Your search keyword '"Pozzolini, Marina"' showing total 10 results

1. Microbial Diversity and Screening for Potential Pathogens and Beneficial Bacteria of Five Jellyfish Species-Associated Microorganisms Based on 16S rRNA Sequencing

Author

Li, Liangzhi, Zhu, Yina, Wu, Feng, Shen, Yuxin, Wang, Yi, Höfer, Juan, Pozzolini, Marina, Wang, Mingke, Xiao, Liang, and Dai, Xiaojie

Abstract

Jellyfish, microorganisms, and the marine environment collectively shape a complex ecosystem. This study aimed to analyze the microbial communities associated with five jellyfish species, exploring their composition, diversity, and relationships. Microbial diversity among the species was assessed using 16S rRNA gene sequencing and QIIME analysis. Significant differences in bacterial composition were found, with distinct dominant taxa in each species: Mycoplasmataceae(99.21%) in Aurelia coerulea, Sphingomonadaceae(22.81%) in Cassiopea andromeda, Alphaproteobacteria_unclassified (family level) (64.09%) in Chrysaora quinquecirrha, Parcubacteria_unclassified (family level) (93.11%) in Phacellophora camtschatica, and Chlamydiaceae(35.05%) and Alphaproteobacteria_unclassified (family level) (38.73%) in Rhopilema esculentum. C. andromedashowed the highest diversity, while A. coeruleaexhibited the lowest. Correlations among dominant genera varied, including a positive correlation between Parcubacteria_unclassified (genus level) and Chlamydiaceae_unclassified (genus level). Genes were enriched in metabolic pathways and ABC transporters. The most abundant potential pathogens at the phylum level were Proteobacteria, Tenericutes, Chlamydiae, and Epsilonbacteraeota. The differing microbial compositions are likely influenced by species and their habitats. Interactions between jellyfish and microorganisms, as well as among microorganisms, showed interdependency or antagonism. Most microbial gene functions focused on metabolic pathways, warranting further study on the relationship between pathogenic bacteria and these pathways.

Published

2024

2. Diverse and Productive Source of Biopolymer Inspiration: Marine Collagens.

Author

Fassini, Dario, Wilkie, Iain C., Pozzolini, Marina, Ferrario, Cinzia, Sugni, Michela, Rocha, Miguel S., Giovine, Marco, Bonasoro, Francesco, Silva, Tiago H., and Reis, Rui L.

Published

2021

3. Alginate-Based Electrospun Membranes Containing ZnO Nanoparticles as Potential Wound Healing Patches: Biological, Mechanical, and Physicochemical Characterization.

Author

Dodero, Andrea, Scarfi, Sonia, Pozzolini, Marina, Vicini, Silvia, Alloisio, Marina, and Castellano, Maila

Published

2020

4. Diverse and Productive Source of Biopolymer Inspiration: Marine Collagens

Author

Fassini, Dario, Wilkie, Iain C., Pozzolini, Marina, Ferrario, Cinzia, Sugni, Michela, Rocha, Miguel S., Giovine, Marco, Bonasoro, Francesco, Silva, Tiago H., and Reis, Rui L.

Abstract

Marine biodiversity is expressed through the huge variety of vertebrate and invertebrate species inhabiting intertidal to deep-sea environments. The extraordinary variety of “forms and functions” exhibited by marine animals suggests they are a promising source of bioactive molecules and provides potential inspiration for different biomimetic approaches. This diversity is familiar to biologists and has led to intensive investigation of metabolites, polysaccharides, and other compounds. However, marine collagens are less well-known. This review will provide detailed insight into the diversity of collagens present in marine species in terms of their genetics, structure, properties, and physiology. In the last part of the review the focus will be on the most common marine collagen sources and on the latest advances in the development of innovative materials exploiting, or inspired by, marine collagens.

