Your search keyword '"Girasole M"' showing total 148 results

101. A Rapid Unraveling of the Activity and Antibiotic Susceptibility of Mycobacteria

Author

Mustazzolu, A., Venturelli, L., Dinarelli, S., Brown, K., Floto, R. A., Dietler, G., Fattorini, L., Kasas, S., Girasole, M., and Longo, G.

Abstract

The development of antibiotic-resistant bacteria is a worldwide health-related emergency that calls for new tools to study the bacterial metabolism and to obtain fast diagnoses. Indeed, the conventional analysis time scale is too long and affects our ability to fight infections.

Published

2018

102. Fe‐heme structure and dynamics in Thr72 → Ile mutant Scapharca inaequivalvishemoglobin by X‐ray absorption spectroscopy

Author

Della Longa, S., Gambacurta, A., Ascone, I., Bertollini, A., Girasole, M., Congiu Castellano, A., and Ascoli, F.

Published

1999

103. AFM and SNOM characterization of ordinary chondrites: A contribution to solving the problem of asteroid reddening

Author

Pierfrancesco Moretti, Marco Girasole, G. Pompeo, Giovanni Longo, Ernesto Palomba, Antonio Cricenti, Fabrizia Somma, Adriana Maras, Pompeo, G, Longo, G, Girasole, M, Moretti, P, Palomba, E, Maras, A, Somma, Fabrizia, and Cricenti, A.

Subjects

Chemistry, Mineralogy, Condensed Matter Physics, Space weathering, Spectral line, Electronic, Optical and Magnetic Materials, Characterization (materials science), Wavelength, Meteorite, Chemical physics, Chondrite, Asteroid, atomic force microscopy, near-field optical microscopy, surfaces and interfaces, Near-field scanning optical microscope

Abstract

Space weathering (SW) is an ensemble of processes that act on a body exposed to the space environment. Typically, the exposure to SW results in the accumulation, at the surface, of nanoparticles, that are thought to be produced through a vaporization and subsequent cooling of the metallo-silicaceous components exposed to the space environment. The presence of such nanoparticles is responsible for the so-called reddening of the asteroids' reflectance spectra (i.e., the increase in Vis-NIR reflectance with increase in wavelength) observed by remote-sensing measurements. To investigate the mechanism of formation of these nanoparticles, we have employed atomic force microscopy (AFM) and scanning near-field optical microscopy (SNOM) to morphologically and optically characterize ordinary chondrites (OC), the most abundant class of meteorites collected on Earth and whose parent bodies are the S-type asteroids. The AFM study reveals the occurrence of a diffuse nanophase (martensite) in the meteorite's metal inclusions. Since the same areas show a reddening of the reflectivity spectra, this suggests that such spectral modification is based on a shock-induced phase transformation of the metal components of the extraterrestrial body. To gain more insight into this nanophase and on its role in the SW of the asteroids, an optical characterization by SNOM has been performed on OCs. In this work we exploited the peculiarity of this technique to search for a correlation between the topography on the nanoscale and the spectral characteristics, at different wavelengths in the red-NIR range, of the observed nanophase. Indeed, a high-resolution mapping of the optical properties of the meteorite provides an interesting method to discriminate between martensite-based and Fe-silicaceous nanoparticles. (C) 2010 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim

Published

2010

104. VERIFICACION MEDIANTE LA AFM DE LA INFLUENCIA DEL CAMPO MAGNETICO EN LA CINETICA DE LA CRISTALIZACION DE SOLUCIONES AZUCARADAS.

Author

Kindelán, G. Ribeaux, Muzio, O. Ares, Rodríguez, F. Falcón, and Girasole, M.

Subjects

*CRYSTALLIZATION, *MAGNETISM -- Experiments, *SUCROSE, *DEXTROSE, *SURFACE analysis, *SURFACE chemistry, *PHYSICAL & theoretical chemistry

Abstract

Se presenta un estudio de la influencia del campo magnético en la nucleación de soluciones de dextrosa monohidratada y en la cristalización de soluciones de sacarosa. Para evaluar los efectos se usó la Microscopía de Fuerza Atómica (MFA). Se observó una diferencia en la rugosidad de la superficie cristalizada con cristales más porosos particularmente en regiones laterales para el caso sometido al campo magnético. En el segundo experimento el campo magnético retardó el fenómeno de nucleación.

Published

2006

105. Tuning stiffness of hyaluronan-cholesterol nanogels by mussel-inspired dopamine-Fe 3+ coordination: Preparation and properties evaluation.

Author

Wang J, Brugnoli B, Foglietta F, Andreana I, Longo G, Dinarelli S, Girasole M, Serpe L, Arpicco S, Francolini I, Di Meo C, and Matricardi P

Abstract

In the evolving field of nanomedicine, tailoring the mechanical properties of nanogels to fine-tune their biological performance is a compelling avenue of research. This work investigates an innovative method for modulating the stiffness of hyaluronan-cholesterol (HACH) nanogels, an area that remains challenging. By grafting dopamine (DOPA) onto the HA backbone, characterized through UV, 1 H NMR, and FT-IR analyses, we synthesized a novel polymer that spontaneously forms nanogels in aqueous environments. These HACH-DOPA nanogels are characterized by their small size (~170 nm), negative charge (around -32 mV), high stability, efficient drug encapsulation, and potent antioxidant activities (measured by ABTS test). Leveraging mussel-inspired metal coordination chemistry, the DOPA moieties enable stiffness modulation of the nanogels through catechol-Fe 3+ interactions. This modification leads to increased crosslinking and, consequently, nanogels with a significantly increased stiffness, as measured by atomic force microscopy (AFM), with the formation of the HACH-DOPA@Fe 3+ complex being pH-dependent and reversible. The cytocompatibility was evaluated via WST-1 cell proliferation assays on HUVEC and HDF cell lines, showing no evident cytotoxicity. Furthermore, the modified nanogels demonstrated enhanced cellular uptake, suggesting their substantial potential for intracellular drug delivery applications, a hypothesis supported by confocal microscopy assays. This work not only provides valuable insight into modulating nanogel stiffness but also advances new nanosystems for promising biomedical applications., Competing Interests: Declaration of competing interest The authors have no conflicts of interest to declare., (Copyright © 2024 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2024

106. Correlating nanoscale motion and ATP production in healthy and favism erythrocytes: a real-time nanomotion sensor study.

Author

Girasole M, Dinarelli S, and Longo G

Abstract

Introduction: Red blood cells (RBCs) are among the simplest, yet physiologically relevant biological specimens, due to their peculiarities, such as their lack of nucleus and simplified metabolism. Indeed, erythrocytes can be seen as biochemical machines, capable of performing a limited number of metabolic pathways. Along the aging path, the cells' characteristics change as they accumulate oxidative and non-oxidative damages, and their structural and functional properties degrade., Methods: In this work, we have studied RBCs and the activation of their ATP-producing metabolism using a real-time nanomotion sensor. This device allowed time-resolved analyses of the activation of this biochemical pathway, measuring the characteristics and the timing of the response at different points of their aging and the differences observed in favism erythrocytes in terms of the cellular reactivity and resilience to aging. Favism is a genetic defect of erythrocytes, which affects their ability to respond to oxidative stresses but that also determines differences in the metabolic and structural characteristic of the cells., Results: Our work shows that RBCs from favism patients exhibit a different response to the forced activation of the ATP synthesis compared to healthy cells. In particular, the favism cells, compared to healthy erythrocytes, show a greater resilience to the aging-related insults which was in good accord with the collected biochemical data on ATP consumption and reload., Conclusion: This surprisingly higher endurance against cell aging can be addressed to a special mechanism of metabolic regulation that permits lower energy consumption in environmental stress conditions., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Girasole, Dinarelli and Longo.)

