Your search keyword '"Sogne E"' showing total 33 results

1. Cluster-assembled cubic zirconia films with tunable and stable nanoscale morphology against thermal annealing.

Author

Borghi, F., Sogne, E., Lenardi, C., Podestà, A., Merlini, M., Ducati, C., and Milani, P.

Subjects

*ZIRCONIUM oxide, *ANNEALING of metals, *OXIDATION, *TEMPERATURE, *HEAT treatment

Abstract

Nanostructured zirconium dioxide (zirconia) films are very promising for catalysis and biotechnological applications: a precise control of the interfacial properties of the material at different length scales and, in particular, at the nanoscale, is therefore necessary. Here, we present the characterization of cluster-assembled zirconia films produced by supersonic cluster beam deposition possessing cubic structure at room temperature and controlled nanoscale morphology. We characterized the effect of thermal annealing in reducing and oxidizing conditions on the crystalline structure, grain dimensions, and topography. We highlight the mechanisms of film growth and phase transitions, which determine the observed interfacial morphological properties and their resilience against thermal treatments. [ABSTRACT FROM AUTHOR]

Published

2016

2. Striatal infusion of cholesterol promotes dose‐dependent behavioral benefits and exerts disease‐modifying effects in Huntington's disease mice

Author

Birolini, G, Valenza, M, Di Paolo, E, Vezzoli, E, Talpo, F, Maniezzi, C, Caccia, C, Leoni, V, Taroni, F, Bocchi, V, Conforti, P, Sogne, E, Petricca, L, Cariulo, C, Verani, M, Caricasole, A, Falqui, A, Biella, G, Cattaneo, E, Birolini, Giulia, Valenza, Marta, Di Paolo, Eleonora, Vezzoli, Elena, Talpo, Francesca, Maniezzi, Claudia, Caccia, Claudio, Leoni, Valerio, Taroni, Franco, Bocchi, Vittoria D, Conforti, Paola, Sogne, Elisa, Petricca, Lara, Cariulo, Cristina, Verani, Margherita, Caricasole, Andrea, Falqui, Andrea, Biella, Gerardo, Cattaneo, Elena, Birolini, G, Valenza, M, Di Paolo, E, Vezzoli, E, Talpo, F, Maniezzi, C, Caccia, C, Leoni, V, Taroni, F, Bocchi, V, Conforti, P, Sogne, E, Petricca, L, Cariulo, C, Verani, M, Caricasole, A, Falqui, A, Biella, G, Cattaneo, E, Birolini, Giulia, Valenza, Marta, Di Paolo, Eleonora, Vezzoli, Elena, Talpo, Francesca, Maniezzi, Claudia, Caccia, Claudio, Leoni, Valerio, Taroni, Franco, Bocchi, Vittoria D, Conforti, Paola, Sogne, Elisa, Petricca, Lara, Cariulo, Cristina, Verani, Margherita, Caricasole, Andrea, Falqui, Andrea, Biella, Gerardo, and Cattaneo, Elena

Abstract

A variety of pathophysiological mechanisms are implicated in Huntington's disease (HD). Among them, reduced cholesterol biosynthesis has been detected in the HD mouse brain from pre-symptomatic stages, leading to diminished cholesterol synthesis, particularly in the striatum. In addition, systemic injection of cholesterol-loaded brain-permeable nanoparticles ameliorates synaptic and cognitive function in a transgenic mouse model of HD. To identify an appropriate treatment regimen and gain mechanistic insights into the beneficial activity of exogenous cholesterol in the HD brain, we employed osmotic mini-pumps to infuse three escalating doses of cholesterol directly into the striatum of HD mice in a continuous and rate-controlled manner. All tested doses prevented cognitive decline, while amelioration of disease-related motor defects was dose-dependent. In parallel, we found morphological and functional recovery of synaptic transmission involving both excitatory and inhibitory synapses of striatal medium spiny neurons. The treatment also enhanced endogenous cholesterol biosynthesis and clearance of mutant Huntingtin aggregates. These results indicate that cholesterol infusion to the striatum can exert a dose-dependent, disease-modifying effect and may be therapeutically relevant in HD.

Published

2020

3. Ultrastructural Evidence for a Role of Astrocytes and Glycogen-Derived Lactate in Learning-Dependent Synaptic Stabilization

Author

Vezzoli, E, primary, Calì, C, primary, De Roo, M, primary, Ponzoni, L, primary, Sogne, E, primary, Gagnon, N, primary, Francolini, M, primary, Braida, D, primary, Sala, M, primary, Muller, D, primary, Falqui, A, primary, and Magistretti, P J, primary

Published

2019

4. Inhibiting pathologically active ADAM10 rescues synaptic and cognitive decline in Huntington’s disease

Author

Vezzoli, E, Caron, I, Talpo, F, Besusso, D, Conforti, P, Battaglia, E, Sogne, E, Falqui, A, Petricca, L, Verani, M, Martufi, P, Caricasole, A, Bresciani, A, Cecchetti, O, Rivetti di Val Cervo, P, Sancini, G, Riess, O, Nguyen, H, Seipold, L, Saftig, P, Biella, G, Cattaneo, E, Zuccato, C, Vezzoli, Elena, Caron, Ilaria, Talpo, Francesca, Besusso, Dario, Conforti, Paola, Battaglia, Elisa, Sogne, Elisa, Falqui, Andrea, Petricca, Lara, Verani, Margherita, Martufi, Paola, Caricasole, Andrea, Bresciani, Alberto, Cecchetti, Ottavia, Rivetti di Val Cervo, Pia, Sancini, Giulio, Riess, Olaf, Nguyen, Hoa, Seipold, Lisa, Saftig, Paul, Biella, Gerardo, Cattaneo, Elena, Zuccato, Chiara, Vezzoli, E, Caron, I, Talpo, F, Besusso, D, Conforti, P, Battaglia, E, Sogne, E, Falqui, A, Petricca, L, Verani, M, Martufi, P, Caricasole, A, Bresciani, A, Cecchetti, O, Rivetti di Val Cervo, P, Sancini, G, Riess, O, Nguyen, H, Seipold, L, Saftig, P, Biella, G, Cattaneo, E, Zuccato, C, Vezzoli, Elena, Caron, Ilaria, Talpo, Francesca, Besusso, Dario, Conforti, Paola, Battaglia, Elisa, Sogne, Elisa, Falqui, Andrea, Petricca, Lara, Verani, Margherita, Martufi, Paola, Caricasole, Andrea, Bresciani, Alberto, Cecchetti, Ottavia, Rivetti di Val Cervo, Pia, Sancini, Giulio, Riess, Olaf, Nguyen, Hoa, Seipold, Lisa, Saftig, Paul, Biella, Gerardo, Cattaneo, Elena, and Zuccato, Chiara