Published

2021

5. Alginate-Based Electrospun Membranes Containing ZnO Nanoparticles as Potential Wound Healing Patches: Biological, Mechanical, and Physicochemical Characterization

Author

Dodero, Andrea, Scarfi, Sonia, Pozzolini, Marina, Vicini, Silvia, Alloisio, Marina, and Castellano, Maila

Abstract

In the present work, alginate-based mats with and without ZnO nanoparticles were prepared via an electrospinning technique and subjected to a washing-cross-linking process to obtain highly stable products characterized by thin and homogeneous nanofibers with a diameter of 100 ± 30 nm. Using a commercial collagen product as control, the biological response of the prepared mats was carefully evaluated with particular attention paid to the influence of the used cross-linking agent (Ca2+, Sr2+, or Ba2+ions) and to the presence of nanofillers. Fibroblast and keratinocyte cultures successfully proved the safety of the prepared alginate-based mats, whereas ZnO nanoparticles were found to provide strong antibacteriostatic and antibacterial properties; above all, the strontium- and barium-cross-linked samples showed performances in terms of cell adhesion and growth very similar to those of the commercial collagen membrane despite them showing a significantly lower protein adsorption. Moreover, the mechanical and water-related properties of the strontium-cross-linked mats embedding ZnO nanoparticles were proven to be similar to those of human skin (i.e., Young modulus of 470 MPa and water vapor permeability of 3.8 × 10–12g/m Pa s), thus proving the ability of the prepared mats to be able to endure considerable stress, maintaining at the same time the fundamental ability to remove exudates. Taking into account the obtained results, the proposed alginate-based products could lead to harmless and affordable surgical patches and wound dressing membranes with a simpler and safer production procedure than the commonly employed animal collagen-derived systems.

Published

2020

6. Structural Characterization of Siliceous Spicules from Marine Sponges

Author

Croce, Gianluca, Frache, Alberto, Milanesio, Marco, Marchese, Leonardo, Causà, Mauro, Viterbo, Davide, Barbaglia, Alessia, Bolis, Vera, Bavestrello, Giorgio, Cerrano, Carlo, Benatti, Umberto, Pozzolini, Marina, Giovine, Marco, and Amenitsch, Heinz

Abstract

Siliceous sponges, one of the few animal groups involved in a biosilicification process, deposit hydrated silica in discrete skeletal elements called spicules. A multidisciplinary analysis of the structural features of the protein axial filaments inside the spicules of a number of marine sponges, belonging to two different classes (Demospongiae and Hexactinellida), is presented, together with a preliminary analysis of the biosilicification process. The study was carried out by a unique combination of techniques: fiber diffraction using synchrotron radiation, scanning electron microscopy (SEM), thermogravimetric analysis (TGA), differential scanning calorimetric (DSC), Fourier transform infrared spectroscopy (FTIR), and molecular modeling. From a phylogenetic point of view, the main result is the structural difference between the dimension and packing of the protein units in the spicule filaments of the Demospongiae and the Hexactinellida species. Models of the protein organization in the spicule axial filaments, consistent with the various experimental evidences, are given. The three different species of demosponges analyzed have similar general structural features, but they differ in the degree of order. The structural information on the spicule axial filaments can help shed some light on the still unknown molecular mechanisms controlling biosilicification.

Published

2004

7. Heat Stress-Activated, Calcium-Dependent Nitric Oxide Synthase in Sponges

Author

Giovine, Marco, Pozzolini, Marina, Favre, Anna, Bavestrello, Giorgio, Cerrano, Carlo, Ottaviani, Francesca, Chiarantini, Laura, Cerasi, Aurora, Cangiotti, Michela, Zocchi, Elena, Scarfı̀, Sonia, Sarà, Michele, and Benatti, Umberto

Abstract

The presence of Ca2+-dependent, heat-stress-activated nitric oxide synthase (NOS) activity in peculiarly shaped, fusiform, and dendritic sponge cells is described for the first time. The NOS activity was evidenced evaluating the conversion of radioactive citrulline from [14C]arginine in intact cells from two different species that are phylogenetically unrelated in the class of Demospongiae: Axinella polypoidesand Petrosia ficiformis.The production of nitrogen monoxide (NO) was confirmed by electron paramagnetic resonance analysis, and the histochemistry technique of NADPH diaphorase showed a specific localization of NOS activity in a particular network of dendritic cells in the sponge parenchyma. Sponges are the most primitive metazoan group; their evolution dates back 600 million years. The presence of environmental stress-activated NOS activity in these organisms may prove to be the most ancient NO-dependent signaling network in the animal kingdom.

