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4. Polypeptide effect on Mg2+ hydration inferred from CaCO3 formation: A biomineralization study by counter-diffusion

Author

Sancho Tomás, María, Fermani, S., Reggi, M., García Ruiz, Juan Manuel, Gómez-Morales, Jaime, Falini, G., Sancho Tomás, María, Fermani, S., Reggi, M., García Ruiz, Juan Manuel, Gómez-Morales, Jaime, and Falini, G.

Abstract

The use of a counter-diffusion system allows the evaluation of diverse parameters involved in a crystallization process. In this study, this tool has been used to infer the hydration status of Mg during CaCO formation experiments in an agarose highly viscous sol entrapping charged polypeptides. The experimental data allow us to infer that the hydration status of Mg is altered by the presence of poly-l-aspartate or poly-l-glutamate. This changes the CaCO polymorphic distribution in favor of Mg-calcite with respect to aragonite, but does not favor the isomorphic substitution of Mg with Ca within the calcite lattice. The latter may exclude the formation of an amorphous transient form, which leads to a high Mg-calcite, as expected when using a counter-diffusion system set up. The presence of poly-l-lysine does not affect the hydration of Mg, but favors the formation of aragonite with respect to calcite. In this case an inhibition of calcite formation and an alteration of the hydration sphere of Ca could be invoked; both effects are able to increase CaCO supersaturation. In conclusion, this study reveals that charged polypeptides can orchestrate CaCO formation by also controlling the hydration status of cations.

Published
2016

6. Calcium carbonate crystallization in tailored constrained environments.

Author

Beato, C., Fernández, M. S., Fermani, S., Reggi, M., Neira-Carrillo, A., Rao, A., Falini, G., and Arias, J. L.

Subjects
CALCIUM carbonate, CRYSTALLIZATION, BIOMINERALIZATION, INORGANIC synthesis, DIFFUSION, SOLUTION (Chemistry)
Abstract

Synthesis of inorganic particles using routes inspired by biomineralization is a goal of growing interest. Recently it was demonstrated that the size and geometry of crystallization sites are as important as the structure of charged templating surfaces to obtain particles with controlled features. Most biominerals are formed inside restricted, constrained or confined spaces where at least parts of the boundaries are cell membranes containing phospholipids. In this study, we used a gas diffusion method to determine the effect of different lecithin media on the crystallization of CaCO3 and to evaluate the influence of the spatial arrangement of lecithin molecules on templating CaCO3 crystal formation. By using inorganic synthesis, Raman spectroscopy, dynamic light scattering, electrochemical methods and scanning electron microscopy, we showed that the occurrence of surface-modified calcite crystals and diverse textured vaterite crystals reflects the geometry and spatial distribution of aqueous constrained spaces due to the lecithin assembly controlled by lecithin concentration in an ionized calcium chloride solution under a continuous CO2 diffusion atmosphere. This research shows that by tailoring the assembly of lecithin molecules, as micelles or reversed micelles, it is possible to modulate the texture, polymorphism, size and shape of calcium carbonate crystals. [ABSTRACT FROM AUTHOR]

Published
2015
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7. Effects of magnesium and temperature control on aragonite crystal aggregation and morphology

Author

Damir Kralj, Michela Reggi, Simona Fermani, Giuseppe Falini, B. Njegić Džakula, Fermani, S., Njegić Džakula, B., Reggi, M., Falini, G., and Kralj, D.

Subjects
Morphology (linguistics), Materials science, aragonite, morphology, aggregation, magnesium, temperature, chemistry.chemical_element, 02 engineering and technology, engineering.material, 010402 general chemistry, 01 natural sciences, Crystal, chemistry.chemical_compound, General Materials Science, Crystal habit, Magnesium ion, Temperature control, Magnesium, Aragonite, Calcium carbonate, aragonite, magnesium ions, morphology, General Chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 0104 chemical sciences, Crystallography, Calcium carbonate, chemistry, engineering, 0210 nano-technology
Abstract

In this study, the influence of Mg2+ on the aggregation and morphology of precipitated aragonite crystals is investigated at different temperatures. Different from some investigations described in the literature, aragonite precipitates in chemical systems in which Mg2+ acts specifically as crystal habit modifiers and not as polymorphic selectors. The results show that at increased Mg2+ concentration and temperature the aragonite crystals are less aggregated and that the amount of crystals sharing {; ; 110}; ; faces and having larger extension of {; ; 001}; ; faces increases. These outcomes may be relevant in biological, geochemical and technological contexts.