Abstract

A disintegrine and metalloproteinase 10 (ADAM10) is implicated in synaptic function through its interaction with postsynaptic receptors and adhesion molecules. Here, we report that levels of active ADAM10 are increased in Huntington’s disease (HD) mouse cortices and striata and in human postmortem caudate. We show that, in the presence of polyglutamine-expanded (polyQ-expanded) huntingtin (HTT), ADAM10 accumulates at the postsynaptic densities (PSDs) and causes excessive cleavage of the synaptic protein N-cadherin (N-CAD). This aberrant phenotype is also detected in neurons from HD patients where it can be reverted by selective silencing of mutant HTT. Consistently, ex vivo delivery of an ADAM10 synthetic inhibitor reduces N-CAD proteolysis and corrects electrophysiological alterations in striatal medium-sized spiny neurons (MSNs) of 2 HD mouse models. Moreover, we show that heterozygous conditional deletion of ADAM10 or delivery of a competitive TAT-Pro-ADAM10709–729 peptide in R6/2 mice prevents N-CAD proteolysis and ameliorates cognitive deficits in the mice. Reduction in synapse loss was also found in R6/2 mice conditionally deleted for ADAM10. Taken together, these results point to a detrimental role of hyperactive ADAM10 at the HD synapse and provide preclinical evidence of the therapeutic potential of ADAM10 inhibition in HD.

Published

2019

5. Ultrastructural Evidence for a Role of Astrocytes and Glycogen-Derived Lactate in Learning-Dependent Synaptic Stabilization.

Author

Vezzoli, E, Calì, C, Roo, M De, Ponzoni, L, Sogne, E, Gagnon, N, Francolini, M, Braida, D, Sala, M, Muller, D, Falqui, A, and Magistretti, P J

Published

2020

6. Cluster-assembled zirconia substrates promote long-term differentiation and functioning of human islets of Langerhans

Author

Galli, A., Maffioli, E., Sogne, E., Moretti, S., Di Cairano, E., Negri, A., Nonnis, S., Norata, Giuseppe, Bonacina, F., Borghi, F., Podestà, A., Bertuzzi, F., Milani, P., Lenardi, C., Tedeschi, G., Perego, C., Galli, A., Maffioli, E., Sogne, E., Moretti, S., Di Cairano, E., Negri, A., Nonnis, S., Norata, Giuseppe, Bonacina, F., Borghi, F., Podestà, A., Bertuzzi, F., Milani, P., Lenardi, C., Tedeschi, G., and Perego, C.

Abstract

Ex vivo expansion and differentiation of human pancreatic ß-cell are enabling steps of paramount importance for accelerating the development of therapies for diabetes. The success of regenerative strategies depends on their ability to reproduce the chemical and biophysical properties of the microenvironment in which ß-cells develop, proliferate and function. In this paper we focus on the biophysical properties of the extracellular environment and exploit the cluster-assembled zirconia substrates with tailored roughness to mimic the nanotopography of the extracellular matrix. We demonstrate that ß-cells can perceive nanoscale features of the substrate and can convert these stimuli into mechanotransductive processes which promote long-term in vitro human islet culture, thus preserving ß-cell differentiation and function. Proteomic and quantitative immunofluorescence analyses demonstrate that the process is driven by nanoscale topography, via remodelling of the actin cytoskeleton and nuclear architecture. These modifications activate a transcriptional program which stimulates an adaptive metabolic glucose response. Engineered cluster-assembled substrates coupled with proteomic approaches may provide a useful strategy for identifying novel molecular targets for treating diabetes mellitus and for enhancing tissue engineering in order to improve the efficacy of islet cell transplantation therapies.

Published

2018

7. On-chip measurement of the Brownian relaxation frequency of magnetic beads using magnetic tunneling junctions

Author

Donolato, M., Sogne, E., Dalslet, Bjarke Thomas, Cantoni, M., Petti, D., Cao, J., Cardoso, F., Cardoso, S., Freitas, P. P., Hansen, Mikkel Fougt, Bertacco, R., Donolato, M., Sogne, E., Dalslet, Bjarke Thomas, Cantoni, M., Petti, D., Cao, J., Cardoso, F., Cardoso, S., Freitas, P. P., Hansen, Mikkel Fougt, and Bertacco, R.

Abstract

We demonstrate the detection of the Brownian relaxation frequency of 250 nm diameter magnetic beads using a lab-on-chip platform based on current lines for exciting the beads with alternating magnetic fields and highly sensitive magnetic tunnel junction (MTJ) sensors with a superparamagnetic free layer. The first harmonic out-of-phase component of the MTJ response gives the imaginary part of the magnetic bead susceptibility, which peaks at the Brownian relaxation frequency. This work paves the way to on-chip implementation of Brownian magnetorelaxometry in innovative "lab-on-a-bead" assays for biomolecular recognition. (C) 2011 American Institute of Physics. [doi:10.1063/1.3554374]

Published

2011

8. Magnetic domain wall conduits for single cell applications

Author

Donolato, Marco, Torti, A., Kostesha, Natalie, Deryabina, Maria, Sogne, E., Vavassori, P., Hansen, Mikkel Fougt, Bertacco, R., Donolato, Marco, Torti, A., Kostesha, Natalie, Deryabina, Maria, Sogne, E., Vavassori, P., Hansen, Mikkel Fougt, and Bertacco, R.

Abstract

The ability to trap, manipulate and release single cells on a surface is important both for fundamental studies of cellular processes and for the development of novel lab-on-chip miniaturized tools for biological and medical applications. In this paper we demonstrate how magnetic domain walls generated in micro- and nano-structures fabricated on a chip surface can be used to handle single yeast cells labeled with magnetic beads. In detail, first we show that the proposed approach maintains the microorganism viable, as proven by monitoring the division of labeled yeast cells trapped by domain walls over 16 hours. Moreover, we demonstrate the controlled transport and release of individual yeast cells via displacement and annihilation of individual domain walls in micro- and nano-sized magnetic structures. These results pave the way to the implementation of magnetic devices based on domain walls technology in lab-on-chip systems devoted to accurate individual cell trapping and manipulation.

