Your search keyword '"Mussano, Federico"' showing total 9 results

1. Dysregulation of FLVCR1a-dependent mitochondrial calcium handling in neural progenitors causes congenital hydrocephalus

Author

Bertino, Francesca, Mukherjee, Dibyanti, Bonora, Massimo, Bagowski, Christoph, Nardelli, Jeannette, Metani, Livia, Zanin Venturini, Diletta Isabella, Chianese, Diego, Santander, Nicolas, Salaroglio, Iris Chiara, Hentschel, Andreas, Quarta, Elisa, Genova, Tullio, McKinney, Arpana Arjun, Allocco, Anna Lucia, Fiorito, Veronica, Petrillo, Sara, Ammirata, Giorgia, De Giorgio, Francesco, Dennis, Evan, Allington, Garrett, Maier, Felicitas, Shoukier, Moneef, Gloning, Karl-Philipp, Munaron, Luca, Mussano, Federico, Salsano, Ettore, Pareyson, Davide, di Rocco, Maja, Altruda, Fiorella, Panagiotakos, Georgia, Kahle, Kristopher T., Gressens, Pierre, Riganti, Chiara, Pinton, Paolo P., Roos, Andreas, Arnold, Thomas, Tolosano, Emanuela, and Chiabrando, Deborah

Abstract

Congenital hydrocephalus (CH), occurring in approximately 1/1,000 live births, represents an important clinical challenge due to the limited knowledge of underlying molecular mechanisms. The discovery of novel CH genes is thus essential to shed light on the intricate processes responsible for ventricular dilatation in CH. Here, we identify FLVCR1(feline leukemia virus subgroup C receptor 1) as a gene responsible for a severe form of CH in humans and mice. Mechanistically, our data reveal that the full-length isoform encoded by the FLVCR1gene, FLVCR1a, interacts with the IP3R3-VDAC complex located on mitochondria-associated membranes (MAMs) that controls mitochondrial calcium handling. Loss of Flvcr1ain mouse neural progenitor cells (NPCs) affects mitochondrial calcium levels and energy metabolism, leading to defective cortical neurogenesis and brain ventricle enlargement. These data point to defective NPCs calcium handling and metabolic activity as one of the pathogenetic mechanisms driving CH.

Published

2024

2. Plasma of argon enhances the adhesion of murine osteoblasts on different graft materials.

Author

Canullo, Luigi, Genova, Tullio, Mussano, Federico, Naenni, Nadja, Nakajima, Yasushi, and Masuda, Katsuhiko

Subjects

ARGON, CELL membranes, ADHESION, SURFACE energy, APATITE, BIOPHYSICS

Abstract

Objective Plasma of argon treatment was demonstrated to increase material surface energy leading to stronger and faster interaction with cells. The aim of the present in vitro study was to test the effect of plasma treatment on different graft materials. Materials and methods Synthetic hydroxyapatite (Mg-HA), biphasic calcium phosphate (BCP), cancellous and cortical xenogeneic bone matrices (CaBM, CoBM) were used representing commonly used classes of bone substitute materials. Fifty serially numbered disks with a 10 mm-diameter from each graft material were randomly divided into two groups: test group (argon plasma treatment) and control group (absence of treatment). Cell morphology (using pre-osteoblastic murine cells) and protein adsorption were analyzed at all samples from both the test and control group. Differences between groups were analyzed using the Mann–Whitney test setting the level of significance at p < 0.05. Results Plasma treatment significantly increased the protein adsorption at all samples. Similarly, plasma treatment significantly increased cell adhesion in all groups. Conclusions Data confirmed that non-atmospheric plasma of argon treatment led to an increase of protein adsorption and cell adhesion in all groups of graft material to a similar extent. Clinical relevance Plasma of argon is able to improve the surface conditions of graft materials. [ABSTRACT FROM AUTHOR]

Published

2018

3. Nanoroughness, Surface Chemistry, and Drug Delivery Control by Atmospheric Plasma Jet on Implantable Devices

Author

Patelli, Alessandro, Mussano, Federico, Brun, Paola, Genova, Tullio, Ambrosi, Emmanuele, Michieli, Niccoló, Mattei, Giovanni, Scopece, Paolo, and Moroni, Lorenzo

