying astrocytic interaction with nanostructured interfaces are discussed., Competing Interests: The authors have no conflicts of interest to declare., (© Copyright by the Author(s). Published by Cell Physiol Biochem Press.)

Published

2021

31. Polyaniline nano-needles into electrospun bio active fibres support in vitro astrocyte response.

Author

Saracino E, Zuppolini S, Guarino V, Benfenati V, Borriello A, Zamboni R, and Ambrosio L

Abstract

Recent studies have proposed that the bioelectrical response of glial cells, called astrocytes, currently represents a key target for neuroregenerative purposes. Here, we propose the fabrication of electrospun nanofibres containing gelatin and polyaniline (PANi) synthesized in the form of nano-needles (PnNs) as electrically conductive scaffolds to support the growth and functionalities of primary astrocytes. We report a fine control of the morphological features in terms of fibre size and spatial distribution and fibre patterning, i.e. random or aligned fibre organization, as revealed by SEM- and TEM-supported image analysis. We demonstrate that the peculiar morphological properties of fibres - i.e. , the fibre size scale and alignment - drive the adhesion, proliferation, and functional properties of primary cortical astrocytes. In addition, the gradual transmission of biochemical and biophysical signals due to the presence of PnNs combined with the presence of gelatin results in a permissive and guiding environment for astrocytes. Accordingly, the functional properties of astrocytes measured via cell patch-clamp experiments reveal that PnNs do not alter the bioelectrical properties of resting astrocytes, thus setting the scene for the use of PnN-loaded nanofibres as bioconductive platforms for interfacing astrocytes and controlling their bioelectrical properties., Competing Interests: There are no conflicts to declare., (This journal is © The Royal Society of Chemistry.)

Published

2021

32. Glial Interfaces: Advanced Materials and Devices to Uncover the Role of Astroglial Cells in Brain Function and Dysfunction.

Author

Maiolo L, Guarino V, Saracino E, Convertino A, Melucci M, Muccini M, Ambrosio L, Zamboni R, and Benfenati V

Subjects

Brain, Neurons, Astrocytes, Neuroglia

Abstract

Research over the past four decades has highlighted the importance of certain brain cells, called glial cells, and has moved the neurocentric vision of structure, function, and pathology of the nervous system toward a more holistic perspective. In this view, the demand for technologies that are able to target and both selectively monitor and control glial cells is emerging as a challenge across neuroscience, engineering, chemistry, and material science. Frequently neglected or marginally considered as a barrier to be overcome between neural implants and neuronal targets, glial cells, and in particular astrocytes, are increasingly considered as active players in determining the outcomes of device implantation. This review provides a concise overview not only of the previously established but also of the emerging physiological and pathological roles of astrocytes. It also critically discusses the most recent advances in biomaterial interfaces and devices that interact with glial cells and thus have enabled scientists to reach unprecedented insights into the role of astroglial cells in brain function and dysfunction. This work proposes glial interfaces and glial engineering as multidisciplinary fields that have the potential to enable significant advancement of knowledge surrounding cognitive function and acute and chronic neuropathologies., (© 2020 Wiley-VCH GmbH.)

Published

2021

33. Structural and functional properties of astrocytes on PCL based electrospun fibres.

Author

Saracino E, Cirillo V, Marrese M, Guarino V, Benfenati V, Zamboni R, and Ambrosio L

Subjects

Astrocytes, Gelatin, Polyesters, Tissue Engineering, Tissue Scaffolds, Nanofibers