Published
2017

8. Influences of coral intra-skeletal organic matrix on calcium carbonate precipitation

Author

Giuseppe Falini, Zvy Dubinsky, Michela Reggi, Simona Fermani, Stefano Goffredo, Oren Levy, Reggi, M., Fermani, S., Levy, O., Dubinsky, Z., Goffredo, S., and Falini, G.

Subjects
0303 health sciences, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Coral, fungi, Corals • Organic matrix • Calcium carbonate • Crystallization • Biomineralization, Geochemistry, technology, industry, and agriculture, 01 natural sciences, Mineralization (biology), 03 medical and health sciences, chemistry.chemical_compound, Calcium carbonate, chemistry, Environmental chemistry, Organic matrix, 14. Life underwater, Reef, Calcium carbonate precipitation, Microbiologically induced calcite precipitation, 030304 developmental biology, 0105 earth and related environmental sciences, Biomineralization
Abstract

Corals are among the most important calcium carbonate mineralizers and form the main structures of the reefs, which provide an important socio-economical support. Despite this, and the fact the is quite generally accepted that coral mineralization is a biological controlled process, few studied have so far addressed the role of the intra-skeletal organic matrix in the calcifi cation process. This chapter makes a scientifi c path on what is known on the biological control of coral mineralization describing the more relevant studies. The sections are sequenced with the aim to guide the readers to be conscious of the importance of the organic matrix in the mineralization process that is fi nally illustrated through a series of experiments in vivo and in vitro. Accordingly the chapter presents an overview on coral biomineralization, anatomy and physiology, skeleton microsctructure, tissue-skeleton, minor element distribution, organic matrix, biomineralization proteins and fi nally calcium carbonate precipitation in the presence of coral organic matrix

Published
2016

9. Shell morphology and skeletal property variations in the clam Chamelea gallina along a latitudinal gradient in the Adriatic Sea

Author

A Mancuso, F Gizzi, M G Caccia, G Simoncini, M Reggi, L Brizi, P Fantazzini, G Falini, S Goffredo, Mancuso, A., Gizzi, F., Caccia, M. G., Simoncini, G., Reggi, M., Brizi, L., Fantazzini, P., Falini, G., and Goffredo, S.

Subjects
Adriatic Sea, latitudinal gradient, Chamelea gallina, skeletal property variation, Shell morphology, clam
Abstract

Phenotype can express different morphologies in response to biotic or abiotic environmental influences. Mollusks are particularly sensitive to different environmental parameters, showing shell morphology variation with several environmental factors. Here, we investigate shell morphology of the commercially important clam Chamelea gallina in relation to natural variations in sea surface temperature (SST) and solar radiation (SR). Specimens of C. gallina were sampled using hydraulic dredges on soft bottoms in the subtidal zone at 3-7 m depth, in six populations along a latitudinal gradient (~400 km) in the Western Adriatic Sea. Only clams of commercial size (25-30 mm) were used in this study. To analyze shell morphology, length, width, height, thickness of the valve and dry shell mass were measured. Volume and shell density parameters were obtained by means of the buoyant weight technique and used to calculate skeletal properties (micro-density, bulk-density and apparent porosity). Compression tests were conducted to check for shell resistance to fracture. Furthermore, to obtain qualitative information about shell mineral composition, X-ray powder diffraction (XRD) and Fourier transform infrared spectroscopy (FTIR) were performed. C. gallina shells from the warmest and the most irradiated population were about 30% lighter, thinner and more porous. They also showed a reduction in shell stiffness and load to fracture, with an increase in fragility and damage susceptibility. However, no variation was observed in shell polymorphism (100% aragonite), indicating no effects of environmental parameters on the composition of biomineralized shell. Because of the importance of this species as a commercial resource in the Adriatic Sea, the variation of mass and fragility in C. gallina shells with increasing SST and SR could have economic implications along Adriatic coastline. Less resistance to breakage shells could be more damages during the catch with hydraulic dredges, with a bigger amount of clams discarded from the trade and a bigger catch effort for fishermen with a loss in economic yield.

Published
2016

10. Isotropic microscale mechanical properties of coral skeletons

Author

Jean-Pierre Cuif, Zvy Dubinsky, Fiorella Prada, Alan Molinari, Erik Caroselli, Giuseppe Falini, Michela Reggi, Luca Pasquini, Yannicke Dauphen, Oren Levy, Stefano Goffredo, Matteo Di Giosia, Paola Fantazzini, Pasquini L, Molinari A, Fantazzini P, Dauphen Y, Cuif J-P, Levy O, Dubinsky Z, Caroselli E, Prada F, Goffredo S, Di Giosia M, Reggi M, and Falini G

Subjects
Materials science, Biomedical Engineering, Biophysics, Mineralogy, Balanophyllia europaea, Bioengineering, engineering.material, Stylophora pistillata, Biochemistry, Models, Biological, Biomaterials, chemistry.chemical_compound, Species Specificity, Animal Shells, Hardness, Elastic Modulus, Animals, Composite material, Elastic modulus, Research Articles, biology, Aragonite, Isotropy, Nanoindentation, biology.organism_classification, Microstructure, Anthozoa, Calcium carbonate, chemistry, engineering, Anisotropy, Coral, Stress, Mechanical, MICROSTRUCTURE, Porosity, MECHANICAL PROPERTIES, Biotechnology
Abstract

Scleractinian corals are a major source of biogenic calcium carbonate, yet the relationship between their skeletal microstructure and mechanical properties has been scarcely studied. In this work, the skeletons of two coral species: solitary Balanophyllia europaea and colonial Stylophora pistillata , were investigated by nanoindentation. The hardness H IT and Young's modulus E IT were determined from the analysis of several load–depth data on two perpendicular sections of the skeletons: longitudinal (parallel to the main growth axis) and transverse. Within the experimental and statistical uncertainty, the average values of the mechanical parameters are independent on the section's orientation. The hydration state of the skeletons did not affect the mechanical properties. The measured values, E IT in the 76–77 GPa range, and H IT in the 4.9–5.1 GPa range, are close to the ones expected for polycrystalline pure aragonite. Notably, a small difference in H IT is observed between the species. Different from corals, single-crystal aragonite and the nacreous layer of the seashell Atrina rigida exhibit clearly orientation-dependent mechanical properties. The homogeneous and isotropic mechanical behaviour of the coral skeletons at the microscale is correlated with the microstructure, observed by electron microscopy and atomic force microscopy, and with the X-ray diffraction patterns of the longitudinal and transverse sections.

Published
2015

11. Long-Term Pantethine Treatment Counteracts Pathologic Gene Dysregulation and Decreases Alzheimer's Disease Pathogenesis in a Transgenic Mouse Model.

Author

Baranger K, van Gijsel-Bonnello M, Stephan D, Carpentier W, Rivera S, Khrestchatisky M, Gharib B, De Reggi M, and Benech P

Subjects
Aggression drug effects, Aggression physiology, Alzheimer Disease pathology, Animals, Drug Administration Schedule, Hippocampus drug effects, Hippocampus pathology, Humans, Male, Mice, Mice, Transgenic, Pantetheine administration & dosage, Phagocytosis drug effects, Phagocytosis physiology, Time Factors, Alzheimer Disease drug therapy, Alzheimer Disease genetics, Amyloid beta-Peptides genetics, Disease Models, Animal, Pantetheine analogs & derivatives
Abstract

The low-molecular weight thiol pantethine, known as a hypolipidemic and hypocholesterolemic agent, is the major precursor of co-enzyme A. We have previously shown that pantethine treatment reduces amyloid-β (Aβ)-induced IL-1β release and alleviates pathological metabolic changes in primary astrocyte cultures. These properties of pantethine prompted us to investigate its potential benefits in vivo in the 5XFAD (Tg) mouse model of Alzheimer's disease (AD).1.5-month-old Tg and wild-type (WT) male mice were submitted to intraperitoneal administration of pantethine or saline control solution for 5.5 months. The effects of such treatments were investigated by performing behavioral tests and evaluating astrogliosis, microgliosis, Αβ deposition, and whole genome expression arrays, using RNAs extracted from the mice hippocampi. We observed that long-term pantethine treatment significantly reduced glial reactivity and Αβ deposition, and abrogated behavioral alteration in Tg mice. Moreover, the transcriptomic profiles revealed that after pantethine treatment, the expression of genes differentially expressed in Tg mice, and in particular those known to be related to AD, were significantly alleviated. Most of the genes overexpressed in Tg compared to WT were involved in inflammation, complement activation, and phagocytosis and were found repressed upon pantethine treatment. In contrast, pantethine restored the expression of a significant number of genes involved in the regulation of Αβ processing and synaptic activities, which were downregulated in Tg mice. Altogether, our data support a beneficial role for long-term pantethine treatment in preserving CNS crucial functions altered by Aβ pathogenesis in Tg mice and highlight the potential efficiency of pantethine to alleviate AD pathology.

Published
2019
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12. Structure and Function of Stony Coral Intraskeletal Polysaccharides.

Author

Naggi A, Torri G, Iacomini M, Colombo Castelli G, Reggi M, Fermani S, Dubinsky Z, Goffredo S, and Falini G

Abstract

Polysaccharides represent a main weight fraction of the intraskeletal organic matrix of corals, but their structure, as well as their function in the calcification process, has been poorly investigated. This communication shows by a combination of techniques (nuclear magnetic resonance, Fourier transform infrared, and monosaccharide composition) that their key component is a 1→3 β-d glucuronic acid polymer and evidences its influence in vitro in the calcification process., Competing Interests: The authors declare no competing financial interest.

Published
2018
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14. Pantethine Down-Regulates Leukocyte Recruitment and Inflammatory Parameters in a Mouse Model of Allergic Airway Inflammation.

Author

Abou-Hamdan M, Gharib B, Bajenoff M, Julia V, and de Reggi M

Subjects
Allergens physiology, Animals, Antigens, Protozoan immunology, Bronchoalveolar Lavage methods, Cytokines metabolism, Disease Models, Animal, Down-Regulation drug effects, Female, Inflammation drug therapy, Inflammation pathology, Leukocytes physiology, Lung, Mice, Mice, Inbred BALB C, Pantetheine metabolism, Pantetheine pharmacology, Protozoan Proteins immunology, Leukocytes drug effects, Pantetheine analogs & derivatives
Abstract

BACKGROUND Migration of leukocytes into airways is the hallmark of allergic asthma. The aim of this study was to target the pathological process using pantethine, a pleiotropic natural compound which has been recently shown to down-regulate chemokine-driven T cell migration. MATERIAL AND METHODS Mice were sensitized to the Leishmania LACK antigen, then treated or not treated with pantethine and exposed to LACK or saline aerosol. After sacrifice of the animals, cells in the bronchoalveolar lavage were analyzed and inflammatory parameters were determined to evaluate inflammation seriousness. RESULTS As compared to untreated animals, pantethine-treated animals displayed a moderated response to the allergen, as documented by decreased infiltration of inflammatory cells (all types), in addition to reduced levels of lung Th2 cytokines and circulating LACK-specific IgE. CONCLUSIONS These data reveal the potential therapeutic importance of pantethine to moderate allergic asthma pathology. The compound has been previously shown to exert a broad range of protective activity in animals and in humans, with few or no adverse effects.

Published
2017
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15. Ecological relevance of skeletal fatty acid concentration and composition in Mediterranean scleractinian corals.

Author

Samorì C, Caroselli E, Prada F, Reggi M, Fermani S, Dubinsky Z, Goffredo S, and Falini G

Subjects
Animals, Anthozoa chemistry, Ecology, Fatty Acids chemistry, Gas Chromatography-Mass Spectrometry, Mediterranean Sea, Anthozoa metabolism, Fatty Acids metabolism
Abstract

The intra-skeletal fatty acid concentration and composition of four Mediterranean coral species, namely Cladocora caespitosa, Balanophyllia europaea, Astroides calycularis and Leptopsammia pruvoti, were examined in young and old individuals living in three different locations of the Mediterranean Sea. These species are characterized by diverse levels of organization (solitary or colonial) and trophic strategies (symbiotic or non-symbiotic). Fatty acids have manifold fundamental roles comprehensive of membrane structure fluidity, cell signaling and energy storage. For all species, except for B. europaea, the intra-skeletal fatty acid concentration was significantly higher in young individuals than in old ones. Moreover, fatty acid concentration was higher in colonial corals than in solitary ones and in the symbiotic corals compared to non-symbiotic ones. Analysis by gas chromatography-mass spectrometry (GC-MS) revealed that palmitic acid (16:0) was the most abundant fatty acid, followed by stearic (18:0) in order of concentration. Oleic acid (18:1) was detected as the third main component only in skeletons from symbiotic corals. These results suggest that, in the limits of the studied species, intra-skeletal fatty acid composition and concentration may be used for specific cases as a proxy of level of organization and trophic strategy, and eventually coral age.

Published
2017
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16. Metabolic changes and inflammation in cultured astrocytes from the 5xFAD mouse model of Alzheimer's disease: Alleviation by pantethine.

Author

van Gijsel-Bonnello M, Baranger K, Benech P, Rivera S, Khrestchatisky M, de Reggi M, and Gharib B

Subjects
Alzheimer Disease drug therapy, Alzheimer Disease metabolism, Amyloid beta-Protein Precursor genetics, Amyloid beta-Protein Precursor metabolism, Animals, Astrocytes cytology, Cell Survival drug effects, Cells, Cultured, Citric Acid Cycle drug effects, Disease Models, Animal, Gene Expression drug effects, Glycolysis drug effects, Hypoxia-Inducible Factor 1, alpha Subunit metabolism, Interleukin-1beta analysis, Interleukin-1beta metabolism, Metabolomics, Mice, Mice, Transgenic, Pantetheine pharmacology, Pantetheine therapeutic use, Pentose Phosphate Pathway drug effects, Presenilin-1 genetics, Presenilin-1 metabolism, RNA, Messenger metabolism, Alzheimer Disease pathology, Astrocytes drug effects, Astrocytes pathology, Inflammation drug therapy, Inflammation pathology, Pantetheine analogs & derivatives
Abstract

Astrocytes play critical roles in central nervous system homeostasis and support of neuronal function. A better knowledge of their response may both help understand the pathophysiology of Alzheimer's disease (AD) and implement new therapeutic strategies. We used the 5xFAD transgenic mouse model of AD (Tg thereafter) to generate astrocyte cultures and investigate the impact of the genotype on metabolic changes and astrocytes activation. Metabolomic analysis showed that Tg astrocytes exhibited changes in the glycolytic pathway and tricarboxylic acid (TCA) cycle, compared to wild type (WT) cells. Tg astrocytes displayed also a prominent basal inflammatory status, with accentuated reactivity and increased expression of the inflammatory cytokine interleukin-1 beta (IL-1β). Compensatory mechanisms were activated in Tg astrocytes, including: i) the hexose monophosphate shunt with the consequent production of reducing species; ii) the induction of hypoxia inducible factor-1 alpha (HIF-1α), known to protect against amyloid-β (Aβ) toxicity. Such events were associated with the expression by Tg astrocytes of human isoforms of both amyloid precursor protein (APP) and presenilin-1 (PS1). Similar metabolic and inflammatory changes were induced in WT astrocytes by exogenous Aβ peptide. Pantethine, the vitamin B5 precursor, known to be neuroprotective and anti-inflammatory, alleviated the pathological pattern in Tg astrocytes as well as WT astrocytes treated with Aß. In conclusion, our data enlighten the dual pathogenic/protective role of astrocytes in AD pathology and the potential protective role of pantethine.

Published
2017
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17. Effect of Pantethine on Ovarian Tumor Progression and Choline Metabolism.

Author

Penet MF, Krishnamachary B, Wildes F, Mironchik Y, Mezzanzanica D, Podo F, de Reggi M, Gharib B, and Bhujwalla ZM

Abstract

Epithelial ovarian cancer remains the leading cause of death from gynecologic malignancy among women in developed countries. New therapeutic strategies evaluated with relevant preclinical models are urgently needed to improve survival rates. Here, we have assessed the effect of pantethine on tumor growth and metabolism using magnetic resonance imaging and high-resolution proton magnetic resonance spectroscopy (MRS) in a model of ovarian cancer. To evaluate treatment strategies, it is important to use models that closely mimic tumor growth in humans. Therefore, we used an orthotopic model of ovarian cancer where a piece of tumor tissue, derived from an ovarian tumor xenograft, is engrafted directly onto the ovary of female mice, to maintain the tumor physiological environment. Treatment with pantethine, the precursor of vitamin B5 and active moiety of coenzyme A, was started when tumors were ~100 mm 3 and consisted of a daily i.p. injection of 750 mg/kg in saline. Under these conditions, no side effects were observed. High-resolution 1 H MRS was performed on treated and control tumor extracts. A dual-phase extraction method based on methanol/chloroform/water was used to obtain lipid and water-soluble fractions from the tumors. We also investigated effects on metastases and ascites formation. Pantethine treatment resulted in slower tumor progression, decreased levels of phosphocholine and phosphatidylcholine, and reduced metastases and ascites occurrence. In conclusion, pantethine represents a novel potential, well-tolerated, therapeutic tool in patients with ovarian cancer. Further in vivo preclinical studies are needed to confirm the beneficial role of pantethine and to better understand its mechanism of action.

Published
2016
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18. Shell properties of commercial clam Chamelea gallina are influenced by temperature and solar radiation along a wide latitudinal gradient.

Author

Gizzi F, Caccia MG, Simoncini GA, Mancuso A, Reggi M, Fermani S, Brizi L, Fantazzini P, Stagioni M, Falini G, Piccinetti C, and Goffredo S

Subjects
Animal Shells anatomy & histology, Animal Shells chemistry, Animals, Bivalvia anatomy & histology, Bivalvia radiation effects, Calcium Carbonate analysis, Elastic Modulus, Microscopy, Electron, Scanning, Porosity, Spectroscopy, Fourier Transform Infrared, Temperature, X-Ray Diffraction, Bivalvia physiology, Sunlight
Abstract

Phenotype can express different morphologies in response to biotic or abiotic environmental influences. Mollusks are particularly sensitive to different environmental parameters, showing macroscale shell morphology variations in response to environmental parameters. Few studies concern shell variations at the different scale levels along environmental gradients. Here, we investigate shell features at the macro, micro and nanoscale, in populations of the commercially important clam Chamelea gallina along a latitudinal gradient (~400 km) of temperature and solar radiation in the Adriatic Sea (Italian cost). Six populations of clams with shells of the same length were analyzed. Shells from the warmest and the most irradiated population were thinner, with more oval shape, more porous and lighter, showing lower load fracture. However, no variation was observed in shell CaCO 3 polymorphism (100% aragonite) or in compositional and textural shell parameters, indicating no effect of the environmental parameters on the basic processes of biomineralization. Because of the importance of this species as commercial resource in the Adriatic Sea, the experimentally quantified and significant variations of mass and fracture load in C. gallina shells along the latitudinal gradient may have economic implications for fisheries producing different economical yield for fishermen and consumers along the Adriatic coastline.

Published
2016
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19. Molecular hydrogen attenuates radiation-induced nucleobase damage to DNA in aerated aqueous solutions.

Author

Abou-Hamdan M, Gardette B, Cadet J, Gharib B, De Reggi M, Douki T, and Triantaphylides C

Subjects
Air, DNA genetics, Dose-Response Relationship, Radiation, Nucleotides genetics, Nucleotides radiation effects, Radiation Dosage, Solutions, Structure-Activity Relationship, DNA radiation effects, DNA Damage, Gamma Rays, Hydrogen chemistry, Nucleotides chemistry, Water chemistry
Abstract

Purpose: The main aim of the present study is to gain mechanistic insights into the modulating effect of molecular hydrogen on the γ-radiation-induced alteration pathways of DNA nucleobases., Materials and Methods: Aerated aqueous solutions of calf thymus DNA were exposed to a (60)Co source at doses ranging from 0 to 55 Gy under normoxic conditions, in the presence or not of 0.7 MPa hydrogen or helium. The measurement of several modified bases was performed using HPLC associated with electrospray ionization tandem pass spectrometry (HPLC-ESI-MS/MS). Bleaching of aqueous solutions of p-nitrosodimethylaniline (p-NDA) solutions was also used to allow the quantification of hydroxyl radical (•OH) formation., Results: pNDA bleaching was significantly reduced in the presence of hyperbaric hydrogen. This is undoubtedly due to (•)OH scavenging by H2 since, under the same conditions, He had no effect. Similarly, base alterations were significantly reduced in the presence of hydrogen, as compared to controls under normal atmosphere or in the presence of helium. The relative proportions of modified nucleobases were not changed, showing that the only effect of H2 is to scavenge (•)OH without exhibiting reducing properties., Conclusions: Our findings demonstrate that H2 exerts a significant protection against radiation-induced DNA base damage in aqueous solutions, (•)OH scavenging being the only mechanism involved.

Published
2016
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20. Pantethine Alters Lipid Composition and Cholesterol Content of Membrane Rafts, With Down-Regulation of CXCL12-Induced T Cell Migration.

Author

van Gijsel-Bonnello M, Acar N, Molino Y, Bretillon L, Khrestchatisky M, de Reggi M, and Gharib B

Subjects
Animals, Chemokine CXCL12 metabolism, Down-Regulation, Humans, Jurkat Cells, Pantetheine pharmacology, Rats, Signal Transduction drug effects, T-Lymphocytes metabolism, Cell Movement drug effects, Cholesterol metabolism, Lipids biosynthesis, Lymphocyte Activation drug effects, Pantetheine analogs & derivatives, T-Lymphocytes drug effects
Abstract

Pantethine, a natural low-molecular-weight thiol, shows a broad activity in a large range of essential cellular pathways. It has been long known as a hypolipidemic and hypocholesterolemic agent. We have recently shown that it exerts a neuroprotective action in mouse models of cerebral malaria and Parkinson's disease through multiple mechanisms. In the present study, we looked at its effects on membrane lipid rafts that serve as platforms for molecules engaged in cell activity, therefore providing a target against inappropriate cell response leading to a chronic inflammation. We found that pantethine-treated cells showed a significant change in raft fatty acid composition and cholesterol content, with ultimate downregulation of cell adhesion, CXCL12-driven chemotaxis, and transendothelial migration of various T cell types, including human Jurkat cell line and circulating effector T cells. The mechanisms involved include the alteration of the following: (i) CXCL12 binding to its target cells; (ii) membrane dynamics of CXCR4 and CXCR7, the two CXCL12 receptors; and (iii) cell redox status, a crucial determinant in the regulation of the chemokine system. In addition, we considered the linker for activation of T cells molecule to show that pantethine effects were associated with the displacement from the rafts of the acylated signaling molecules which had their palmitoylation level reduced.. In conclusion, the results presented here, together with previously published findings, indicate that due to its pleiotropic action, pantethine can downregulate the multifaceted process leading to pathogenic T cell activation and migration., (© 2015 Wiley Periodicals, Inc.)

Published
2015
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21. Isotropic microscale mechanical properties of coral skeletons.

Author

Pasquini L, Molinari A, Fantazzini P, Dauphen Y, Cuif JP, Levy O, Dubinsky Z, Caroselli E, Prada F, Goffredo S, Di Giosia M, Reggi M, and Falini G

Subjects
Animals, Anisotropy, Anthozoa classification, Elastic Modulus physiology, Hardness physiology, Porosity, Species Specificity, Stress, Mechanical, Animal Shells physiology, Animal Shells ultrastructure, Anthozoa physiology, Anthozoa ultrastructure, Models, Biological
Abstract

Scleractinian corals are a major source of biogenic calcium carbonate, yet the relationship between their skeletal microstructure and mechanical properties has been scarcely studied. In this work, the skeletons of two coral species:solitary Balanophyllia europaea and colonial Stylophora pistillata, were investigated by nanoindentation. The hardness HIT and Young's modulus E(IT) were determined from the analysis of several load-depth data on two perpendicular sections of the skeletons: longitudinal (parallel to the main growth axis) and transverse. Within the experimental and statistical uncertainty,the average values of the mechanical parameters are independent on the section's orientation. The hydration state of the skeletons did not affect the mechanical properties. The measured values, EIT in the 76-77 GPa range, and H(IT) in the 4.9–5.1 GPa range, are close to the ones expected for polycrystalline pure aragonite. Notably, a small difference in H(IT) is observed between the species. Different from corals, single-crystal aragonite and the nacreous layer of the seashell Atrina rigida exhibit clearly orientation-dependent mechanical properties. The homogeneous and isotropic mechanical behaviour of the coral skeletons at the microscale is correlated with the microstructure,observed by electron microscopy and atomic force microscopy, and with the X-ray diffraction patterns of the longitudinal and transverse sections.

Published
2015
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