Published

2023

107. Surprising Structural and Functional Properties of Favism Erythrocytes Are Linked to Special Metabolic Regulation: A Cell Aging Study.

Author

Dinarelli S, Longo G, Germanova-Taneva S, Todinova S, Krumova S, and Girasole M

Subjects

Humans, Erythrocytes pathology, Cellular Senescence, Favism genetics, Anemia, Hemolytic, Vicia faba, Glucosephosphate Dehydrogenase Deficiency genetics

Abstract

Favism uniquely arises from a genetic defect of the Glucose-6 Phosphate Dehydrogenase (G6PD) enzyme and results in a severe reduction of erythrocytes' (RBCs) reducing power that impairs the cells' ability to respond to oxidative stresses. After exposure to fava beans or a few other drugs, the patients experience acute hemolytic anemia due to RBCs' lysis both intra and extra-vascularly. In the present paper, we compared selected biochemical, biophysical, and ultra-morphological properties of normal RBCs and cells from favism patients measured along cellular aging. Along the aging path, the cells' characteristics change, and their structural and functional properties degrade for both samples, but with different patterns and effectors that have been characterized in biophysical and biochemical terms. In particular, the analysis revealed distinct metabolic regulation in G6DP-deficient cells that determines important peculiarities in the cell properties during aging. Remarkably, the initial higher fragility and occurrence of structural/morphological alterations of favism cells develop, with longer aging times, into a stronger resistance to external stresses and higher general resilience. This surprisingly higher endurance against cell aging has been related to a special mechanism of metabolic regulation that permits lower energy consumption in environmental stress conditions. Our results provided a direct and coherent link between the RBCs' metabolic regulation and the cell properties that would not have been possible to establish without an investigation performed during aging. The consequences of this new knowledge, in particular, can be discussed in a more general context, such as understanding the role of the present findings in determining the characteristics of the favism pathology as a whole.

Published

2022

108. Mechano-Transduction Boosts the Aging Effects in Human Erythrocytes Submitted to Mechanical Stimulation.

Author

Dinarelli S, Longo G, Francioso A, Mosca L, and Girasole M

Subjects

Humans, Cellular Senescence, Erythrocytes physiology

Abstract

Erythrocytes' aging and mechano-transduction are fundamental cellular pathways that determine the red blood cells' (RBCs) behavior and function. The aging pattern can be influenced, in morphological, biochemical, and metabolic terms by the environmental conditions. In this paper, we studied the effect of a moderate mechanical stimulation applied through external shaking during the RBCs aging and revealed a strong acceleration of the aging pattern induced by such stimulation. Moreover, we evaluated the behavior of the main cellular effectors and resources in the presence of drugs (diamide) or of specific inhibitors of the mechano-transduction (probenecid, carbenoxolone, and glibenclamide). This approach provided the first evidence of a direct cross-correlation between aging and mechano-transduction and permitted an evaluation of the overall metabolic regulation and of the insurgence of specific morphological features, such as micro-vesicles and roughness alterations. Overall, for the first time the present data provided a schematic to understand the integration of distinct complex patterns in a comprehensive view of the cell and of its interactions with the environment. Mechano-transduction produces structural effects that are correlated with the stimulation and the strength of the environmental stimulation is paramount to effectively activate and trigger the biological cascades initiated by the mechano-sensing.

Published

2022

109. A perspective view on the nanomotion detection of living organisms and its features.

Author

Venturelli L, Kohler AC, Stupar P, Villalba MI, Kalauzi A, Radotic K, Bertacchi M, Dinarelli S, Girasole M, Pešić M, Banković J, Vela ME, Yantorno O, Willaert R, Dietler G, Longo G, and Kasas S

Subjects

Bacteria isolation & purification, Bacterial Infections genetics, Drug Resistance, Microbial genetics, Humans, Microscopy, Atomic Force trends, Motion, Bacteria ultrastructure, Bacterial Infections diagnosis, Nanotechnology trends

Abstract

The insurgence of newly arising, rapidly developing health threats, such as drug-resistant bacteria and cancers, is one of the most urgent public-health issues of modern times. This menace calls for the development of sensitive and reliable diagnostic tools to monitor the response of single cells to chemical or pharmaceutical stimuli. Recently, it has been demonstrated that all living organisms oscillate at a nanometric scale and that these oscillations stop as soon as the organisms die. These nanometric scale oscillations can be detected by depositing living cells onto a micro-fabricated cantilever and by monitoring its displacements with an atomic force microscope-based electronics. Such devices, named nanomotion sensors, have been employed to determine the resistance profiles of life-threatening bacteria within minutes, to evaluate, among others, the effect of chemicals on yeast, neurons, and cancer cells. The data obtained so far demonstrate the advantages of nanomotion sensing devices in rapidly characterizing microorganism susceptibility to pharmaceutical agents. Here, we review the key aspects of this technique, presenting its major applications. and detailing its working protocols., (© 2020 John Wiley & Sons Ltd.)

Published

2020

110. A new tool to determine the cellular metabolic landscape: nanotechnology to the study of Friedreich's ataxia.

Author

Vannocci T, Dinarelli S, Girasole M, Pastore A, and Longo G

Subjects

Friedreich Ataxia genetics, Friedreich Ataxia metabolism, Gene Expression Regulation genetics, HEK293 Cells, Humans, Iron-Binding Proteins metabolism, Nanotechnology trends, Oxidative Stress genetics, Frataxin, Biosensing Techniques, Friedreich Ataxia diagnosis, Iron-Binding Proteins genetics, Motion

Abstract

Understanding the cell response to oxidative stress in disease is an important but difficult task. Here, we demonstrate the feasibility of using a nanomotion sensor to study the cellular metabolic landscape. This nanosensor permits the non-invasive real-time detection at the single-cell level and offers high sensitivity and time resolution. We optimised the technique to study the effects of frataxin overexpression in a cellular model of Friedreich's ataxia, a neurodegenerative disease caused by partial silencing of the FXN gene. Previous studies had demonstrated that FXN overexpression are as toxic as silencing, thus indicating the importance of a tight regulation of the frataxin levels. We probed the effects of frataxin overexpression in the presence of oxidative stress insults and measured the metabolic response by the nanosensor. We show that the nanosensor provides new detailed information on the metabolic state of the cell as a function of time, that agrees with and complements data obtained by more traditional techniques. We propose that the nanosensor can be used in the future as a new and powerful tool to study directly how drugs modulate the effects of oxidative stress on Friedreich's ataxia patients and, more in general, on other neurodegenerative processes.

Published

2019

111. Amyloid β peptide affects erythrocyte morphology: Role of intracellular signaling pathways.

Author

Dinarelli S, Girasole M, and Misiti F

Subjects

Humans, Signal Transduction, Amyloid beta-Peptides metabolism, Erythrocyte Count methods, Microscopy, Atomic Force methods, Nitric Oxide metabolism

Abstract

Background: Circulating red blood cells (RBCs) undergo aging, a fundamental physiological phenomenon that regulates their turnover., Objective: Understanding the role of Aβ in the cross talk between cell signalling pathways and modulation of the cell structural and biomechanical properties occurring in RBCs during aging., Methods: The morphological pattern has been monitored using Atomic Force Microscopy (AFM) imaging and measuring the RBCs' plasma membrane roughness employed as a morphological parameter capable to provide information on the structure and integrity of the membrane-skeleton., Results: We show that treatment with Aβ accelerates the occurrence of morphological and biochemical aging markers in human RBC and influences the cell metabolism. Biochemical data demonstrate that contemporaneously to morphological alterations, Aβ triggers: (i) metabolic alterations and (ii) a complex signaling pathway involving caspase 3, protein kinase C and nitric oxide derived metabolites., Conclusions: our study provides a comprehensive picture in which Aβ treatment of RBC induces changes in specific cell signalling events and/or metabolic pathways, in turns affecting the membrane-cytoskeleton interaction and the membrane integrity.

Published

2019

112. Morphological changes induced in erythrocyte by amyloid beta peptide and glucose depletion: A combined atomic force microscopy and biochemical study.

Author

Carelli-Alinovi C, Dinarelli S, Sampaolese B, Misiti F, and Girasole M

Subjects

Adenosine Triphosphate metabolism, Alzheimer Disease blood, Cell Membrane metabolism, Cytoskeleton metabolism, Erythrocyte Membrane metabolism, Humans, Microscopy, Atomic Force, Nitric Oxide metabolism, Protein Kinase C metabolism, Signal Transduction, Surface Properties, Amyloid beta-Protein Precursor metabolism, Caspase 3 metabolism, Erythrocytes cytology, Glucose metabolism

Abstract

Circulating red blood cells (RBCs) undergo aging, a fundamental physiological phenomenon that regulates their turnover. We show that treatment with beta amyloid peptide 1-42 (Aβ) accelerates the occurrence of morphological and biochemical aging markers in human RBCs and influences the cell metabolism leading to intracellular ATP depletion. The morphological pattern has been monitored using Atomic Force Microscopy (AFM) imaging and measuring the RBCs' plasma membrane roughness employed as a morphological parameter capable to provide information on the structure and integrity of the membrane-skeleton. Results evidence that Aβ boosts the development of crenatures and proto-spicules simultaneously to acceleration in the weakening of the cell-cytoskeleton contacts and to the induction of peculiar nanoscale features on the cell membrane. Incubation in the presence of glucose can remove all but the latter Aβ-induced effects. Biochemical data demonstrate that contemporaneously to morphological and structural alterations, Aβ and glucose depletion trigger a complex signaling pathway involving caspase 3, protein kinase C (PKC) and nitric oxide derived metabolites. As a whole, the collected data revealed that, the damaging path induced by Aβ in RBC provide a sequence of morphological and functional intermediates following one another along RBC life span, including: (i) an acceleration in the development of shape alteration typically observed along the RBC's aging; (ii) the development of characteristic membrane features on the plasma membrane and (iii) triggering a complex signaling pathway involving caspase 3, PKC and nitric oxide derived metabolites., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2019

113. Identification of Oxidative Stress in Red Blood Cells with Nanoscale Chemical Resolution by Infrared Nanospectroscopy.

Author

Ruggeri FS, Marcott C, Dinarelli S, Longo G, Girasole M, Dietler G, and Knowles TPJ

Subjects

Cell Shape, Erythrocyte Count, Erythrocytes chemistry, Humans, Lipid Peroxidation, Membrane Lipids chemistry, Nanotechnology, Erythrocytes cytology, Microscopy, Atomic Force methods, Oxidative Stress, Spectrophotometry, Infrared methods

Abstract

During their lifespan, Red blood cells (RBC), due to their inability to self-replicate, undergo an ageing degradation phenomenon. This pathway, both in vitro and in vivo, consists of a series of chemical and morphological modifications, which include deviation from the biconcave cellular shape, oxidative stress, membrane peroxidation, lipid content decrease and uncoupling of the membrane-skeleton from the lipid bilayer. Here, we use the capabilities of atomic force microscopy based infrared nanospectroscopy (AFM-IR) to study and correlate, with nanoscale resolution, the morphological and chemical modifications that occur during the natural degradation of RBCs at the subcellular level. By using the tip of an AFM to detect the photothermal expansion of RBCs, it is possible to obtain nearly two orders of magnitude higher spatial resolution IR spectra, and absorbance images than can be obtained on diffraction-limited commercial Fourier-transform Infrared (FT-IR) microscopes. Using this approach, we demonstrate that we can identify localized sites of oxidative stress and membrane peroxidation on individual RBC, before the occurrence of neat morphological changes in the cellular shape.

Published

2018

114. FC_analysis: a tool for investigating atomic force microscopy maps of force curves.

Author

Dinarelli S, Girasole M, and Longo G

Subjects

Humans, Microscopy, Atomic Force methods, Microscopy, Atomic Force instrumentation

Abstract

Background: The collection and analysis of Atomic Force Microscopy force curves is a well-established procedure to obtain high-resolution information of non-topographic data from any kind of sample, including biological specimens. In particular, these analyses are commonly employed to study elasticity, stiffness or adhesion properties of the samples. Furthermore, the collection of several force curves over an extended area of the specimens allows reconstructing maps, called force volume maps, of the spatial distribution of the mechanical properties. Coupling these maps with the conventional high-resolution topographic reconstruction of the sample's surface, provides a deeper insight on the sample composition from the structural and nanomechanical point of view., Results: In this paper we present the open source software package FC_analysis that automatically analyses single force curves or entire force volume maps to yield the corresponding elasticity and deformability images. The principal characteristic of the FC_analysis is a large adaptability to the various experimental setups and to different analysis methodologies. For instance, the user can provide custom values for the detector sensitivity, scanner-z sensitivity, cantilever's elastic constant and map's acquisition modality and can choose between different analysis methodologies. Furthermore, the software allows the optimization of the fitting parameters and gives direct control on each step of the analysis procedure. Notably, to overcome a limitation common to many other analysis programs, FC_analysis can be applied to a rectangular portion of the image, allowing the analysis of inhomogeneous samples. Finally, the software allows reconstructing a Young's modulus map at different penetration depths, enabling the use of modern investigation tools such as the force tomography., Conclusions: The FC_analysis software aims to become a useful tool for the analysis of force curves maps collected using custom or commercial Atomic Force Microscopes, and is especially useful in those cases for which the producer doesn't release a dedicated software.

Published

2018

115. Modelling the pathogenesis of Myotonic Dystrophy type 1 cardiac phenotype through human iPSC-derived cardiomyocytes.

Author

Spitalieri P, Talarico RV, Caioli S, Murdocca M, Serafino A, Girasole M, Dinarelli S, Longo G, Pucci S, Botta A, Novelli G, Zona C, Mango R, and Sangiuolo F

Subjects

Adult, Arrhythmias, Cardiac pathology, Arrhythmias, Cardiac physiopathology, Biomechanical Phenomena, Cell Differentiation, Cell Nucleus Shape, Cellular Reprogramming, Electrophysiological Phenomena, Female, Heart Ventricles pathology, Heart Ventricles physiopathology, Humans, Induced Pluripotent Stem Cells metabolism, Lamins metabolism, Male, Middle Aged, Myocardial Contraction, Myocytes, Cardiac metabolism, Myotonic Dystrophy physiopathology, Phenotype, Induced Pluripotent Stem Cells pathology, Models, Biological, Myocardium pathology, Myocytes, Cardiac pathology, Myotonic Dystrophy pathology

Abstract

Myotonic Dystrophy type 1 (DM1) is a multisystemic disease, autosomal dominant, caused by a CTG repeat expansion in DMPK gene. We assessed the appropriateness of patient-specific induced pluripotent stem cell-derived cardiomyocytes (CMs) as a model to recapitulate some aspects of the pathogenetic mechanism involving cardiac manifestations in DM1 patients. Once obtained in vitro, CMs have been characterized for their morphology and their functionality. CMs DM1 show intranuclear foci and transcript markers abnormally spliced respect to WT ones, as well as several irregularities in nuclear morphology, probably caused by an unbalanced lamin A/C ratio. Electrophysiological characterization evidences an abnormal profile only in CMs DM1 such that the administration of antiarrythmic drugs to these cells highlights even more the functional defect linked to the disease. Finally, Atomic Force Measurements reveal differences in the biomechanical behaviour of CMs DM1, in terms of frequencies and synchronicity of the beats. Altogether the complex phenotype described in this work, strongly reproduces some aspects of the human DM1 cardiac phenotype. Therefore, the present study provides an in vitro model suggesting novel insights into the mechanisms leading to the development of arrhythmogenesis and dilatative cardiomyopathy to consider when approaching to DM1 patients, especially for the risk assessment of sudden cardiac death (SCD). These data could be also useful in identifying novel biomarkers effective in clinical settings and patient-tailored therapies., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

116. Methods for Atomic Force Microscopy of Biological and Living Specimens.

Author

Dinarelli S, Girasole M, and Longo G

Subjects

Erythrocytes cytology, Humans, Imaging, Three-Dimensional, Osteoblasts cytology, Time Factors, Erythrocytes ultrastructure, Microscopy, Atomic Force methods, Osteoblasts ultrastructure

Abstract

Two main precautions must be taken into account to obtain high-resolution morphological and nanomechanical characterization of biological specimens with an atomic force microscope: the tip-sample interaction and the sample-substrate adhesion. In this chapter we discuss the necessary steps for a correct preparation of three types of biological samples: erythrocytes, bacteria, and osteoblasts. The main goal is to deliver reproducible protocols to produce good cellular adhesion and minimizing the morphological alterations of the specimens.

Published

2018

117. Behind Resveratrol Stabilization by Carboxymethylated (1,3/1,6)-β-d-Glucan: Does the Polyphenol Play a Role in Polymer Structural Organization?

Author

Francioso A, Dinarelli S, Girasole M, Cervoni L, D'Erme M, Mura F, Boffi A, Montanari E, and Mosca L

Abstract

Resveratrol stability in solution can be improved by combining the polyphenol with carboxymethylated (1,3/1,6)-β-d-glucan (CM-glucan), a carbohydrate polymer widely used in the food and pharmaceutical industries. The present work was undertaken to elucidate the mechanism behind this stabilizing effect. The supramolecular structural, physico-chemical and morphological features of the CM-glucan/resveratrol complex have been studied under different physical and chemical stimuli by means of spectroscopic techniques, microscopy and physical methods such as UV-Visible spectroscopy (UV-Vis), spectrofluorimetry, Circular Dichroism (CD), Infrared spectroscopy (FT-IR), Differential Scanning Calorimetry (DSC), Atomic Force Microscopy (AFM) and Scanning Electron Microscopy (SEM). Our experimental data indicate that CM-glucan conformational organized architecture in aqueous solution is enhanced in the presence of resveratrol, suggesting that the polyphenol is able to confer a high degree of order to the polymer by a probable cooperative structural organization that results in a long term stabilization for the polyphenol., Competing Interests: Antonio Francioso and Luciana Mosca served as consultants to NOOS srl. Luciana Mosca is coinventor of the relevant patent “Association of resveratrol and carboxymethyl glucan”, EP2674155A1.

Published

2017

118. Detection of Sulfites in Fresh Meat Preparation Commercialised at Retail in Lazio Region.

Author

Carrabs G, Smaldone G, Carosielli L, Girasole M, Iammarino M, and Chiaravalle E

Abstract

In Europe sulfur dioxide (SO 2 ) and sulfites in foods and beverages at concentrations of more than 10 mg kg -1 or 10 mg L -1 expressed as SO 2 equivalents are subject to mandatory labelling. In fresh meats the addition of sulfites is not admitted because of their unlawful use to give the product a more attractive appearance. Aim of the study was to detect sulfites in meat product sampled in 19 commercial shops of Lazio Region. In n=12 samples, sulfites were present at different concentrations and no indication for them was reported on the label. Sulfites concentrations ranged from 13.3 to 1278.9 mg kg -1 . The results of the present investigation underline the need for better controls by operators, not only under the food information but also in the consumers' health perspective.

Published

2017

119. Preliminary Study on Physicochemical and Biochemical Stress Markers at Poultry Slaughterhouse.

Author

Santonicola S, Peruzy MF, Girasole M, Murru N, Cortesi ML, and Mercogliano R

Abstract

Pre-slaughter stress can result in variations in the glycogen storage and metabolic changes of muscle, responsible for quality poultry meat. Aim of this study was to investigate, as pre-slaughter stress markers and quality meat, physicochemical (pH), biochemical (muscle glycogen content), and chemical (super oxides free radicals) parameters. The carcass quality, as incidence of individual carcass defects, was also evaluated. Twenty broilers were processed with two different electrical stunning: high (250 Hz; 640 mA; 60V) (Lot C or control) and low (150 Hz; 360 mA; 60 V) (Lot A) frequency and intensity, using sinusoidal alternating current. As preliminary results, the use of low frequency and intensity induced faster pH decline post mortem and adequate acidification of pH at 3 hours (6.49 Lot C; 6.37 Lot A), better muscle glycogen reserve (0.770 μL/50 mL Lot C; 1.497 μL/50mL Lot A), and lightly more rapid muscle oxidation (IDF: 0.109 Lot C; 0.122 Lot A), (FOX: 0.131 MeqO 2 /kg Lot C; 0.140 MeqO 2 /kg Lot A). The incidence of individual carcass defects sufficient to cause downgrading or rejection, both in Lot C and Lot A, was generally low. In a multidisciplinary approach, to assess animal welfare and quality poultry meat, additional and feasible parameters should be implemented. Monitoring of pH, muscle glycogen reserve and superoxide free radical production measurements might be markers easier to use, routinely, in practice at abattoir. Further studies are needed to evaluate the usefulness of these parameters.

Published

2017

120. MicroRNA-155 in serum-derived extracellular vesicles as a potential biomarker for hematologic malignancies - a short report.

Author

Caivano A, La Rocca F, Simeon V, Girasole M, Dinarelli S, Laurenzana I, De Stradis A, De Luca L, Trino S, Traficante A, D'Arena G, Mansueto G, Villani O, Pietrantuono G, Laurenti L, Del Vecchio L, and Musto P

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Area Under Curve, Female, Humans, Male, Microscopy, Atomic Force, Microscopy, Electron, Transmission, Middle Aged, ROC Curve, Real-Time Polymerase Chain Reaction, Sensitivity and Specificity, Young Adult, Biomarkers, Tumor blood, Extracellular Vesicles genetics, Hematologic Neoplasms blood, Hematologic Neoplasms genetics, MicroRNAs blood

Abstract

Purpose: The use of extracellular vesicles (EVs) from body fluids as "liquid biopsies" is emerging as a promising approach for the diagnosis, prognosis and therapeutic monitoring of cancer patients. MicroRNA-155 (miR155), a non-coding transcript of the B-cell integration cluster (BIC) gene, has been reported to play a critical role in the pathogenesis of several types of hematologic malignancies (HMs) in which high miR155 levels have been found. At yet, however, the EV miR155 level and its putative clinical relevance in sera of HM patients have not been reported., Methods: EVs from sera of representative patients with eight different HMs and healthy subjects (controls) were isolated using differential centrifugation. The identity and quality of the EVs were verified by atomic force and transmission electron microscopy. The EV miR155 levels were measured by quantitative RT-PCR. The sensitivity, specificity and area under the curve (AUC) of differences in EV miR155 levels were determined using ROC curve analyses., Results: We found that the EV miR155 levels were significantly higher in chronic lymphocytic leukemia (CLL), acute myeloid leukemia (AML) and Waldenström's macroglobulinemia (WM) cases compared to controls. Conversely, we found that the EV miR155 levels were significantly lower in myelodysplastic syndrome (MDS) and multiple myeloma (MM) cases. No differences were found in follicular lymphoma (FL), diffuse large B-cell lymphoma (DLBCL) or Hodgkin's Lymphoma (HL) cases compared to controls. EV miR155 ROC curve analyses revealed significantly different patterns in CLL and AML cases compared to controls, and in AML cases compared to MDS cases (p = 0.004, p = 0.01 and p = 0.04, respectively). In addition, we found that high EV miR155 levels correlated with high white blood cell counts in AML patients., Conclusion: Our data indicate that EV miR155 may serve as an attractive new, non-invasive diagnostic biomarker in human hematologic malignancies.

Published

2017

121. Soybean and Lactose in Meat Products and Preparations Sampled at Retail.

Author

Piccolo F, Vollano L, Base G, Girasole M, Smaldone G, and Cortesi ML

Abstract

Food allergies and intolerances have increased during the last decades and regulatory authorities have taken different measures to prevent and manage consumers' adverse reactions, including correct labelling of foods. Aim of this work was to search for soybean and lactose in meat products and meat preparations taken from retail in some provinces of Campania Region (Southern Italy) and to evaluate the food labels compliance with Regulation (EU) n.1169/2011. Soybean and lactose were searched using commercial kits in n. 58 samples of meat products produced in or distributed by 19 establishments, and in n. 55 samples of meat products and n. 8 of meat preparations produced in 21 plants. All samples were selected on the basis of the absence of any information on the labels about the presence of the two searched allergens, with the exception of n. 5 samples tested for lactose. Traces of soybean were detected in 50 out of the 58 examined samples, at concentrations up to 0.93 mg kg -1 . Only two samples contained levels above the detection limit of 0.31 mg kg -1 . Lactose levels ranging from 0.11 to 2.95 g/100 g, i.e. above the detection limit, were found in all the tested samples (n. 63). The results of the present research underline the need for careful controls and planning by operators as part of the self-control plans, and deserve attention from the competent authorities considering not only the consumers' health but also the great attention media pay to regulations providing consumers with information on food., Competing Interests: the authors declare no potential conflict of interest.

Published

2016

122. Effect of electrical water bath stunning on physical reflexes of broilers: evaluation of stunning efficacy under field conditions.

Author

Girasole M, Marrone R, Anastasio A, Chianese A, Mercogliano R, and Cortesi ML

Subjects

Abattoirs, Animal Welfare, Animals, Reflex, Unconsciousness veterinary, Water, Chickens, Electroshock

Abstract

The effects of different amounts and frequencies of stunning sine wave alternating current were investigated under field conditions. Seven hundred and fifty broilers were stunned in an electrical water bath with an average root mean square (RMS) current of 150, 200, and 250 mA and frequencies of 200, 400, 600, 800, and 1,200 Hz. The occurrence of corneal reflex, spontaneous eye blinking, and a positive response to a painful stimulus were monitored and recorded immediately after the stunning and at 20 s post-stun. Statistical analysis showed that the electrical stunning frequency (P=0.0004), the stunning RMS current (P<0.0001) and the interaction between stunning frequency and stunning current (P<0.0001) had a significant effect on the occurrence of animals experiencing an abolition of corneal reflex at 20 s post-stun.At a current of 150 mA, the probability of a successful stun was over 90% at 200 Hz, approximately 40% at 400 Hz, and below 5% for frequencies greater than 600 Hz. So, stunning at frequencies greater than 600 Hz cannot be recommended when a RMS current of 150 mA is applied. The maximum probability of a successful stun was obtained for a current level of 200 mA at 400 Hz and for a current level of 250 mA at 400 and 600 Hz, whereas the stunning treatments at 1,200 Hz provided the lowest probability of a successful stun. Assessment of spontaneous eye blinking and responses to comb pinching confirmed the indications coming from the analysis of corneal reflex., (© 2016 Poultry Science Association Inc.)

Published

2016

123. Vascular dysfunction-associated with Alzheimer's disease.

Author

Carelli-Alinovi C, Dinarelli S, Girasole M, and Misiti F

Subjects

Animals, Humans, Oxidative Stress, Acetylcholinesterase metabolism, Alzheimer Disease complications, Amyloid beta-Peptides metabolism, Erythrocytes metabolism, Nitric Oxide metabolism

Abstract

Our attention is focused on the study of a new model based on the red blood cell (RBC) and on its interaction with amyloid beta peptide 1-42 (Aβ). RBC are highly deformable to assist blood flow in the microcirculation. For this reasons RBC abnormalities could contribute to Alzheimer's disease (AD) by obstructing oxygen delivery to brain, causing hypoxia. In our work, considering that RBC membrane contains, among blood elements, higher acetylcholinesterase (AChE) levels, we can assume that in blood occurs a mechanism similar to the one which occurs at the neuronal level leading to an increase of Aβ toxicity mediated by its binding with AChE, located on the RBC external face. Furthermore, since mechanical properties of RBC membrane are regulated by a number of molecular components of signalling and/or regulatory pathways, of these, particular interest has been addressed toward Nitric Oxide (NO) metabolism, due to its dependence to AChE.

Published

2016

124. Carbon Monoxide Residues in Vacuum-Packed Yellowfin Tuna Loins ( Thunnus Albacares ).

Author

Marrone R, Mascolo C, Palma G, Smaldone G, Girasole M, and Anastasio A

Abstract

The use of carbon monoxide (CO) in fresh fish has generated considerable debate. Carbon monoxide is used to treat fresh fish in order to retain its fresh red appearance for a longer period. It reacts with the oxy-myoglobin to form a fairly stable cherry red carboxy-myoglobin complex that may mask spoilage, because the CO-complex can be stable beyond the microbiological shelf life of the meat. The presence of CO in tuna fish ( Thunnus Albacares ) has been investigated by means of optical spectroscopy. Formation of the CO adduct can be easily detected by the combined analysis of electronic absorption spectra in their normal and second derivative modes, monitoring the intense Soret band at 420 nm. Samples were judged as CO treated when their levels were higher than 200 ng/g. Only two positive samples out of 29 analyzed were detected. The high level of uncertainty (0.30) of the method requires the use of more specific and sensitive methods for confirmatory analysis., Competing Interests: the authors declare no potential conflict of interest.

Published

2015

125. Optimization of Stunning Electrical Parameters to Improve Animal Welfare in a Poultry Slaughterhouse.

Author

Girasole M, Chirollo C, Ceruso M, Vollano L, Chianese A, and Cortesi ML

Abstract

Animal killing for food production and the related operations are events that may induce pain, stress, fear and other forms of suffering to the animals. To face this problem and guarantee the animal welfare, the EU has adopted the Regulation (EC) N. 1099/2009 on the protection of animals at the time of killing. Electrical water bath stunning is one of the methods used in commercial slaughterhouses to protect poultry welfare. In particular, this method induces unconsciousness into the birds due to run of electrical current through the head and body. The aim of the present work was to find an optimal setting of electrical parameters to obtain an effective water bath stunning in a commercial poultry slaughterhouse. Moreover, the influence of the tested electrical parameters on meat quality was evaluated. All the experiments confirmed that high stunning frequencies induce a lower occurrence of lesions on carcasses but, on the other hand, require greater current intensities to be effective. A frequency of 750 Hz and an average current intensity of 200 mA for each bird in the water bath resulted as the best combination of electrical parameters to obtain a proper stunning without any consequence on the meat quality., Competing Interests: the authors declare no potential conflict of interest.

Published

2015

126. Induced movements of giant vesicles by millimeter wave radiation.

Author

Albini M, Dinarelli S, Pennella F, Romeo S, Zampetti E, Girasole M, Morbiducci U, Massa R, and Ramundo-Orlando A

Subjects

Cell Size radiation effects, Diffusion, Water metabolism, Microwaves, Transport Vesicles metabolism, Transport Vesicles radiation effects

Abstract

Our previous study of interaction between low intensity radiation at 53.37GHz and cell-size system - such as giant vesicles - indicated that a vectorial movement of vesicles was induced. This effect among others, i.e. elongation, induced diffusion of fluorescent dye di-8-ANEPPS, and increased attractions between vesicles was attributed to the action of the field on charged and dipolar residues located at the membrane-water interface. In an attempt to improve the understanding on how millimeter wave radiation (MMW) can induce this movement we report here a real time evaluation of changes induced on the movement of giant vesicles. Direct optical observations of vesicles subjected to irradiation enabled the monitoring in real time of the response of vesicles. Changes of the direction of vesicle movement are demonstrated, which occur only during irradiation with a "switch on" of the effect. This MMW-induced effect was observed at a larger extent on giant vesicles prepared with negatively charged phospholipids. The monitoring of induced-by-irradiation temperature variation and numerical dosimetry indicate that the observed effects in vesicle movement cannot be attributed to local heating., (Copyright © 2014 Elsevier B.V. All rights reserved.)

Published

2014

127. Structure and function in native and pathological erythrocytes: a quantitative view from the nanoscale.

Author

Girasole M, Dinarelli S, and Boumis G

Subjects

Adenosine Triphosphate analysis, Aging, Chemical Phenomena, Erythrocytes chemistry, Humans, Image Processing, Computer-Assisted methods, Mechanical Phenomena, Cell Membrane physiology, Cell Membrane ultrastructure, Cytological Techniques methods, Erythrocytes physiology, Erythrocytes ultrastructure, Microscopy, Atomic Force methods, Surface Properties

Abstract

The red blood cells (RBCs) are among the most simple and less expensive cells to purify; for this reason and for their physiological relevance, they have been extensively studied with a variety of techniques. The picture that results is that these cells have several peculiarities including extreme mechanical performances, relatively simple architecture, biological relevance and predictable behavior that make them a perfect laboratory of testing for novel techniques, methodologies and ideas. These include the re-evaluation of old concepts, such as the relationship between structure and function (which is one of the guideline of this report) but considered at the cellular level. The studies reported on this paper, indeed, exploit the full potential of an high resolution quantitative microscopy such as the atomic force microscopy (AFM) to investigate different aspect of the erythrocytes' life, death and interaction with the environment. Indeed, the erythrocytes have a special relationship with the environment that is able to deeply influence their morphology as consequence of alteration of their biochemical or biophysical status. In this context the conditions under which the erythrocytes can be considered as biochemically programmable systems have been investigated by analyzing different environmentally induced alteration of the cell's morphology and comparing the results with naturally occurring pathological morphologies. This class of studies takes great advantage by the additional consideration of the nanomechanical properties of the cells. These latter are particularly important for the cell functionality and are shown to be of practical usefulness to discriminate and partition environmental effects charging different cellular structure (e.g. membrane or membrane-skeleton). Moreover, the development of novel morphological parameter can be important to push the level of investigation on the RBCs' status towards the molecular level. In particular, we describe the introduction and use of the plasma membrane roughness as a morphometric parameter of simple derivation from the AFM images and that results sensitive to the structural integrity of the cells' membrane-skeleton. This offer a remarkable opportunity to investigate the relationship between structure and function in normal and pathological cells by using a morphometric parameter that probes the cell surface at the nanoscale level. At last, a complex but physio-pathologically important phenomenon such as the erythrocytes aging was considered. To properly analyze the many variation that the cells experience during the whole aging path we used all the parameters that the AFM can provides: quantitative imaging, analysis of the membrane roughness and local measure of the nanomechanical properties analyzed together with biochemical parameter such as the ATP content. The picture that emerged is that the aging path is triggered by the ATP intracellular concentration that influence the membrane-skeleton structure and the support exerted on the plasma membrane. The consequences of the membrane-skeleton involvement can be monitored by AFM and showed the occurrence of peculiar morphologies and morphological defects that appear in the very place where the membrane-skeleton contact with the membrane became loose. As a whole, the collected data enable to describe the entire phenomenon as a sequence of morphological intermediates following one another along the aging path., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published

2012

128. The how, when, and why of the aging signals appearing on the human erythrocyte membrane: an atomic force microscopy study of surface roughness.

Author

Girasole M, Pompeo G, Cricenti A, Longo G, Boumis G, Bellelli A, and Amiconi S

Subjects

Cells, Cultured, Erythrocyte Membrane ultrastructure, Humans, Surface Properties, Cellular Senescence physiology, Erythrocyte Membrane metabolism, Microscopy, Atomic Force methods

Abstract

We recently developed an atomic force microscopy-based protocol to use the roughness of the plasma membrane of erythrocytes (red blood cells, RBCs) as a morphological parameter, independently from the cell shape, to investigate the membrane-skeleton integrity in healthy and pathological cells. Here we apply the method to investigate a complex physiological phenomenon, the RBCs aging, that plays a major role in the regulation of the RBCs' turnover. The aging, monitored morphologically and biochemically, has been accelerated and modulated by preventing oxidative stresses as well as the effects of proteases and divalent cations, and by artificially consuming the intracellular adenosine triphosphate. The collected data evidence that the progression of aging causes a drastic decrease of the measured roughness that is diagnostic of a progressive, adenosine triphosphate-dependent alteration of the membrane-skeleton properties. Finally, the degree of reversibility of such effects has been investigated as a function of aging time, enabling the detection of irreversible transformation in the RBCs' structure and metabolism., (Copyright © 2010 Elsevier Inc. All rights reserved.)

Published

2010

129. Erythrocyte death in vitro induced by starvation in the absence of Ca(2+).

Author

Pompeo G, Girasole M, Cricenti A, Boumis G, Bellelli A, and Amiconi S

Subjects

Cell Death, Cold Temperature, Erythrocyte Membrane pathology, Humans, Preservation, Biological, Time Factors, 2,3-Diphosphoglycerate metabolism, Adenosine Triphosphate metabolism, Calcium, Energy Metabolism, Erythrocyte Membrane metabolism

Abstract

Human erythrocytes (RBCs), stored at 4 degrees C under nominal absence of external energy sources and calcium ions, show a gradual decrease in membrane roughness (R(rms)) at the end of which the appearance of morphological phenomena (spicules, vesicles and spherocytes) is observed on the cell membrane, phenomena that can mainly be ascribed to the ATP-dependent disconnection of the cortical cytoskeleton from the lipid bilayer. After depletion of the intracellular energy sources obtained under the extreme conditions chosen, treatment with a minimal rejuvenation solution makes the following remarks possible: (i) RBCs are able to regenerate adenosine triphosphate (ATP) and 2,3-bisphosphoglycerate only up to 4 days of storage at 4 degrees C, whereas from the eighth day energy stocks cannot be replenished because of a disorder in the transmembrane mechanisms of transport; (ii) the RBCs' roughness may be restored to the initial value (i.e. that observed in fresh RBCs) only in samples stored up to 4-5 days, whereas after the eighth day of storage the rejuvenation procedure appears to be inefficient; (iii) membrane physical properties - as measured by R(rms) - are actually controlled by the metabolic production of ATP, necessary to perform the RBCs' basic functions; (iv) once energy stores cannot be replenished, a regulated sequence of the morphological events (represented by local buckles that lead to formation of spicules and vesicles of the lipid bilayer with generation of spherocytes) is reminiscent of the RBCs' apoptotic final stages; (v) the morphological phenomenology of the final apoptotic stages is passive (i.e. determined by simple mechanical forces) and encoded in the mechanical properties of the membrane-skeleton; and (vi) necrotic aspects (e.g. disruption of cell membrane integrity, so that intracellular protein content is easily released) ensue when RBCs are almost totally (> or =90%) depleted in an irreversible way of the energetic stores.

Published

2010

130. The response of giant phospholipid vesicles to millimeter waves radiation.

Author

Ramundo-Orlando A, Longo G, Cappelli M, Girasole M, Tarricone L, Beneduci A, and Massa R

Subjects

Phospholipids chemistry, Unilamellar Liposomes chemistry, Microwaves, Phospholipids radiation effects, Unilamellar Liposomes radiation effects

Abstract

Due to the increasing interest in millimeter waves (MMW) applications in medicine and telecommunications, the investigation of their potential biological effects is of utmost importance. Here we report results of the study of interaction between low-intensity radiation at 53.37 GHz and giant vesicles. Direct optical observations of vesicles subjected to irradiation enabled the monitoring in real time of the response of vesicles. Physical changes of vesicles, i.e. elongation, induced diffusion of fluorescent dye di-8-ANEPPS, and increased attractions between vesicles are demonstrated. These effects are reversible and occur only during irradiation with a "switch on" of the effect requiring a short time. Since the average temperature change was very small the effects could not be attributed to thermal mechanisms. We assume that the interaction of MMW with lipid membrane leads to changes at the membrane-water interface, where charged and dipolar residues are located.

Published

2009

131. AFM for diagnosis of nanocrystallization of steels in hardening processes.

Author

Pompeo G, Girasole M, Longo G, Cricenti A, Bailo D, Ronci F, Maras A, Serracino M, and Moretti PF

Abstract

Introduction: The aim of this study is to investigate the nanocrystallization of steels caused by the transformation from the austenitic to the martensitic phase induced by a severe plastic deformation (SPD) treatment. In this framework, we applied an air blast shot peening treatment, which is a simple protocol widely used for industrial purposes., Methods: AISI 286 and AISI 316 specimens were peened for different times and polished using diamond pastes in order to remove corrugations higher than 1 mum. The characterization of the steel surfaces was performed by atomic force microscopy (AFM) operating in contact mode. Additional EDXD measurements were performed to confirm the phase transition., Results and Discussion: An AFM-based characterization at nanometric level of the steel surfaces is provided. When the peening exceeds a threshold time that, as expected, depends on the steel composition, a uniform nanostructuration is detected. It is well known that such rearrangement is associated to the growth of a martensitic phase. To date, AFM has been employed in this field only for few applications and to solve specific problems. On the other hand, our results demonstrate that this is a useful technique for the characterization of hardened surfaces, especially when non-destructive sample preparation treatments are required. Moreover, we show that AFM can be a useful tool also for in situ industrial diagnostics of metallic parts.

Published

2008

132. Implementation of a bimorph-based aperture tapping-SNOM with an incubator to study the evolution of cultured living cells.

Author

Longo G, Girasole M, and Cricenti A

Subjects

Animals, Cell Line, Tumor ultrastructure, Cells, Cultured ultrastructure, Endothelial Cells ultrastructure, Equipment Design, Erythrocytes ultrastructure, Fiber Optic Technology, Humans, Keratinocytes ultrastructure, Microscopy, Scanning Probe instrumentation, Neuroblastoma, Swine, Endothelial Cells physiology, Erythrocytes physiology, Keratinocytes physiology, Microscopy, Electron, Scanning instrumentation, Microscopy, Electron, Scanning methods

Abstract

We present the implementation of a tapping-mode aperture scanning near-field optical microscope (Tapping-SNOM) to a Binder CB incubator (Istituto di Struttura della Materia, Rome, Italy). The microscope operates in the intermittent contact mode using a nonbent optical fibre allowing to reduce the perturbation exerted on the sample, while the incubator maintains a constant temperature, humidity and CO(2) level. This instrument can maintain and analyse in a controlled environment different samples, both organic and nonorganic. In particular, the Tapping-SNOM can study different cell lines at nanometric resolution and in physiological buffer, following the evolution of the living cells almost indefinitely. We will present several examples of the capabilities of the tapping scanning near-field optical microscope in the study of different lines of living cells, showing corresponding topographical, optical or phase-lag images of the live samples, evidencing the excellent stability, versatility and resolution of the system.

Published

2008

133. Different membrane modifications revealed by atomic force/lateral force microscopy after doping of human pancreatic cells with Cd, Zn, or Pb.

Author

Girasole M, Cricenti A, Generosi R, Longo G, Pompeo G, Cotesta S, and Congiu-Castellano A

Subjects

Apoptosis drug effects, Cadmium Chloride metabolism, Cadmium Chloride toxicity, Cell Membrane ultrastructure, Cell Shape drug effects, Chlorides metabolism, Chlorides toxicity, Humans, Lead metabolism, Lead toxicity, Metals, Heavy metabolism, Zinc Compounds metabolism, Zinc Compounds toxicity, Cell Membrane drug effects, Insulin-Secreting Cells cytology, Insulin-Secreting Cells drug effects, Metals, Heavy toxicity, Microscopy, Atomic Force methods

Abstract

The interaction of the cytotoxic metals cadmium, zinc, and lead with pancreatic cells was studied by atomic force/lateral Force microscopy (AFM/LFM), an approach that provides both topographic (with nanometer scale lateral resolution) and chemical information on the membrane. Different morphological modifications of the overall cell shape and roughness took place as consequence of 100 muM metal-dependent treatment. Furthermore, after exposure to Cd(Cl(2)) and Zn(Cl(2)), but not Pb(Cl(2)), the LFM images revealed several areas of the cell's surface showing lateral friction contrasts that have been interpreted as marker of different alterations of the cell physiology induced by the metal loading. Thus, the coupling of LFM detection to topographic AFM characterization allows to distinguish, through a nondestructive and surface characterising approach, between different metal-induced cytotoxic effects on cells. In this framework, the role of the LFM as an important tool to discriminate between different alteration of a biological system has to be highlighted., ((c) 2007 Wiley-Liss, Inc.)

Published

2007

134. Roughness of the plasma membrane as an independent morphological parameter to study RBCs: a quantitative atomic force microscopy investigation.

Author

Girasole M, Pompeo G, Cricenti A, Congiu-Castellano A, Andreola F, Serafino A, Frazer BH, Boumis G, and Amiconi G

Subjects

Humans, Spherocytosis, Hereditary, Surface Properties, Cell Membrane ultrastructure, Erythrocytes ultrastructure, Microscopy, Atomic Force

Abstract

A novel approach to the study of RBCs based on the collection of three-dimensional high-resolution AFM images and on the measure of the surface roughness of their plasma membrane is presented. The dependence of the roughness from several parameters of the imaging was investigated and a general rule for a trustful analysis and comparison has been suggested. The roughness of RBCs is a morphology-related parameter which has been shown to be characteristic of the single cells composing a sample, but independent of the overall geometric shape (discocyte or spherocyte) of the erythrocytes, thus providing extra-information with respect to a conventional morphology study. The use of the average roughness value as a label of a whole sample was tested on different kinds of samples. Analyzed data revealed that the quantitative roughness value does not change after treatment of RBCs with various commonly used fixation and staining methods while a drastic decrease occurs when studying cells with membrane-skeletal alteration both naturally occurring or artificially induced by chemical treatments. The present method provides a quantitative and powerful tool for a novel approach to the study of erythrocytes structure through an ultrastructural morphological analysis with the potential to give information, in a non-invasive way, on the RBCs function.

Published

2007

135. An AFM investigation of oligonucleotides anchored on unoxidized crystalline silicon surfaces.

Author

Longo G, Girasole M, Pompeo G, Cricenti A, Andreano G, Cattaruzza F, Cellai L, Flamini A, Guarino C, and Prosperi T

Subjects

Materials Testing, Microscopy, Atomic Force, Oxidation-Reduction, Surface Properties, Coated Materials, Biocompatible chemistry, Crystallization methods, DNA chemistry, DNA ultrastructure, Nanostructures chemistry, Nanostructures ultrastructure, Silicon chemistry

Abstract

Carboxylic terminated monolayers have been covalently attached on phosphorous doped crystalline (100) silicon surfaces using a cathodic electro grafting technique. The functionalization concentration and efficiency have been evaluated with different techniques. In particular, topographic images, performed with an atomic force microscope, were used to optimize the protocol in order to obtain a surface whose characteristics of uniformity and reproducibility are ideal for a bio-electronic device. Phase lag images of the functionalized surfaces were also performed, and show non-topographic structures that have been interpreted as areas of different molecule self-orientation. Poly-thymine oligonucleotides have been anchored on such a surface to form a nano-biosensing device capable to react selectively with a specific target molecule, a poly-adenine oligonucleotide. AFM images of high density (approximately 3x10(12) mol/cm2) single strand and double strand covered samples show toroidal shaped structures formed by the self-assembly of the oligonucleotides on the silicon surface.

Published

2007

136. Controlled loading of oligodeoxyribonucleotide monolayers onto unoxidized crystalline silicon; fluorescence-based determination of the surface coverage and of the hybridization efficiency; parallel imaging of the process by Atomic Force Microscopy.

Author

Cattaruzza F, Cricenti A, Flamini A, Girasole M, Longo G, Prosperi T, Andreano G, Cellai L, and Chirivino E

Subjects

DNA Probes ultrastructure, Fatty Acids, Unsaturated chemistry, Fluorescence, Microscopy, Atomic Force, Oligonucleotide Probes ultrastructure, Biosensing Techniques methods, DNA Probes chemistry, Fluorescent Dyes chemistry, Nucleic Acid Hybridization methods, Oligonucleotide Probes chemistry, Silicon chemistry

Abstract

Unoxidized crystalline silicon, characterized by high purity, high homogeneity, sturdiness and an atomically flat surface, offers many advantages for the construction of electronic miniaturized biosensor arrays upon attachment of biomolecules (DNA, proteins or small organic compounds). This allows to study the incidence of molecular interactions through the simultaneous analysis, within a single experiment, of a number of samples containing small quantities of potential targets, in the presence of thousands of variables. A simple, accurate and robust methodology was established and is here presented, for the assembling of DNA sensors on the unoxidized, crystalline Si(100) surface, by loading controlled amounts of a monolayer DNA-probe through a two-step procedure. At first a monolayer of a spacer molecule, such as 10-undecynoic acid, was deposited, under optimized conditions, via controlled cathodic electrografting, then a synthetic DNA-probe was anchored to it, through amidation in aqueous solution. The surface coverage of several DNA-probes and the control of their efficiency in recognizing a complementary target-DNA upon hybridization were evaluated by fluorescence measurements. The whole process was also monitored in parallel by Atomic Force Microscopy (AFM).

Published

2006

137. AFM characterization of solid-supported lipid multilayers prepared by spin-coating.

Author

Pompeo G, Girasole M, Cricenti A, Cattaruzza F, Flamini A, Prosperi T, Generosi J, and Castellano AC

Subjects

Biophysical Phenomena, Biophysics, Fatty Acids, Monounsaturated chemistry, Lipid Bilayers chemistry, Phosphatidylcholines chemistry, Quaternary Ammonium Compounds chemistry, Silicon chemistry, Surface Properties, Lipids chemistry, Microscopy, Atomic Force methods

Abstract

Lipids are the principal components of biologically relevant structures as cellular membranes. They have been the subject of many studies due to their biological relevance and their potential applications. Different techniques, such as Langmuir-Blodgett and vesicle-fusion deposition, are available to deposit ordered lipid films on etched surfaces. Recently, a new technique of lipid film deposition has been proposed in which stacks of a small and well-controlled number of bilayers are prepared on a suitable substrate using a spin-coater. We studied the morphological properties of multi-layers made of cationic and neutral lipids (DOTAP and DOPC) and mixtures of them using dynamic mode atomic force microscopy (AFM). After adapting and optimizing, the spin-coating technique to deposit lipids on a chemically etched Silicon (1,0,0) substrate, a morphological nanometer-scale characterization of the aforementioned samples has been provided. The AFM study showed that an initial layer of ordered vesicles is formed and, afterward, depending on details of the spin-coating preparation protocol and to the dimension of the silicon substrate, vesicle fusion and structural rearrangements of the lipid layers may occur. The present data disclose the possibility to control the lipid's structures by acting on spin-coating parameters with promising perspectives for novel applications of lipid films.

Published

2005

138. Haem conformation of amphibian nytrosylhaemoglobins detected by XANES spectroscopy.

Author

Pozzi D, Amiconi G, Arcovito A, Girasole M, and Castellano AC

Subjects

Absorption, Animals, Humans, Nitric Oxide metabolism, Phytic Acid metabolism, Protons, Spectrum Analysis, X-Ray Diffraction, X-Rays, Heme chemistry, Hemoglobins chemistry, Hemoglobins metabolism, Molecular Conformation, Xenopus Proteins chemistry, Xenopus Proteins metabolism, Xenopus laevis

Abstract

We investigated for the first time the haem stereochemistry in the nitrosylated derivative of two amphibian haemoglobins, Xenopus laevis and Ambystoma mexicanum, by means of X-ray absorption spectroscopy technique with the aim to explain the relationships between the active site structure and physiological function of these proteins, compared to that from humans. Our results show that while the Fe site local structure of human HbNO is modulated by an allosteric effector such as IHP shifting the T-R equilibrium towards the T-state, the Fe site local structure of amphibians HbNO is stabilized in a particularly tensed T-state also without IHP.

Published

2005

139. Spectromicroscope for the PHotoelectron Imaging of Nanostructures with X-rays (SPHINX): performance in biology, medicine and geology.

Author

Frazer BH, Girasole M, