Your search keyword '"Fiore, S. di"' showing total 11 results

1. Targeted mutagenesis in Nicotiana tabacum ADF gene using shockwave-mediated ribonucleoprotein delivery increases osmotic stress tolerance

Author

Augustine, S.M., Cherian, A.V., Seiling, K., Fiore, S. Di, Raven, N., Commandeur, U., Schillberg, S., and Publica

Abstract

DNA-free genome editing involves the direct introduction of ribonucleoprotein (RNP) complexes into cells, but this strategy has rarely been successful in plants. In the present study, we describe a new technique for the introduction of RNPs into plant cells involving the generation of cavitation bubbles using a pulsed laser. The resulting shockwave achieves the efficient transfection of walled cells in tissue explants by creating transient membrane pores. RNP-containing cells were rapidly identified by fluorescence microscopy, followed by regeneration and the screening of mutant plants by high-resolution melt analysis. We used this technique in Nicotiana tabacum to target the endogenous phytoene desaturase (PDS) and actin depolymerizing factor (ADF) genes. Genome-edited plants were produced with an efficiency of 35.2% for PDS and 16.5% for ADF. Further we evaluated the physiological, cellular and molecular effects of ADF mutations in T2 mutant plants under drought and salinity stress. The results suggest that ADF acts as a key regulator of osmotic stress tolerance in plants.

Published

2021

2. Application of adverse outcome pathways and quantitative in vitro-in vivo extrapolation (QIVIVE) modelling for risk assessment based on in vitro data

Author

Mally, A., Birk, B., Fiore, S. di, Ellinger, B., Jarzina, S., Reiser, P., Taverne, F., Kramer, N., and Publica

Published

2019

3. Toward Discovery of Novel Microtubule Targeting Agents

Author

Berges, N., Arens, K., Kreusch, V., Fischer, R., Fiore, S. di, and Publica

Abstract

Microtubule targeting agents (MTAs) are used for the treatment of cancer. Novel MTAs could provide additional and beneficial therapeutic options. To improve the sensitivity and throughput of standard immunofluorescence assays for the characterization of MTAs, we used SNAP-tag technology to produce recombinant tubulin monomers. To visualize microtubule filaments, A549 cells transfected with SNAP-tubulin were stained with a membrane-permeable, SNAP-reactive dye. The treatment of SNAP-tubulin cells with stabilizing MTAs such as paclitaxel resulted in the formation of coarsely structured microtubule filaments, whereas depolymerizing MTAs such as nocodazole resulted in diffuse staining patterns in which the tubulin filaments were no longer distinguishable. By combining these components with automated microscopy and image analysis algorithms, we established a robust high-content screening assay for MTAs with a Z' factor of 0.7. Proof of principle was achieved by testing a panel of 10 substances, allowing us to identify MTAs and to distinguish between stabilizing and destabilizing modes of action. By extending the treatment of the cells from 2 to 20 h, our assay also detected abnormalities in cell cycle progression and in the formation of microtubule spindles, providing additional readouts for the discovery of new MTAs and facilitating their early identification during drug-screening campaigns.

Published

2017

4. Encapsulation of nor-beta-lapachone into poly(d,l)-lactide-: Co -glycolide (PLGA) microcapsules: Full characterization, computational details and cytotoxic activity against human cancer cell lines

Author

Costa, M.P., Feitosa, A.C.S., Oliveira, F.C.E., Cavalcanti, B.C., Dias, G.G., Caetano, E.W.S., Sales, F.A.M., Freire, V.N., Fiore, S. di, Fischer, R., Ladeira, L.O., Silva Junior, E.N. da, Pessoa, C., and Publica

Abstract

In this work, we characterize nor-β-lapachone-loaded (NβL-loaded) microcapsules prepared using an emulsification/solvent extraction technique. Features such as surface morphology, particle size distribution, zeta potential, optical absorption, Raman and Fourier transform infrared spectra, thermal analysis data, drug encapsulation efficiency, drug release kinetics and in vitro cytotoxicity were studied. Spherical microcapsules with a size of 1.03 ± 0.46 μm were produced with an encapsulation efficiency of approximately 19%. Quantum DFT calculations were also performed to estimate typical interaction energies between a single nor-β-lapachone molecule and the surface of the microparticles. The NβL-loaded PLGA microcapsules exhibited a pronounced initial burst release. After the in vitro treatment with NβL-loaded microcapsules, a clear phagocytosis of the spheres was observed in a few minutes. The cytotoxic activity against a set of cancer cell lines was investigated .

Published

2017

5. pH-dependent nano-capturing of tartaric acid using dendrimers

Author

Schramm, O.G., López-Cortés, X., Santos, L.S., Laurie, V.F., González Nilo, F.D., Krolik, M., Fischer, R., Fiore, S. di, and Publica

Abstract

The ability of dendrimers to bind to various target molecules through non-covalent interactions was used to capture water soluble organic reagents, such as tartaric acid (TA), from different matrices, i.e. aqueous solutions and wine samples. The influence of the pH, dendrimer type, generation and feeding concentration on the host-guest complexation of TA was investigated. The maximum binding capacity of TA in aqueous solutions was achieved by amine end-capped dendrimers at pH 5. At extreme pH values of 2 and 11, the binding of TA dropped strikingly, demonstrating the pH-dependency underlying the host-guest interactions. The linear correlation between the maximum binding capacity of TA at pH 5 and the number of primary amine groups on the surface of PAMAM and PPI dendrimers strongly indicated that host-guest complex formation between TA and dendrimers is largely dependent on electrostatic interactions. Molecular simulations confirmed the predominant electrostatic nature of the interactions between TA and the amine end-capped dendrimers and also provided important information on the spatial distribution of TA within the PAMAM G5 dendrimer. All these results designate dendrimers as potential nano-capturing systems for the removal/recovery of TA from complex matrices such as wine, industrial waste or fruit juices.

Published

2014

6. Image-based analysis of cell-specific productivity for plant cell suspension cultures

Author

Havenith, H., Raven, N., Fiore, S. di, Fischer, R., Schillberg, S., and Publica

Abstract

More and more plant cell suspension cultures are regarded as an attractive alternative to mammalian cells as host organism for production of complex recombinant proteins. The most important advantages of the production platform are low costs, easy scalability and enhanced safety by complete lack of animal components in the cultivation media. In order to characterize, understand and control such systems accurately, it is important to determine the cell-specific productivity (Qp) of plant cell-based production platforms. Compared to many microbial and mammalian cells the morphology of plant cells is nonhomogeneous and the cells tend to form aggregates, therefore commercial cell counting systems are too unreliable to determine cell numbers in plant suspension cultures. We addressed this limitation by developing a novel cell counting method based on a combination of cell-staining and automated confocal fluorescence microscopy. This method allowed us, for the first time, to determine the cell-specific productivity of transgenic tobacco (Nicotiana tabacum cv. Bright Yellow-2) cell suspension cultures producing the human antibody M12. In the future this method will be a useful tool in the development of optimized plant cell-based production processes.

Published

2014

7. The p38-mediated rapid down-regulation of cell surface gp130 expression impairs interleukin-6 signaling in the synovial fluid of juvenile idiopathic arthritis patients

Author

Honke, N., Ohl, K., Wiener, A., Bierwagen, J., Peitz, J., Fiore, S. di, Fischer, R., Wagner, N., Wüller, S., Tenbrock, K., and Publica