Abstract

Increasing evidences are demonstrating that structural and functional properties of non-neuronal brain cells, called astrocytes, such as those of cytoskeleton and of ion channels, are critical for brain physiology. Also, changes in astrocytes structure and function concur to and might determine the outcome of neuronal damage in acute neurological conditions or of chronic disease. Thus, the design and engineering of biomaterials that can drive the structural and functional properties of astrocytes is of growing interest for neuroregenerative medicine. Poly-ɛ-caprolactone (PCL), is FDA-approved polyester having excellent mechanical and chemical properties that can be tailored to obtain neural implants for regenerative purposes. However, the study on the use of PCL substrates for neuroregenerative purposes are mainly aimed at investigating the interaction of the material with neurons. Here, we report on the long-term viability, morphology, structural and functional properties of primary astrocytes grown on electrospun fibres of PCL (-GEL) and on blending of PCL and Gelatin protein (+GEL). We found that topography and morphological features of the substrate are the properties that mainly drives astrocytes adhesion and survival, over the long term, while they do not alter the cell function. Specifically, aligned PCL fibres induced in astrocytes a dramatic actin-cytoskeletal rearrangement as well as focal adhesion point number and distribution. Interestingly, structural changes observed in elongated astrocytes are not correlated with alterations in their electrophysiological properties. Our results indicated that PCL electrospun fibres are a permissive substrate that can be tuned to selectively alters astrocytes structural components while preserving astrocytes function. The results open the view for the use of PCL based electrospun fibres to target astrocytes for the treatment of brain dysfunction such as injuries or chronical disease., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2021

34. Stimulation of water and calcium dynamics in astrocytes with pulsed infrared light.

Author

Borrachero-Conejo AI, Adams WR, Saracino E, Mola MG, Wang M, Posati T, Formaggio F, De Bellis M, Frigeri A, Caprini M, Hutchinson MR, Muccini M, Zamboni R, Nicchia GP, Mahadevan-Jansen A, and Benfenati V

Subjects

Animals, Aquaporin 4 genetics, Aquaporin 4 metabolism, Astrocytes cytology, Astrocytes radiation effects, Biological Transport, Cells, Cultured, Homeostasis, Rats, Signal Transduction, TRPA1 Cation Channel genetics, TRPA1 Cation Channel metabolism, TRPV Cation Channels genetics, TRPV Cation Channels metabolism, Astrocytes metabolism, Calcium metabolism, Infrared Rays, Water metabolism

Abstract

Astrocytes are non-neuronal cells that govern the homeostatic regulation of the brain through ions and water transport, and Ca 2+ -mediated signaling. As they are tightly integrated into neural networks, label-free tools that can modulate cell function are needed to evaluate the role of astrocytes in brain physiology and dysfunction. Using live-cell fluorescence imaging, pharmacology, electrophysiology, and genetic manipulation, we show that pulsed infrared light can modulate astrocyte function through changes in intracellular Ca 2+ and water dynamics, providing unique mechanistic insight into the effect of pulsed infrared laser light on astroglial cells. Water transport is activated and, IP 3 R, TRPA1, TRPV4, and Aquaporin-4 are all involved in shaping the dynamics of infrared pulse-evoked intracellular calcium signal. These results demonstrate that astrocyte function can be modulated with infrared light. We expect that targeted control over calcium dynamics and water transport will help to study the crucial role of astrocytes in edema, ischemia, glioma progression, stroke, and epilepsy., (© 2020 Federation of American Societies for Experimental Biology.)

Published

2020

35. A Glial-Silicon Nanowire Electrode Junction Enabling Differentiation and Noninvasive Recording of Slow Oscillations from Primary Astrocytes.

Author

Saracino E, Maiolo L, Polese D, Semprini M, Borrachero-Conejo AI, Gasparetto J, Murtagh S, Sola M, Tomasi L, Valle F, Pazzini L, Formaggio F, Chiappalone M, Hussain S, Caprini M, Muccini M, Ambrosio L, Fortunato G, Zamboni R, Convertino A, and Benfenati V

Subjects

Animals, Humans, Primary Cell Culture, Rats, Rats, Wistar, Action Potentials, Astrocytes metabolism, Biological Clocks, Cell Differentiation, Nanowires chemistry, Silicon chemistry