Published

2001

8. Regulation of L-arginine uptake by Ca 2+in human platelets

Author

Giovine, Marco, Signorello, Maria Grazia, Pozzolini, Marina, and Leoncini, Giuliana

Abstract

L-Arginine uptake and Ca 2+changes in unstirred platelets activated by thrombin, collagen and Ca 2+ionophore A23187 were evaluated. Thrombin did not affect L-arginine uptake at short incubation times (2–15 min), but at prolonged times slowed down the amino acid transport. Collagen was ineffective. A23187 decreased the L-arginine uptake in a dose-dependent manner, producing the maximal inhibition at 5 μM. In FURA 2-loaded platelets collagen did not modify Ca 2+basal level, thrombin induced a late Ca 2+rise and A23187 dose-dependently increased cytosolic Ca 2+, eliciting the highest increase at 5 μM. It is likely that L-arginine uptake is inversely modulated by Ca 2+concentrations and is inhibited during platelet stimulation with agonists which induce cytosolic Ca 2+elevation.

Published

1999

9. Regulation of L‐arginine uptake by Ca2+in human platelets

Author

Giovine, Marco, Signorello, Maria Grazia, Pozzolini, Marina, and Leoncini, Giuliana

Abstract

L‐Arginine uptake and Ca2+changes in unstirred platelets activated by thrombin, collagen and Ca2+ionophore A23187 were evaluated. Thrombin did not affect L‐arginine uptake at short incubation times (2–15 min), but at prolonged times slowed down the amino acid transport. Collagen was ineffective. A23187 decreased the L‐arginine uptake in a dose‐dependent manner, producing the maximal inhibition at 5 μM. In FURA 2‐loaded platelets collagen did not modify Ca2+basal level, thrombin induced a late Ca2+rise and A23187 dose‐dependently increased cytosolic Ca2+, eliciting the highest increase at 5 μM. It is likely that L‐arginine uptake is inversely modulated by Ca2+concentrations and is inhibited during platelet stimulation with agonists which induce cytosolic Ca2+elevation.

Published

1999

10. Modified peptide nucleic acids are internalized in mouse macrophages RAW 264.7 and inhibit inducible nitric oxide synthase

Author

Scarfi, Sonia, Giovine, Marco, Gasparini, Anna, Damonte, Gianluca, Millo, Enrico, Pozzolini, Marina, and Benatti, Umberto

Abstract

Overexpression of inducible nitric oxide synthase causes the production of high levels of nitric oxide, which, under pathological conditions, leads to immunosuppression and tissue damage. The results recently obtained using peptide nucleic acids, rather than traditional oligonucleotides as antigen and antisense molecules, prompted us to test their efficacy in the regulation of nitric oxide production, thereby overcoming the obstacle of cellular internalization. The cellular permeability of four inducible nitric oxide synthase antisense peptide nucleic acids of different lengths was evaluated. These peptide nucleic acids were covalently linked to a hydrophobic peptide moiety to increase internalization and to a tyrosine to allow selective 125I radiolabelling. Internalization experiments showed a 3–25‐fold increase in the membrane permeability of the modified peptide nucleic acids with respect to controls. inducible nitric oxide synthase inhibition experiments on intact stimulated macrophages RAW 264.7 after passive permeation of the two antisense peptide nucleic acids 3 and 4 demonstrated a significant decrease (43–44%) in protein enzymatic activity with respect to the controls. These data offer a basis for developing a good alternative to conventional drugs directed against inducible nitric oxide synthase overexpression.

Published

1999