Abstract

Objective. Interleukin-6 (IL-6) signaling plays an important proinflammatory role, but this role is restricted by regulatory mechanisms that, for example, reduce the cell surface availability of the signaltransducing chain of the IL-6 receptor, gp130. The aim of this study was to determine whether the inflammatory environment in arthritic joints has an impact on monocytic gp130 surface expression and the extent to which regulatory processes in the synovial fluid (SF) can be reproduced in an in vitro model. Methods. Flow cytometry and live cell imaging were used to measure the cell surface expression and internalization of gp130. STAT-3 phosphorylation was monitored by flow cytometry and Western blotting. Results. In patients with juvenile idiopathic arthritis (JIA), levels of cell surface gp130 expression in SF monocytes were reduced compared to those in peripheral blood (PB) monocytes. These reduced levels were reproduced when PB monocytes from healthy donors were stim ulated with SF, and this reduction was dependent on p38 MAPK. The induction of p38 by IL-1 in PB monocytes interfered with IL-6 signaling due to the reduced cell surface expression of gp130. Conclusion. These results suggest that p38- mediated proinflammatory stimuli induce the downregulation of gp130 on monocytes and thus restrict gp130-mediated signal transduction. This regulatory mechanism could be of relevance to processes in the inflamed joints of patients with JIA.

Published

2014

8. Genetic determinants of Pseudomonas aeruginosa biofilm establishment

Author

Musken, M., Fiore, S. di, Dotsch, A., Fischer, R., Häussler, S., and Publica

Abstract

The establishment of bacterial biofilms on surfaces is a complex process that requires various factors for each consecutive developmental step. Here we report the screening of the comprehensive Harvard Pseudomonas aeruginosa PA14 mutant library for mutants exhibiting an altered biofilm phenotype. We analysed the capability of all mutants to form biofilms at the bottom of a 96-well plate by the use of an automated confocal laser-scanning microscope and found 394 and 285 genetic determinants of reduced and enhanced biofilm production, respectively. Overall, 67% of the identified mutants were affected within genes encoding hypothetical proteins, indicating that novel developmental pathways are likely to be dissected in the future. Nevertheless, a common theme that emerged from the analysis of the genes with a predicted function is that the establishment of a biofilm requires regulatory components that are involved in survival under microaerophilic growth conditions, arginine metabolism, alkyl-quinolone signalling, pH homeostasis and the DNA repair system.

Published

2010

9. Epstein-Barr virus BDLF2-BMRF2 complex affects cellular morphology

Author

Loesing, J.-B., Fiore, S. di, Ritter, K., Fischer, R., Kleines, M., and Publica

Abstract

Herpesvirus glycoproteins often form specific heterodimers that can fulfil functions that cannot be carried out by either of the partners acting alone. This study showed that interactions between the Epstein-Barr virus (EBV) multi-spanning transmembrane envelope protein BMRF2 and type II membrane protein BDLF2 influence the way in which these proteins are trafficked in the cell, and hence the subcellular compartment in which they accumulate. When expressed transiently in mammalian cells, BDLF2 accumulated in the endoplasmic reticulum (ER), whereas BMRF2 accumulated in the ER and Golgi apparatus. However, when the two proteins were co-expressed, BDLF2 was transported with BMRF2 to the Golgi apparatus and from there to the plasma membrane, where the proteins co-localized extensively. The distribution of the two proteins at the plasma membrane was reproducibly associated with dramatic changes in cellular morphology, including the formation of enlarged membrane protrusions and cellular processes whose adhesion extremities were organized by the actin cytoskeleton. A dominant-active form of the small GTPase RhoA was epistatic to this morphological phenotype, suggesting that RhoA is a central component of the signalling pathway that reorganizes the cytoskeleton in response to BDLF2-BMRF2. It was concluded that EBV produces a glycoprotein heterodimer that induces changes in cellular morphology through reorganization of the actin cytoskeleton and may facilitate virion spread between cells.

Published

2009

10. Breaking new ground

Author

Lichius, A., Fiore, S. di, Ruthardt, N., Jochems, C., Emans, N., Fischer, R., and Publica

Published

2004

11. Evaluation of humoral and cellular response to four vaccines against COVID-19 in different age groups: A longitudinal study

Author

Giorgio Fedele, Filippo Trentini, Ilaria Schiavoni, Sergio Abrignani, Guido Antonelli, Vincenzo Baldo, Tatjana Baldovin, Alessandra Bandera, Filippa Bonura, Pierangelo Clerici, Massimo De Paschale, Francesca Fortunato, Andrea Gori, Renata Grifantini, Giancarlo Icardi, Tiziana Lazzarotto, Vittorio Lodi, Claudio Maria Mastroianni, Andrea Orsi, Rosa Prato, Vincenzo Restivo, Rita Carsetti, Eva Piano Mortari, Pasqualina Leone, Eleonora Olivetta, Stefano Fiore, Angela Di Martino, Silvio Brusaferro, Stefano Merler, Anna Teresa Palamara, Paola Stefanelli, Fedele G, Trentini F, Schiavoni I, Abrignani S, Antonelli G, Baldo V, Baldovin T, Bandera A, Bonura F, Clerici P, De Paschale M, Fortunato F, Gori A, Grifantini R, Icardi G, Lazzarotto T, Lodi V, Mastroianni CM, Orsi A, Prato R, Restivo V, Carsetti R, Piano Mortari E, Leone P, Olivetta E, Fiore S, Di Martino A, Brusaferro S, Merler S, Palamara AT, Stefanelli P., Fedele, Giorgio, Trentini, Filippo, Schiavoni, Ilaria, Abrignani, Sergio, Antonelli, Guido, Baldo, Vincenzo, Baldovin, Tatjana, Bandera, Alessandra, Bonura, Filippa, Clerici, Pierangelo, De Paschale, Massimo, Fortunato, Francesca, Gori, Andrea, Grifantini, Renata, Icardi, Giancarlo, Lazzarotto, Tiziana, Lodi, Vittorio, Mastroianni, Claudio Maria, Orsi, Andrea, Prato, Rosa, Restivo, Vincenzo, Carsetti, Rita, Piano Mortari, Eva, Leone, Pasqualina, Olivetta, Eleonora, Fiore, Stefano, Di Martino, Angela, Brusaferro, Silvio, Merler, Stefano, Palamara, Anna Teresa, and Stefanelli, Paola

Subjects

COVID-19 Vaccines, Ad26COVS1, vaccines, SARS-CoV-2, Immunology, COVID-19, serology, Viral Vaccines, Humans, B-cell memory, cell-mediated immunity, Immunology and Allergy, B-CELL MEMORY, COVID-19, CELL-MEDIATED IMMUNITY, SEROLOGY, VACCINES, Longitudinal Studies, Aged

Abstract

To date there has been limited head-to-head evaluation of immune responses to different types of COVID-19 vaccines. A real-world population-based longitudinal study was designed with the aim to define the magnitude and duration of immunity induced by each of four different COVID-19 vaccines available in Italy at the time of this study. Overall, 2497 individuals were enrolled at time of their first vaccination (T0). Vaccine-specific antibody responses induced over time by Comirnaty, Spikevax, Vaxzevria, Janssen Ad26.COV2.S and heterologous vaccination were compared up to six months after immunization. On a subset of Comirnaty vaccinees, serology data were correlated with the ability to neutralize a reference SARS-CoV-2 B strain, as well as Delta AY.4 and Omicron BA.1. The frequency of SARS-CoV-2-specific CD4+ T cells, CD8+ T cells, and memory B cells induced by the four different vaccines was assessed six months after the immunization. We found that mRNA vaccines are stronger inducer of anti-Spike IgG and B-memory cell responses. Humoral immune responses are lower in frail elderly subjects. Neutralization of the Delta AY.4 and Omicron BA.1 variants is severely impaired, especially in older individuals. Most vaccinees display a vaccine-specific T-cell memory six months after the vaccination. By describing the immunological response during the first phase of COVID-19 vaccination campaign in different cohorts and considering several aspects of the immunological response, this study allowed to collect key information that could facilitate the implementation of effective prevention and control measures against SARS-CoV-2.

Published

2022