Abstract

The correct human brain function is dependent on the activity of non-neuronal cells called astrocytes. The bioelectrical properties of astrocytes in vitro do not closely resemble those displayed in vivo and the former are incapable of generating action potential; thus, reliable approaches in vitro for noninvasive electrophysiological recording of astrocytes remain challenging for biomedical engineering. Here it is found that primary astrocytes grown on a device formed by a forest of randomly oriented gold coated-silicon nanowires, resembling the complex structural and functional phenotype expressed by astrocytes in vivo. The device enables noninvasive extracellular recording of the slow-frequency oscillations generated by differentiated astrocytes, while flat electrodes failed on recording signals from undifferentiated cells. Pathophysiological concentrations of extracellular potassium, occurring during epilepsy and spreading depression, modulate the power of slow oscillations generated by astrocytes. A reliable approach to study the role of astrocytes function in brain physiology and pathologies is presented., (© 2020 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2020

36. Electrical Stimulation by an Organic Transistor Architecture Induces Calcium Signaling in Nonexcitable Brain Cells.

Author

Borrachero-Conejo AI, Saracino E, Natali M, Prescimone F, Karges S, Bonetti S, Nicchia GP, Formaggio F, Caprini M, Zamboni R, Mercuri F, Toffanin S, Muccini M, and Benfenati V

Subjects

Animals, Astrocytes cytology, Brain cytology, Cells, Cultured, Electric Stimulation, Rats, Rats, Sprague-Dawley, Astrocytes metabolism, Brain metabolism, Calcium metabolism, Calcium Signaling, Transistors, Electronic

Abstract

Organic bioelectronics have a huge potential to generate interfaces and devices for the study of brain functions and for the therapy of brain pathologies. In this context, increasing efforts are needed to develop technologies for monitoring and stimulation of nonexcitable brain cells, called astrocytes. Astroglial calcium signaling plays, indeed, a pivotal role in the physiology and pathophysiology of the brain. Here, the use of transparent organic cell stimulating and sensing transistor (O-CST) architecture, fabricated with N,N'-ditridecylperylene-3,4,9,10-tetracarboxylic diimide (P13), to elicit and monitor intracellular calcium concentration ([Ca 2+ ] i ) in primary rat neocortical astrocytes is demonstrated. The transparency of O-CST allows performing calcium imaging experiments, showing that extracellular electrical stimulation of astrocytes induces a drastic increase in [Ca 2+ ] i . Pharmacological studies indicate that transient receptor potential (TRP) superfamily are critical mediators of the [Ca 2+ ] i increase. Experimental and computational analyses show that [Ca 2+ ] i response is enabled by the O-CST device architecture. Noteworthy, the extracellular field application induces a slight but significant increase in the cell volume. Collectively, it is shown that the O-CST is capable of selectively evoking astrocytes [Ca 2+ ] i , paving the way to the development of organic bioelectronic devices as glial interfaces to excite and control physiology of non-neuronal brain cells., (© 2018 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2019

37. LRRC8A is essential for swelling-activated chloride current and for regulatory volume decrease in astrocytes.

Author

Formaggio F, Saracino E, Mola MG, Rao SB, Amiry-Moghaddam M, Muccini M, Zamboni R, Nicchia GP, Caprini M, and Benfenati V

Subjects

Animals, Animals, Newborn, Cells, Cultured, Cerebral Cortex cytology, Cerebral Cortex metabolism, Ion Transport, Leucine-Rich Repeat Proteins, Mice, Mice, Inbred C57BL, Rats, Astrocytes cytology, Astrocytes metabolism, Cell Membrane metabolism, Cell Size, Chloride Channels metabolism, Chlorides metabolism, Proteins metabolism