Published

2011

9. On-chip measurement of the Brownian relaxation frequency of magnetic beads using magnetic tunneling junctions

Author

Donolato, M., primary, Sogne, E., additional, Dalslet, B. T., additional, Cantoni, M., additional, Petti, D., additional, Cao, J., additional, Cardoso, F., additional, Cardoso, S., additional, Freitas, P. P., additional, Hansen, M. F., additional, and Bertacco, R., additional

Published

2011

10. Magnetic domain wall conduits for single cell applications

Author

Donolato, M., primary, Torti, A., additional, Kostesha, N., additional, Deryabina, M., additional, Sogne, E., additional, Vavassori, P., additional, Hansen, M. F., additional, and Bertacco, R., additional

Published

2011

11. ITO Coating for Correlative Microscopy: Tips & Tricks for Scanning Electron and Fluorescence Imaging.

Author

Sogne, E., Torre, B., Casu, A., Rodighiero, S., and Falqui, A.

Published

2017

12. ROS and Lipid Droplet accumulation induced by high glucose exposure in healthy colon and Colorectal Cancer Stem Cells

Author

Carlo Liberale, Giorgio Stassi, Andrea Falqui, Jeanette Jansen, Luca Tirinato, Simone Di Franco, Elisa Sogne, Maria Grazia Marafioti, Francesca Pagliari, Matilde Todaro, Joao Seco, Enzo Di Fabrizio, Patrizio Candeloro, Tirinato L., Pagliari F., Di Franco S., Sogne E., Marafioti M.G., Jansen J., Falqui A., Todaro M., Candeloro P., Liberale C., Seco J., Stassi G., and Di Fabrizio E.

Subjects

0301 basic medicine, lcsh:QH426-470, Colorectal cancer, Colorectal cancer stem cells, Settore MED/50 - Scienze Tecniche Mediche Applicate, Lipid droplet, Biochemistry, Malignant transformation, 03 medical and health sciences, 0302 clinical medicine, Cancer stem cell, Full Length Article, medicine, Cholesterol metabolism, Molecular Biology, Oncogene, Genetics (clinical), PI3K/AKT/mTOR pathway, Settore MED/04 - Patologia Generale, lcsh:R5-920, Tumor microenvironment, Chemistry, PI3K-AKT, Colorectal cancer stem cell, Cell Biology, Oncogenes, medicine.disease, Lipid droplets, 3. Good health, lcsh:Genetics, Settore BIO/12 - Biochimica Clinica E Biologia Molecolare Clinica, 030104 developmental biology, Oxidative stress, 030220 oncology & carcinogenesis, Fatty acid metabolism, Cancer cell, Cancer research, Oxidative stre, Settore MED/46 - Scienze Tecniche Di Medicina Di Laboratorio, Stem cell, High glucose, lcsh:Medicine (General)

Abstract

Lipid Droplets (LDs) are emerging as crucial players in colon cancer development and maintenance. Their expression has been associated with high tumorigenicity in Cancer Stem Cells (CSCs), so that they have been proposed as a new functional marker in Colorectal Cancer Stem Cells (CR-CSCs). They are also indirectly involved in the modulation of the tumor microenvironment through the production of pro-inflammatory molecules. There is growing evidence that a possible connection between metabolic alterations and malignant transformation exists, although the effects of nutrients, primarily glucose, on the CSC behavior are still mostly unexplored. Glucose is an essential fuel for cancer cells, and the connections with LDs in the healthy and CSC populations merit to be more deeply investigated. Here, we showed that a high glucose concentration activated the PI3K/AKT pathway and increased the expression of CD133 and CD44v6 CSC markers. Additionally, glucose was responsible for the increased amount of Reactive Oxygen Species (ROS) and LDs in both healthy and CR-CSC samples. We also investigated the gene modulations following the HG treatment and found out that the healthy cell gene profile was the most affected. Lastly, Atorvastatin, a lipid-lowering drug, induced the highest mortality on CR-CSCs without affecting the healthy counterpart.

Published

2019

13. Striatal infusion of cholesterol promotes dose-dependent behavioral benefits and exerts disease-modifying effects in Huntington's disease mice

Author

Elisa Sogne, Margherita Verani, Francesca Talpo, Franco Taroni, Gerardo Biella, Eleonora Di Paolo, Claudia Maniezzi, Andrea Falqui, Claudio Caccia, Andrea Caricasole, Valerio Leoni, Lara Petricca, Elena Cattaneo, Elena Vezzoli, Marta Valenza, Vittoria Dickinson Bocchi, Paola Conforti, Cristina Cariulo, Giulia Birolini, Birolini, G, Valenza, M, Di Paolo, E, Vezzoli, E, Talpo, F, Maniezzi, C, Caccia, C, Leoni, V, Taroni, F, Bocchi, V, Conforti, P, Sogne, E, Petricca, L, Cariulo, C, Verani, M, Caricasole, A, Falqui, A, Biella, G, and Cattaneo, E

Subjects

0301 basic medicine, Genetically modified mouse, Cholesterol, Sterols, Oxysterols, Mass Spectrometry, Metabolomics, Medicine (General), Huntingtin, Mice, Transgenic, Striatum, Pharmacology, Neurotransmission, QH426-470, Medium spiny neuron, Article, 03 medical and health sciences, chemistry.chemical_compound, Mice, 0302 clinical medicine, R5-920, Huntington's disease, Genetics, Medicine, Animals, Cognitive decline, Huntingtin Protein, Cholesterol, business.industry, behavior, cholesterol, Articles, medicine.disease, Corpus Striatum, Disease Models, Animal, 030104 developmental biology, Huntington Disease, chemistry, Synapses, aggregates, Molecular Medicine, Genetics, Gene Therapy & Genetic Disease, business, 030217 neurology & neurosurgery, Neuroscience

Abstract

A variety of pathophysiological mechanisms are implicated in Huntington's disease (HD). Among them, reduced cholesterol biosynthesis has been detected in the HD mouse brain from pre‐symptomatic stages, leading to diminished cholesterol synthesis, particularly in the striatum. In addition, systemic injection of cholesterol‐loaded brain‐permeable nanoparticles ameliorates synaptic and cognitive function in a transgenic mouse model of HD. To identify an appropriate treatment regimen and gain mechanistic insights into the beneficial activity of exogenous cholesterol in the HD brain, we employed osmotic mini‐pumps to infuse three escalating doses of cholesterol directly into the striatum of HD mice in a continuous and rate‐controlled manner. All tested doses prevented cognitive decline, while amelioration of disease‐related motor defects was dose‐dependent. In parallel, we found morphological and functional recovery of synaptic transmission involving both excitatory and inhibitory synapses of striatal medium spiny neurons. The treatment also enhanced endogenous cholesterol biosynthesis and clearance of mutant Huntingtin aggregates. These results indicate that cholesterol infusion to the striatum can exert a dose‐dependent, disease‐modifying effect and may be therapeutically relevant in HD., The study shows that striatal infusion of cholesterol is able to improve behavioral, synaptic and neuropathological abnormalities in a mouse model of Huntington's disease.