Abstract

Implantable devices need specific tailored surface morphologies and chemistries to interact with the living systems or to actively induce a biological response also by the release of drugs or proteins. These customized requirements foster technologies that can be implemented in additive manufacturing systems. Here, we present a novel approach based on spraying processes that allow to control separately topographic features in the submicron range (∼60 nm to 2 μm), ammine or carboxylic chemistry, and fluorophore release even on temperature-sensitive biodegradable polymers such as polycaprolactone (PCL). We developed a two-steps process with a first deposition of 220 nm silica and poly(lactic-co-glycolide) (PLGA) fluorescent nanoparticles by aerosol followed by the deposition of a fixing layer by an atmospheric pressure plasma jet (APPJ). The nanoparticles can be used to create the nanoroughness and to include active molecule release, while the capping layer ensures stability and the chemical functionalities. The process is enabled by a novel APPJ which allows deposition rates of 10–20 nm·s–1at temperatures lower than 50 °C using argon as the process gas. This approach was assessed on titanium alloys for dental implants and on PCL films. The surfaces were characterized by Fourier transform infrared, atomic force microscopy, and scanning electron microscopy (SEM). Titanium alloys were tested with the preosteoblast murine cells line, while the PCL film was tested with fibroblasts. Cell behavior was evaluated by viability and adhesion assays, protein adsorption, cell proliferation, focal adhesion formation, and SEM. The release of a fluorophore molecule was assessed in the cell growing media, simulating a drug release. Osteoblast adhesion on the plasma-treated materials increased by 20% with respect to commercial titanium alloy implants. Fibroblast adhesion increased by a 100% compared to smooth PCL substrates. The release of the fluorophore by the dissolution of the PLGA nanoparticles was verified, and the integrity of the encapsulated drug model was confirmed.

Published

2018

4. Heme accumulation in endothelial cells impairs angiogenesis by triggering paraptosis

Author

Petrillo, Sara, Chiabrando, Deborah, Genova, Tullio, Fiorito, Veronica, Ingoglia, Giada, Vinchi, Francesca, Mussano, Federico, Carossa, Stefano, Silengo, Lorenzo, Altruda, Fiorella, Merlo, Giorgio Roberto, Munaron, Luca, and Tolosano, Emanuela

Abstract

Heme is required for cell respiration and survival. Nevertheless, its intracellular levels need to be finely regulated to avoid heme excess, which may catalyze the production of reactive oxygen species (ROS) and promote cell death. Here, we show that alteration of heme homeostasis in endothelial cells due to the loss of the heme exporter FLVCR1a, results in impaired angiogenesis. In vitro, FLVCR1asilencing in endothelial cells causes defective tubulogenesis and poor viability due to intracellular heme accumulation. Consistently, endothelial-specific Flvcr1aknockout mice show aberrant angiogenesis responsible for hemorrhages and embryonic lethality. Importantly, we demonstrate that impaired heme export leads to endothelial cell death by paraptosis and provide evidence that endoplasmic reticulum (ER) stress precedes heme-induced paraptosis. These findings highlight a crucial role for the cytosolic heme pool in the control of endothelial cell survival and in the regulation of the angiogenic process. Interfering with endothelial heme export represents a valuable model for a deeper understanding of the molecular mechanisms underlying heme-triggered paraptosis and, in the future, might provide a novel tool for the modulation of angiogenesis in pathophysiologic conditions.

Published

2018

5. Presence of osteoinductive factors in bovine colostrum.

Author

Mussano, Federico, Cusani, Alberto Bartorelli, Brossa, Alessia, Carossa, Stefano, Bussolati, Gianni, and Bussolati, Benedetta

Subjects

OSTEOINDUCTION, CATTLE, COLOSTRUM, CYTOKINES, STROMAL cells, CELL differentiation

Abstract

The article studies osteoinductive factors in bovine colostrum. Topics discussed include use of standardized a derivative of bovine colostrum (SBCD) as an adjuvant in bone healing process, SBCD considered as a rich source of factors with osteoinductive properties and SBCD observed to contain factors involved in stromal cell stimulation and differentiation and induced cytokine production.

Published

2014

6. Presence of osteoinductive factors in bovine colostrum

Author

Mussano, Federico, Bartorelli Cusani, Alberto, Brossa, Alessia, Carossa, Stefano, Bussolati, Gianni, and Bussolati, Benedetta

Abstract

New approaches in the treatment of skeletal defects may benefit from the use of soluble biological factors. We previously standardized a derivative of bovine colostrum (SBCD), deprived of casein and fat and rich in cytokines. In the present study, we tested its possible use as an adjuvant in bone healing. SBCD contained factors involved in stromal cell stimulation and differentiation and induced cytokine production from stimulated mesenchymal stem cells (MSCs). In vitro, SBCD promoted proliferation, migration and, in association with osteogenic factors, osteogenic differentiation of osteoblastic and MSCs. In in vivoexperiments of subcutaneous Matrigel injection in mice, SBCD plus hydroxyapatite, but not hydroxyapatite nor SBCD alone, induced recruitment of macrophages and stromal cells. After 60 days, plugs containing SBCD and hydroxyapatite were densely calcified and diffusely positive for osteocalcin, supporting the occurrence of an early osteogenic process. These results indicate that SBCD is a rich source of factors with osteoinductive properties.

Published

2014

7. Zoledronate and denosumab may affect differently γδ T lymphocytes in cancer patients at risk of developing ONJ

Author

Roato, Ilaria, Pavone, Lorenzo, Motta, Chiara, Erovigni, Francesco, and Mussano, Federico

Published

2022

8. a‐SiOxCoatings Grown on Dental Materials by PECVD: Compositional Analysis and Preliminary Investigation of Biocompatibility Improvements

Author

Mandracci, Pietro, Ceruti, Paola, Ricciardi, Carlo, Mussano, Federico, and Carossa, Stefano

Abstract

Silicon‐oxygen amorphous thin film alloys (a‐SiOx) are grown at room temperature by plasma‐enhanced (PE)CVD on two dental materials; a ceramic and a microcomposite resin. A compositional analysis of substrates and films is performed by energy dispersive X‐ray spectroscopy (EDX), while the sample morphologies are investigated by optical microscopy. Some preliminary investigations on the interaction of substrates and coatings with cells give indications in favor of a‐SiOxbiocompatibility, and show that the application of coatings based on this material may have a good potential for the reduction of cytotoxicity in dental materials.

Published

2010

9. Surface bio-functionalization using plasma of argon could alter microbiological and topographic surface analysis of dental implants?

Author

Canullo, Luigi, Genova, Tullio, Pesce, Paolo, Nakajima, Yasushi, Yonezawa, Daichi, and Mussano, Federico

Subjects

ARGON plasmas, SURFACE analysis, SURFACE contamination, BACTERIAL growth, OPACITY (Optics), OSSEOINTEGRATED dental implants, DENTAL implants

Abstract

Plasma of argon was demonstrated to improve protein and cell adhesion on implant surface. On the other hand, increased surface energy and hydrophilicity could potentially amplify the risks of implant surface contamination during clinical phases, risks that have not yet been evaluated in Literature. The aim of the present in vitro study was to verify if Plasma treatment could alter the implant surface characteristics and its ability to remain sterile. Implants from 9 brands were collected (n = 11). One implant for each company was used for SEM surface analysis. To perform the microbiological analysis, ten implants from each company were used and randomly split by allocation either in test or control group. To replicate the surgical work flow, both test and control samples were left 60 s in clinical environment. Bacterial growth analysis was performed. Optical density at 600 nm was measured as readout of bacterial growth and colony forming unit (CFU) after 24 h was evaluated. Statistical analysis was performed by using the Wilcoxon Mann Whitney test. A p -value lower than 0.05 was considered significant. SEM analysis revealed different categories of implant surface roughness. The optical density confirmed a readout of bacterial growth between 4 and 7 with no significant differences within groups. The number of CFU/ml for each measured sample (test and control) was lower than 102 and failed to present significant differences. Surface activation using plasma of argon did not affect the degree of implant contamination, allowing to maintain a substantial sterility of the implant independently of its morphology. This may allow in the next future the use of bioactivation through plasma of argon to exploit the superhydrophilicity deriving from this biophysical process. [ABSTRACT FROM AUTHOR]

Published

2020