Abstract

Consolidated evidence indicates that astroglial cells are critical in the homeostatic regulation of cellular volume by means of ion channels and aquaporin-4. Volume-regulated anion channel (VRAC) is the chloride channel that is activated upon cell swelling and critically contributes to cell volume regulation in astrocytes. The molecular identity of VRAC has been recently defined, revealing that it belongs to the leucine-rich repeat-containing 8 (LRRC8) protein family. However, there is a lack of evidence demonstrating that LRRC8A underpins VRAC currents in astrocyte. Nonetheless, direct evidence of the role of LRRC8A in astrocytic regulatory volume decrease remains to be proved. Here, we aim to bridge this gap in knowledge by combining RNA interference specific for LRRC8A with patch-clamp analyses and a water-permeability assay. We demonstrated that LRRC8A molecular expression is essential for swelling-activated chloride current via VRAC in primary-cultured cortical astrocytes. The knockdown of LRRC8A with a specific short interference RNA abolished the recovery of the cell volume after swelling induced by hypotonic challenge. In addition, immunoblotting, immunofluorescence, confocal imaging, and immunogold electron microscopy demonstrated that LRRC8A is expressed in the plasma membrane of primary cortical astrocytes and in situ in astrocytes at the perivascular interface with endothelial cells. Collectively, our results suggest that LRRC8A is an essential subunit of VRAC and a key factor for astroglial volume homeostasis.-Formaggio, F., Saracino, E., Mola, M. G., Rao, S. B., Amiry-Moghaddam, M., Muccini, M., Zamboni, R., Nicchia, G. P., Caprini, M., Benfenati, V. LRRC8A is essential for swelling-activated chloride current and for regulatory volume decrease in astrocytes.

Published

2019

38. A Nanoscale Interface Promoting Molecular and Functional Differentiation of Neural Cells.

Author

Posati T, Pistone A, Saracino E, Formaggio F, Mola MG, Troni E, Sagnella A, Nocchetti M, Barbalinardo M, Valle F, Bonetti S, Caprini M, Nicchia GP, Zamboni R, Muccini M, and Benfenati V

Subjects

Actins metabolism, Aluminum Hydroxide chemistry, Animals, Aquaporin 4 metabolism, Astrocytes metabolism, Cell Culture Techniques, Cell Survival, Cells, Cultured, Cytoskeleton metabolism, Gliosis metabolism, Magnesium Hydroxide chemistry, Materials Testing, Microscopy, Confocal, Microscopy, Electron, Scanning, Microscopy, Fluorescence, Patch-Clamp Techniques, Potassium Channels, Inwardly Rectifying metabolism, Rats, Vinculin metabolism, Astrocytes cytology, Biocompatible Materials chemistry, Nanostructures

Abstract

Potassium channels and aquaporins expressed by astrocytes are key players in the maintenance of cerebral homeostasis and in brain pathophysiologies. One major challenge in the study of astrocyte membrane channels in vitro, is that their expression pattern does not resemble the one observed in vivo. Nanostructured interfaces represent a significant resource to control the cellular behaviour and functionalities at micro and nanoscale as well as to generate novel and more reliable models to study astrocytes in vitro. However, the potential of nanotechnologies in the manipulation of astrocytes ion channels and aquaporins has never been previously reported. Hydrotalcite-like compounds (HTlc) are layered materials with increasing potential as biocompatible nanoscale interface. Here, we evaluate the effect of the interaction of HTlc nanoparticles films with primary rat neocortical astrocytes. We show that HTlc films are biocompatible and do not promote gliotic reaction, while favouring astrocytes differentiation by induction of F-actin fibre alignment and vinculin polarization. Western Blot, Immunofluorescence and patch-clamp revealed that differentiation was accompanied by molecular and functional up-regulation of both inward rectifying potassium channel Kir 4.1 and aquaporin 4, AQP4. The reported results pave the way to engineering novel in vitro models to study astrocytes in a in vivo like condition.

Published

2016

39. Silk fibroin film from golden-yellow Bombyx mori is a biocomposite that contains lutein and promotes axonal growth of primary neurons.

Author

Pistone A, Sagnella A, Chieco C, Bertazza G, Varchi G, Formaggio F, Posati T, Saracino E, Caprini M, Bonetti S, Toffanin S, Di Virgilio N, Muccini M, Rossi F, Ruani G, Zamboni R, and Benfenati V

Subjects

Animals, Bombyx, Spectrophotometry, Ultraviolet, Spectroscopy, Fourier Transform Infrared, Axons, Biocompatible Materials, Fibroins chemistry, Lutein chemistry, Neurons cytology, Silk chemistry