Published

2020

14. Inhibiting pathologically active ADAM10 rescues synaptic and cognitive decline in Huntington’s disease

Author

Margherita Verani, Olaf Riess, Alberto Bresciani, Paola Martufi, Gerardo Biella, Paul Saftig, Elena Vezzoli, Francesca Talpo, Giulio Sancini, Ottavia Cecchetti, Paola Conforti, Andrea Falqui, Pia Rivetti di Val Cervo, Elisa Sogne, Lisa Seipold, Hoa Nguyen, Chiara Zuccato, Dario Besusso, Elena Cattaneo, Lara Petricca, Ilaria Caron, Andrea Caricasole, Elisa Battaglia, Vezzoli, E, Caron, I, Talpo, F, Besusso, D, Conforti, P, Battaglia, E, Sogne, E, Falqui, A, Petricca, L, Verani, M, Martufi, P, Caricasole, A, Bresciani, A, Cecchetti, O, Rivetti di Val Cervo, P, Sancini, G, Riess, O, Nguyen, H, Seipold, L, Saftig, P, Biella, G, Cattaneo, E, and Zuccato, C

Subjects

Adult, Male, 0301 basic medicine, Huntingtin, ADAM10, Mice, Transgenic, Biology, Synapse, ADAM10 Protein, 03 medical and health sciences, 0302 clinical medicine, Huntington's disease, Antigens, CD, Postsynaptic potential, BIO/09 - FISIOLOGIA, medicine, Animals, Humans, Gene silencing, Cognitive Dysfunction, Cognitive decline, Neurodegeneration, Receptor, Aged, Medicine (all), Membrane Proteins, Post-Synaptic Density, General Medicine, Middle Aged, Cadherins, medicine.disease, 3. Good health, Cell biology, Disease Models, Animal, HEK293 Cells, Huntington Disease, 030104 developmental biology, 030220 oncology & carcinogenesis, Female, Amyloid Precursor Protein Secretases, Neuroscience

Abstract

A disintegrine and metalloproteinase 10 (ADAM10) is implicated in synaptic function through its interaction with postsynaptic receptors and adhesion molecules. Here, we report that levels of active ADAM10 are increased in Huntington's disease (HD) mouse cortices and striata and in human postmortem caudate. We show that, in the presence of polyglutamine-expanded (polyQ-expanded) huntingtin (HTT), ADAM10 accumulates at the postsynaptic densities (PSDs) and causes excessive cleavage of the synaptic protein N-cadherin (N-CAD). This aberrant phenotype is also detected in neurons from HD patients where it can be reverted by selective silencing of mutant HTT. Consistently, ex vivo delivery of an ADAM10 synthetic inhibitor reduces N-CAD proteolysis and corrects electrophysiological alterations in striatal medium-sized spiny neurons (MSNs) of 2 HD mouse models. Moreover, we show that heterozygous conditional deletion of ADAM10 or delivery of a competitive TAT-Pro-ADAM10709-729 peptide in R6/2 mice prevents N-CAD proteolysis and ameliorates cognitive deficits in the mice. Reduction in synapse loss was also found in R6/2 mice conditionally deleted for ADAM10. Taken together, these results point to a detrimental role of hyperactive ADAM10 at the HD synapse and provide preclinical evidence of the therapeutic potential of ADAM10 inhibition in HD.

15. Nanoporous Au Behavior in Methyl Orange Solutions.

Author

Pinna A, Pia G, Melis N, Prato M, Cutrufello MG, Sogne E, Falqui A, and Pilia L

Abstract

Nanoporous (NP) gold, the most extensively studied and efficient NP metal, possesses exceptional properties that make it highly attractive for advanced technological applications. Notably, its remarkable catalytic properties in various significant reactions hold enormous potential. However, the exploration of its catalytic activity in the degradation of water pollutants remains limited. Nevertheless, previous research has reported the catalytic activity of NP Au in the degradation of methyl orange (MO), a toxic azo dye commonly found in water. This study aims to investigate the behavior of nanoporous gold in MO solutions using UV-Vis absorption spectroscopy and high-performance liquid chromatography. The NP Au was prepared by chemical removal of silver atoms of an AuAg precursor alloy prepared by ball milling. Immersion tests were conducted on both pellets and powders of NP Au, followed by examination of the residual solutions. Additionally, X-ray photoelectron spectroscopy and electrochemical impedance measurements were employed to analyze NP Au after the tests. The findings reveal that the predominant and faster process involves the partially reversible adsorption of MO onto NP Au, while the catalytic degradation of the dye plays a secondary and slower role in this system.

Published

2024

16. Correlative Raman-Electron-Light (CREL) Microscopy Analysis of Lipid Droplets in Melanoma Cancer Stem Cells.

Author

Pagliari F, Sogne E, Panella D, Perozziello G, Liberale C, Das G, Turdo A, Di Franco S, Seco J, Falqui A, Gratteri S, Pujia A, Di Fabrizio E, Candeloro P, and Tirinato L

Subjects

Humans, Electrons, Microscopy, Electron, Scanning, Spectrum Analysis, Raman methods, Neoplastic Stem Cells, Lipid Droplets, Melanoma

Abstract

Among all neoplasms, melanoma is characterized by a very high percentage of cancer stem cells (CSCs). Several markers have been proposed for their identification, and lipid droplets (LDs) are among them. Different techniques are used for their characterization such as mass spectrometry, imaging techniques, and vibrational spectroscopies. Some emerging experimental approaches for the study of LDs are represented by correlative light-electron microscopy and by correlative Raman imaging-scanning electron microscopy (SEM). Based on these scientific approaches, we developed a novel methodology (CREL) by combining Raman micro-spectroscopy, confocal fluorescence microscopy, and SEM coupled with an energy-dispersive X-ray spectroscopy module. This procedure correlated cellular morphology, chemical properties, and spatial distribution from the same region of interest, and in this work, we presented the application of CREL for the analysis of LDs within patient-derived melanoma CSCs (MCSCs).

Published

2022

17. Fine-tuned KDM1A alternative splicing regulates human cardiomyogenesis through an enzymatic-independent mechanism.

Author

Astro V, Ramirez-Calderon G, Pennucci R, Caroli J, Saera-Vila A, Cardona-Londoño K, Forastieri C, Fiacco E, Maksoud F, Alowaysi M, Sogne E, Falqui A, Gonzàlez F, Montserrat N, Battaglioli E, Mattevi A, and Adamo A

Abstract

The histone demethylase KDM1A is a multi-faceted regulator of vital developmental processes, including mesodermal and cardiac tube formation during gastrulation. However, it is unknown whether the fine-tuning of KDM1A splicing isoforms, already shown to regulate neuronal maturation, is crucial for the specification and maintenance of cell identity during cardiogenesis. Here, we discovered a temporal modulation of ubKDM1A and KDM1A+2a during human and mice fetal cardiac development and evaluated their impact on the regulation of cardiac differentiation. We revealed a severely impaired cardiac differentiation in KDM1A -/- hESCs that can be rescued by re-expressing ubKDM1A or catalytically impaired ubKDM1A-K661A, but not by KDM1A+2a or KDM1A+2a-K661A. Conversely, KDM1A+2a -/- hESCs give rise to functional cardiac cells, displaying increased beating amplitude and frequency and enhanced expression of critical cardiogenic markers. Our findings prove the existence of a divergent scaffolding role of KDM1A splice variants, independent of their enzymatic activity, during hESC differentiation into cardiac cells., Competing Interests: The authors declare no competing interests., (© 2022 The Author(s).)

Published

2022

18. Estimation of Nanoporous Au Young's Modulus from Serial Block Face-SEM 3D-Characterisation.

Author

Brun M, Sogne E, Falqui A, Scaglione F, Rizzi P, Delogu F, and Pia G

Abstract

Nanoporous Au has been subjected to serial block face-scanning electron microscopy (SBF-SEM) 3D-characterisation. Corresponding sections have been digitalized and used to evaluate the associated mechanical properties. Our investigation demonstrates that the sample is homogeneous and isotropic. The effective Young's modulus estimated by an analytical multiscale approach agrees remarkably well with the values stated in the literature.

Published

2022

19. Hardening of Nanoporous Au Induced by Exposure to Different Gaseous Environments.

Author

Pia G, Sogne E, Falqui A, and Delogu F

Abstract

This work focuses on the mechanical behaviour of nanoporous Au samples alternately exposed to ozone and carbon dioxide. Nanoporous Au was fabricated by freely corroding the Ag 70 Au 30 parent alloys prepared by mechanical alloying in the form of powder and subsequently compacted by cold pressing. Dealloying was performed in acidic solution, and conditions were suitably adjusted to obtain fine nanoporous Au structures with ligaments about 15 nm thick. Nanoporous Au samples with increasingly thicker ligaments, up to about 40 nm, were fabricated by annealing the pristine nanoporous Au structure for different time intervals at 473 K. For all of the samples, the cyclic variation of gaseous atmosphere results in a macroscopic strain variation due to the occurrence of surface oxidation and reduction processes. We show that the reiterated cyclic exposure to the different gases also induces the progressive hardening of nanoporous Au, which can be ascribed to irreversible strain contributions. For nanoporous Au samples with ligaments that are 15 nm thick, after 50 exposure cycles, the yield strength increases approximately from 49 MPa to 57 MPa. A systematic investigation on coarser nanoporous Au structures indicates that, with the same exposure cycles, the degree of hardening decreases with the ligament thickness.

Published

2022

20. Rational Design of a User-Friendly Aptamer/Peptide-Based Device for the Detection of Staphylococcus aureus .

Author

Ronda L, Tonelli A, Sogne E, Autiero I, Spyrakis F, Pellegrino S, Abbiati G, Maffioli E, Schulte C, Piano R, Cozzini P, Mozzarelli A, Bettati S, Clerici F, Milani P, Lenardi C, Tedeschi G, and Gelmi ML

Subjects

Peptides, Aptamers, Nucleotide, Biosensing Techniques, Staphylococcus aureus isolation & purification

Abstract

The urgent need to develop a detection system for Staphylococcus aureus , one of the most common causes of infection, is prompting research towards novel approaches and devices, with a particular focus on point-of-care analysis. Biosensors are promising systems to achieve this aim. We coupled the selectivity and affinity of aptamers, short nucleic acids sequences able to recognize specific epitopes on bacterial surface, immobilized at high density on a nanostructured zirconium dioxide surface, with the rational design of specifically interacting fluorescent peptides to assemble an easy-to-use detection device. We show that the displacement of fluorescent peptides upon the competitive binding of S. aureus to immobilized aptamers can be detected and quantified through fluorescence loss. This approach could be also applied to the detection of other bacterial species once aptamers interacting with specific antigens will be identified, allowing the development of a platform for easy detection of a pathogen without requiring access to a healthcare environment.

Published

2020

21. Mesoporous Strontium-Doped Phosphate-Based Sol-Gel Glasses for Biomedical Applications.

Author

Foroutan F, Kyffin BA, Abrahams I, Knowles JC, Sogne E, Falqui A, and Carta D

Abstract

Mesoporous phosphate-based glasses have great potential as biomedical materials being able to simultaneously induce tissue regeneration and controlled release of therapeutic molecules. In the present study, a series of mesoporous phosphate-based glasses in the P 2 O 5 -CaO-Na 2 O system, doped with 1, 3, and 5 mol% of Sr 2+ , were prepared using the sol-gel method combined with supramolecular templating. A sample without strontium addition was prepared for comparison. The non-ionic triblock copolymer EO 20 PO 70 EO 20 (P123) was used as a templating agent. Scanning electron microscopy (SEM) images revealed that all synthesized glasses have an extended porous structure. This was confirmed by N 2 adsorption-desorption analysis at 77 K that shows a porosity typical of mesoporous materials. 31 P magic angle spinning nuclear magnetic resonance ( 31 P MAS-NMR) and Fourier transform infrared (FTIR) spectroscopies have shown that the glasses are mainly formed by Q 1 and Q 2 phosphate groups. Degradation of the glasses in deionized water assessed over a 7-day period shows that phosphate, Ca 2+ , Na + , and Sr 2+ ions can be released in a controlled manner over time. In particular, a direct correlation between strontium content and degradation rate was observed. This study shows that Sr-doped mesoporous phosphate-based glasses have great potential in bone tissue regeneration as materials for controlled delivery of therapeutic ions., (Copyright © 2020 Foroutan, Kyffin, Abrahams, Knowles, Sogne, Falqui and Carta.)

Published

2020

22. ROS and Lipid Droplet accumulation induced by high glucose exposure in healthy colon and Colorectal Cancer Stem Cells.

Author

Tirinato L, Pagliari F, Di Franco S, Sogne E, Marafioti MG, Jansen J, Falqui A, Todaro M, Candeloro P, Liberale C, Seco J, Stassi G, and Di Fabrizio E

Abstract

Lipid Droplets (LDs) are emerging as crucial players in colon cancer development and maintenance. Their expression has been associated with high tumorigenicity in Cancer Stem Cells (CSCs), so that they have been proposed as a new functional marker in Colorectal Cancer Stem Cells (CR-CSCs). They are also indirectly involved in the modulation of the tumor microenvironment through the production of pro-inflammatory molecules. There is growing evidence that a possible connection between metabolic alterations and malignant transformation exists, although the effects of nutrients, primarily glucose, on the CSC behavior are still mostly unexplored. Glucose is an essential fuel for cancer cells, and the connections with LDs in the healthy and CSC populations merit to be more deeply investigated. Here, we showed that a high glucose concentration activated the PI3K/AKT pathway and increased the expression of CD133 and CD44v6 CSC markers. Additionally, glucose was responsible for the increased amount of Reactive Oxygen Species (ROS) and LDs in both healthy and CR-CSC samples. We also investigated the gene modulations following the HG treatment and found out that the healthy cell gene profile was the most affected. Lastly, Atorvastatin, a lipid-lowering drug, induced the highest mortality on CR-CSCs without affecting the healthy counterpart., Competing Interests: Authors declare no conflict of interest., (© 2019 Chongqing Medical University. Production and hosting by Elsevier B.V.)

Published

2019

23. Inhibiting pathologically active ADAM10 rescues synaptic and cognitive decline in Huntington's disease.

Author

Vezzoli E, Caron I, Talpo F, Besusso D, Conforti P, Battaglia E, Sogne E, Falqui A, Petricca L, Verani M, Martufi P, Caricasole A, Bresciani A, Cecchetti O, Rivetti di Val Cervo P, Sancini G, Riess O, Nguyen H, Seipold L, Saftig P, Biella G, Cattaneo E, and Zuccato C

Subjects

ADAM10 Protein genetics, Adult, Aged, Amyloid Precursor Protein Secretases genetics, Animals, Antigens, CD genetics, Antigens, CD metabolism, Cadherins genetics, Cadherins metabolism, Cognitive Dysfunction genetics, Cognitive Dysfunction pathology, Disease Models, Animal, Female, HEK293 Cells, Humans, Huntington Disease genetics, Huntington Disease pathology, Male, Membrane Proteins genetics, Mice, Transgenic, Middle Aged, Post-Synaptic Density genetics, Post-Synaptic Density pathology, ADAM10 Protein metabolism, Amyloid Precursor Protein Secretases metabolism, Cognitive Dysfunction enzymology, Huntington Disease enzymology, Membrane Proteins metabolism, Post-Synaptic Density enzymology

Abstract

A disintegrine and metalloproteinase 10 (ADAM10) is implicated in synaptic function through its interaction with postsynaptic receptors and adhesion molecules. Here, we report that levels of active ADAM10 are increased in Huntington's disease (HD) mouse cortices and striata and in human postmortem caudate. We show that, in the presence of polyglutamine-expanded (polyQ-expanded) huntingtin (HTT), ADAM10 accumulates at the postsynaptic densities (PSDs) and causes excessive cleavage of the synaptic protein N-cadherin (N-CAD). This aberrant phenotype is also detected in neurons from HD patients where it can be reverted by selective silencing of mutant HTT. Consistently, ex vivo delivery of an ADAM10 synthetic inhibitor reduces N-CAD proteolysis and corrects electrophysiological alterations in striatal medium-sized spiny neurons (MSNs) of 2 HD mouse models. Moreover, we show that heterozygous conditional deletion of ADAM10 or delivery of a competitive TAT-Pro-ADAM10709-729 peptide in R6/2 mice prevents N-CAD proteolysis and ameliorates cognitive deficits in the mice. Reduction in synapse loss was also found in R6/2 mice conditionally deleted for ADAM10. Taken together, these results point to a detrimental role of hyperactive ADAM10 at the HD synapse and provide preclinical evidence of the therapeutic potential of ADAM10 inhibition in HD.

Published

2019

24. Author Correction: Cluster-assembled zirconia substrates promote long-term differentiation and functioning of human islets of Langerhans.

Author

Galli A, Maffioli E, Sogne E, Moretti S, Di Cairano ES, Negri A, Nonnis S, Norata GD, Bonacina F, Borghi F, Podestà A, Bertuzzi F, Milani P, Lenardi C, Tedeschi G, and Perego C

Abstract

A correction to this article has been published and is linked from the HTML and PDF versions of this paper. The error has not been fixed in the paper.

Published

2018

25. Ag surface segregation in nanoporous Au catalysts during CO oxidation.

Author

Pia G, Sogne E, Falqui A, and Delogu F

Abstract

The present study focuses on the modification of surface compositional profiles induced in nanoporous (NP) Au catalysts by the catalytic oxidation of carbon monoxide to carbon dioxide in the presence of oxygen. The phenomenon has deep implications concerning the catalytic behavior of NP Au foams in particular, and more in general for the design of more efficient catalysts. Aimed at gaining deeper insight into the mechanisms governing surface segregation, we exposed NP Au foams containing residual Ag to a mixture of gaseous carbon monoxide and oxygen at different temperature. Structural and surface composition analyses pointed out the concomitant occurrence of both NP Au coarsening and Ag surface segregation processes. Experimental findings suggest for Ag surface segregation a two-stage kinetics. During the initial, rapid coarsening of the NP Au structure, Ag surface segregation is mediated by surface rearrangements, which allow the Ag atoms to reach the surface at anomalously fast rate. As coarsening decelerates, the slower diffusion of buried Ag atoms towards the surface predominates, due to favorable chemical interactions with adsorbed oxygen. This novel mechanism's understanding can benefit strategic areas of science and technology.

Published

2018

26. Cluster-assembled zirconia substrates promote long-term differentiation and functioning of human islets of Langerhans.

Author

Galli A, Maffioli E, Sogne E, Moretti S, Di Cairano ES, Negri A, Nonnis S, Norata GD, Bonacina F, Borghi F, Podestà A, Bertuzzi F, Milani P, Lenardi C, Tedeschi G, and Perego C

Subjects

Apoptosis physiology, Cell Culture Techniques instrumentation, Cell Differentiation, Cell Survival, Fluorescent Antibody Technique, Gene Ontology, Humans, Hypoxia-Inducible Factor 1, alpha Subunit metabolism, Insulin metabolism, Islets of Langerhans growth & development, Mechanotransduction, Cellular, NF-kappa B metabolism, Nanostructures chemistry, Proteins analysis, Proteins genetics, Proteins metabolism, Proteomics methods, Time Factors, Cell Culture Techniques methods, Islets of Langerhans cytology, Islets of Langerhans metabolism, Zirconium chemistry

Abstract

Ex vivo expansion and differentiation of human pancreatic β-cell are enabling steps of paramount importance for accelerating the development of therapies for diabetes. The success of regenerative strategies depends on their ability to reproduce the chemical and biophysical properties of the microenvironment in which β-cells develop, proliferate and function. In this paper we focus on the biophysical properties of the extracellular environment and exploit the cluster-assembled zirconia substrates with tailored roughness to mimic the nanotopography of the extracellular matrix. We demonstrate that β-cells can perceive nanoscale features of the substrate and can convert these stimuli into mechanotransductive processes which promote long-term in vitro human islet culture, thus preserving β-cell differentiation and function. Proteomic and quantitative immunofluorescence analyses demonstrate that the process is driven by nanoscale topography, via remodelling of the actin cytoskeleton and nuclear architecture. These modifications activate a transcriptional program which stimulates an adaptive metabolic glucose response. Engineered cluster-assembled substrates coupled with proteomic approaches may provide a useful strategy for identifying novel molecular targets for treating diabetes mellitus and for enhancing tissue engineering in order to improve the efficacy of islet cell transplantation therapies.

Published

2018

27. Doping porous silicon with erbium: pores filling as a method to limit the Er-clustering effects and increasing its light emission.

Author

Mula G, Printemps T, Licitra C, Sogne E, D'Acapito F, Gambacorti N, Sestu N, Saba M, Pinna E, Chiriu D, Ricci PC, Casu A, Quochi F, Mura A, Bongiovanni G, and Falqui A

Abstract

Er clustering plays a major role in hindering sufficient optical gain in Er-doped Si materials. For porous Si, the long-standing failure to govern the clustering has been attributed to insufficient knowledge of the several, concomitant and complex processes occurring during the electrochemical Er-doping. We propose here an alternative road to solve the issue: instead of looking for an equilibrium between Er content and light emission using 1-2% Er, we propose to significantly increase the electrochemical doping level to reach the filling the porous silicon pores with luminescent Er-rich material. To better understand the intricate and superposing phenomena of this process, we exploit an original approach based on needle electron tomography, EXAFS and photoluminescence. Needle electron tomography surprisingly shows a heterogeneous distribution of Er content in the silicon thin pores that until now couldn't be revealed by the sole use of scanning electron microscopy compositional mapping. Besides, while showing that pore filling leads to enhanced photoluminescence emission, we demonstrate that the latter is originated from both erbium oxide and silicate. These results give a much deeper understanding of the photoluminescence origin down to nanoscale and could lead to novel approaches focused on noteworthy enhancement of Er-related photoluminescence in porous silicon.

Published

2017

28. Manganese doped-iron oxide nanoparticle clusters and their potential as agents for magnetic resonance imaging and hyperthermia.

Author

Casula MF, Conca E, Bakaimi I, Sathya A, Materia ME, Casu A, Falqui A, Sogne E, Pellegrino T, and Kanaras AG

Abstract

A simple, one pot method to synthesize water-dispersible Mn doped iron oxide colloidal clusters constructed of nanoparticles arranged into secondary flower-like structures was developed. This method allows the successful incorporation and homogeneous distribution of Mn within the nanoparticle iron oxide clusters. The formed clusters retain the desired morphological and structural features observed for pure iron oxide clusters, but possess intrinsic magnetic properties that arise from Mn doping. They show distinct performance as imaging contrast agents and excellent characteristics as heating mediators in magnetic fluid hyperthermia. It is expected that the outcomes of this study will open up new avenues for the exploitation of doped magnetic nanoparticle assemblies in biomedicine.

Published

2016

29. Conversion of nanoscale topographical information of cluster-assembled zirconia surfaces into mechanotransductive events promotes neuronal differentiation.

Author

Schulte C, Rodighiero S, Cappelluti MA, Puricelli L, Maffioli E, Borghi F, Negri A, Sogne E, Galluzzi M, Piazzoni C, Tamplenizza M, Podestà A, Tedeschi G, Lenardi C, and Milani P

Subjects

Animals, Cell Adhesion drug effects, Cell Line, Tumor, Cell Nucleus drug effects, Cytoskeleton drug effects, Down-Regulation drug effects, Extracellular Matrix drug effects, PC12 Cells, Rats, Surface Properties drug effects, Up-Regulation drug effects, Cell Differentiation drug effects, Mechanotransduction, Cellular drug effects, Nanoparticles administration & dosage, Nanostructures administration & dosage, Zirconium administration & dosage

Abstract

Background: Thanks to mechanotransductive components cells are competent to perceive nanoscale topographical features of their environment and to convert the immanent information into corresponding physiological responses. Due to its complex configuration, unraveling the role of the extracellular matrix is particularly challenging. Cell substrates with simplified topographical cues, fabricated by top-down micro- and nanofabrication approaches, have been useful in order to identify basic principles. However, the underlying molecular mechanisms of this conversion remain only partially understood., Results: Here we present the results of a broad, systematic and quantitative approach aimed at understanding how the surface nanoscale information is converted into cell response providing a profound causal link between mechanotransductive events, proceeding from the cell/nanostructure interface to the nucleus. We produced nanostructured ZrO2 substrates with disordered yet controlled topographic features by the bottom-up technique supersonic cluster beam deposition, i.e. the assembling of zirconia nanoparticles from the gas phase on a flat substrate through a supersonic expansion. We used PC12 cells, a well-established model in the context of neuronal differentiation. We found that the cell/nanotopography interaction enforces a nanoscopic architecture of the adhesion regions that affects the focal adhesion dynamics and the cytoskeletal organization, which thereby modulates the general biomechanical properties by decreasing the rigidity of the cell. The mechanotransduction impacts furthermore on transcription factors relevant for neuronal differentiation (e.g. CREB), and eventually the protein expression profile. Detailed proteomic data validated the observed differentiation. In particular, the abundance of proteins that are involved in adhesome and/or cytoskeletal organization is striking, and their up- or downregulation is in line with their demonstrated functions in neuronal differentiation processes., Conclusion: Our work provides a deep insight into the molecular mechanotransductive mechanisms that realize the conversion of the nanoscale topographical information of SCBD-fabricated surfaces into cellular responses, in this case neuronal differentiation. The results lay a profound cell biological foundation indicating the strong potential of these surfaces in promoting neuronal differentiation events which could be exploited for the development of prospective research and/or biomedical applications. These applications could be e.g. tools to study mechanotransductive processes, improved neural interfaces and circuits, or cell culture devices supporting neurogenic processes.

Published

2016

30. A facile method to compare EFTEM maps obtained from materials changing composition over time.

Author

Casu A, Genovese A, Di Benedetto C, Lentijo Mozo S, Sogne E, Zuddas E, and Falqui A

Abstract

Energy Filtered Transmission Electron Microscopy (EFTEM) is an analytical tool that has been successfully and widely employed in the last two decades for obtaining fast elemental maps in TEM mode. Several studies and efforts have been addressed to investigate limitations and advantages of such technique, as well as to improve the spatial resolution of compositional maps. Usually, EFTEM maps undergo post-acquisition treatments by changing brightness and contrast levels, either via dedicated software or via human elaboration, in order to maximize their signal-to-noise ratio and render them as visible as possible. However, elemental maps forming a single set of EFTEM images are usually subjected to independent map-by-map image treatment. This post-acquisition step becomes crucial when analyzing materials that change composition over time as a consequence of an external stimulus, because the map-by-map approach doesn't take into account how the chemical features of the imaged materials actually progress, in particular when the investigated elements exhibit very low signals. In this article, we present a facile procedure applicable to whole sets of EFTEM maps acquired on a sample that is evolving over time. The main aim is to find a common method to treat the images features, in order to make them as comparable as possible without affecting the information there contained., (© 2015 Wiley Periodicals, Inc.)

Published

2015

31. Correlative scanning electron and confocal microscopy imaging of labeled cells coated by indium-tin-oxide.

Author

Rodighiero S, Torre B, Sogne E, Ruffilli R, Cagnoli C, Francolini M, Di Fabrizio E, and Falqui A

Subjects

Electric Conductivity, HeLa Cells, Humans, Immunohistochemistry, Monte Carlo Method, Staining and Labeling, Microscopy, Confocal methods, Microscopy, Electron, Scanning methods, Tin Compounds analysis

Abstract

Confocal microscopy imaging of cells allows to visualize the presence of specific antigens by using fluorescent tags or fluorescent proteins, with resolution of few hundreds of nanometers, providing their localization in a large field-of-view and the understanding of their cellular function. Conversely, in scanning electron microscopy (SEM), the surface morphology of cells is imaged down to nanometer scale using secondary electrons. Combining both imaging techniques have brought to the correlative light and electron microscopy, contributing to investigate the existing relationships between biological surface structures and functions. Furthermore, in SEM, backscattered electrons (BSE) can image local compositional differences, like those due to nanosized gold particles labeling cellular surface antigens. To perform SEM imaging of cells, they could be grown on conducting substrates, but obtaining images of limited quality. Alternatively, they could be rendered electrically conductive, coating them with a thin metal layer. However, when BSE are collected to detect gold-labeled surface antigens, heavy metals cannot be used as coating material, as they would mask the BSE signal produced by the markers. Cell surface could be then coated with a thin layer of chromium, but this results in a loss of conductivity due to the fast chromium oxidation, if the samples come in contact with air. In order to overcome these major limitations, a thin layer of indium-tin-oxide was deposited by ion-sputtering on gold-decorated HeLa cells and neurons. Indium-tin-oxide was able to provide stable electrical conductivity and preservation of the BSE signal coming from the gold-conjugated markers., (© 2015 Wiley Periodicals, Inc.)

Published

2015

32. Customized patterned substrates for highly versatile correlative light-scanning electron microscopy.

Author

Benedetti L, Sogne E, Rodighiero S, Marchesi D, Milani P, and Francolini M

Abstract

Correlative light electron microscopy (CLEM) combines the advantages of light and electron microscopy, thus making it possible to follow dynamic events in living cells at nanometre resolution. Various CLEM approaches and devices have been developed, each of which has its own advantages and technical challenges. We here describe our customized patterned glass substrates, which improve the feasibility of correlative fluorescence/confocal and scanning electron microscopy.

Published

2014

33. Nitric oxide synthase mediates PC12 differentiation induced by the surface topography of nanostructured TiO2.

Author

Tamplenizza M, Lenardi C, Maffioli E, Nonnis S, Negri A, Forti S, Sogne E, De Astis S, Matteoli M, Schulte C, Milani P, and Tedeschi G

Subjects

Animals, Biocompatible Materials pharmacology, Cell Differentiation drug effects, Cell Proliferation drug effects, Gene Expression Regulation, Humans, Mitogen-Activated Protein Kinase 1 genetics, Mitogen-Activated Protein Kinase 1 metabolism, Mitogen-Activated Protein Kinase 3 genetics, Mitogen-Activated Protein Kinase 3 metabolism, Nerve Growth Factor pharmacology, Neurites metabolism, Neurites ultrastructure, Nitric Oxide Synthase Type II genetics, PC12 Cells, Rats, Surface Properties, Titanium pharmacology, Tyrosine analogs & derivatives, Tyrosine metabolism, Biocompatible Materials chemistry, Mechanotransduction, Cellular, Nitric Oxide metabolism, Nitric Oxide Synthase Type II metabolism, Titanium chemistry

Abstract

Background: Substrate nanoscale topography influences cell proliferation and differentiation through mechanisms that are at present poorly understood. In particular the molecular mechanism through which cells 'sense' and adapt to the substrate and activate specific intracellular signals, influencing cells survival and behavior, remains to be clarified., Results: To characterize these processes at the molecular level we studied the differentiation of PC12 cells on nanostructured TiO2 films obtained by supersonic cluster beam deposition.Our findings indicate that, in PC12 cells grown without Nerve Growth Factor (NGF), the roughness of nanostructured TiO2 triggers neuritogenesis by activating the expression of nitric oxide synthase (NOS) and the phospho-extracellular signal-regulated kinase 1/2 (pERK1/2) signaling. Differentiation is associated with an increase in protein nitration as observed in PC12 cells grown on flat surfaces in the presence of NGF. We demonstrate that cell differentiation and protein nitration induced by topography are not specific for PC12 cells but can be regarded as generalized effects produced by the substrate on different neuronal-like cell types, as shown by growing the human neuroblastoma SH-SY5Y cell line on nanostructured TiO2., Conclusion: Our data provide the evidence that the nitric oxide (NO) signal cascade is involved in the differentiation process induced by nanotopography, adding new information on the mechanism and proteins involved in the neuritogenesis triggered by the surface properties.

Published

2013