Abstract

The use of doped silk fibroin (SF) films and substrates from Bombyx mori cocoons for green nanotechnology and biomedical applications has been recently highlighted. Cocoons from coloured strains of B. mori, such as Golden-Yellow, contain high levels of pigments that could have a huge potential for the fabrication of SF based biomaterials targeted to photonics, optoelectronics and neuroregenerative medicine. However, the features of extracted and regenerated SF from cocoons of B. mori Golden-Yellow strain have never been reported. Here we provide a chemophysical characterization of regenerated silk fibroin (RSF) fibers, solution, and films obtained from cocoons of a Golden-Yellow strain of B. mori, by SEM, (1) H-NMR, HPLC, FT-IR, Raman and UV-Vis spectroscopy. We found that the extracted solution and films from B. mori Golden-Yellow fibroin displayed typical Raman spectroscopic and optical features of carotenoids. HPLC-analyses revealed that lutein was the carotenoid contained in the fiber and RSF biopolymer from yellow cocoons. Notably, primary neurons cultured on yellow SF displayed a threefold higher neurite length than those grown of white SF films. The results we report pave the way to expand the potential use of yellow SF in the field of neuroregenerative medicine and provide green chemistry approaches in biomedicine., (© 2016 Wiley Periodicals, Inc.)

Published

2016

40. Androgen Receptor Targeted Conjugate for Bimodal Photodynamic Therapy of Prostate Cancer in Vitro.

Author

Rapozzi V, Ragno D, Guerrini A, Ferroni C, della Pietra E, Cesselli D, Castoria G, Di Donato M, Saracino E, Benfenati V, and Varchi G

Subjects

Antineoplastic Agents pharmacology, Chlorophyll chemistry, Humans, In Vitro Techniques, Male, Prostatic Neoplasms drug therapy, Tumor Cells, Cultured, Androgen Antagonists pharmacology, Chlorophyll analogs & derivatives, Photochemotherapy, Photosensitizing Agents chemistry, Photosensitizing Agents pharmacology, Prostatic Neoplasms pathology, Receptors, Androgen chemistry

Abstract

Prostate cancer (PC) represents the most common type of cancer among males and is the second leading cause of cancer death in men in Western society. Current options for PC therapy remain unsatisfactory, since they often produce uncomfortable long-term side effects, such as impotence (70%) and incontinence (5-20%) even in the first stages of the disease. Light-triggered therapies, such as photodynamic therapy, have the potential to provide important advances in the treatment of localized and partially metastasized prostate cancer. We have designed a novel molecular conjugate (DR2) constituted of a photosensitizer (pheophorbide a, Pba), connected to a nonsteroidal anti-androgen molecule through a small pegylated linker. This study aims at investigating whether DR2 represents a valuable approach for PC treatment based on light-induced production of single oxygen and nitric oxide (NO) in vitro. Besides being able to efficiently bind the androgen receptor (AR), the 2-trifluoromethylnitrobenzene ring on the DR2 backbone is able to release cytotoxic NO under the exclusive control of light, thus augmenting the general photodynamic effect. Although DR2 is similarly internalized in cells expressing different levels of androgen receptor, the AR ligand prevents its efflux through the ABCG2-pump. In vitro phototoxicity experiments demonstrated the ability of DR2 to kill cancer cells more efficiently than Pba, while no dark toxicity was observed. Overall, the presented approach is very promising for further development of AR-photosensitizer conjugates in the multimodal photodynamic treatment of prostate cancer.

Published

2015

41. Seroepidemiology of polioviruses among university students in northern Italy.

Author

Baldo V, Baldovin T, Cocchio S, Lazzari R, Saracino E, Bertoncello C, Buja A, and Trevisan A

Subjects

Adult, Age Factors, Antibodies, Neutralizing blood, Female, Humans, Italy epidemiology, Male, Poliovirus Vaccines administration & dosage, Seroepidemiologic Studies, Students, Universities, Young Adult, Antibodies, Viral blood, Poliovirus immunology, Poliovirus Vaccines immunology

Abstract

The widespread use of poliovirus vaccination schemes has led to a marked decline in the incidence of paralytic poliomyelitis worldwide, but wild poliovirus is still endemic in some developing countries, and in 2009 a total of 23 countries reported at least 1 case of poliomyelitis caused by wild-strain polio viruses. A serological survey was thus conducted on the immunological status against polioviruses of 318 young adults, classified by their country of origin. Immunity to poliomyelitis was assessed by neutralizing antibody titration in tissues cultured on microplates. The rate of seronegativity (≤ 1:8) in the study population was 26.7% for poliovirus type 1, 7.2% for type 2, and 22.6% for type 3. In our sample of 318 individuals, 219 (68.9%) were Italian and 99 (31.1%) were from outside the European Union (EU). The proportion of cases found seropositive to polioviruses 1 and 3 decreased significantly with older age; this age-related decrease was more evident in the Italian group than among the non-EU subjects. Any risk of the wild virus recurring and causing paralytic poliomyelitis must be prevented, keeping Europe polio free by means of appropriate immunological protection, until polio has been conclusively eradicated all over the world. Judging from our findings, it may be worth considering administering a fifth dose of polio vaccine to adolescents.

Published

2012

42. [Cardiovascular response to isometric exercise test during beta blocker and diuretic treatment in essential arterial hypertension].

Author

Maiorano G, Contursi V, Saracino E, Ricapito M, and Di Lecce G

Subjects

Adult, Atenolol administration & dosage, Chlorthalidone administration & dosage, Drug Evaluation, Drug Therapy, Combination, Female, Humans, Hypertension physiopathology, Isometric Contraction, Male, Metoprolol administration & dosage, Middle Aged, Time Factors, Adrenergic beta-Antagonists therapeutic use, Blood Pressure, Diuretics therapeutic use, Exercise Test, Heart Rate, Hypertension drug therapy

Published

1988

43. Anthropometric data, urinary electrolytes excretion, and blood pressure in adolescents.

Author

Maiorano G, Contursi V, Petrelli G, Bovenzi F, Ricapito M, Saracino E, and Loiacono N

Subjects

Adolescent, Child, Female, Humans, Male, Nutritional Physiological Phenomena, Sex Factors, Skinfold Thickness, Blood Pressure, Body Constitution, Potassium urine, Sodium urine

Abstract

Relationships between arterial pressure, age, sex, anthropometric measurements, body fat, and urinary excretion of electrolytes were examined in a group of 120 adolescents from 11 to 14 years of age. Body weight and triceps skinfold thickness are two variables that have the highest correlation with arterial pressure levels, especially among girls. Only a slight correlation was found between urinary excretion of sodium and arterial hypertension. The apparent contradiction between positive correlation of fat percent and arterial pressure and the negative correlation between urinary excretion of sodium and arterial pressure can possibly be explained by the low sodium content of the diet of the subjects studied. Their typical Mediterranean diet was abundant in fresh food, mainly based on carbohydrates (macaroni, bread, vegetables), rather than conserved foods in which salt plays an important role in the conservation process (butter, bacon, salad, etc.), typical of the continental diet.

Published

1987

44. Anthropometric data, urinary sodium excretion, and isometric exercise in epidemiological study of arterial hypertension.

Author

Maiorano G, Contursi V, Bovenzi F, Saracino E, Ricapito M, Di Lecce GF, and Chimienti S

Subjects

Adult, Cardiovascular System physiopathology, Humans, Male, Risk Factors, Sodium, Dietary adverse effects, Body Weight, Hypertension physiopathology, Isometric Contraction, Muscle Contraction, Sodium urine

Abstract

Relationships between cardiovascular response to isometric exercise, anthropometric data, and urinary sodium excretion were examined a group of 80 young males aged 19.7 +/- 1.3 years. Diastolic blood pressure (DBP) was well correlated with the anthropometric data both at rest and during hand grip (HG). During hand grip even the systolic blood pressure (SBP) was correlated with height, arm circumference, body weight, and body index. There was no significant correlation between urinary excretion of sodium and BP. The correlation between SBP and some anthropometric measures found during hand grip but not at rest suggests that the sympathetic nervous system may play a role in determining a relationship between excessive body weight and blood pressure increase.

Published

1987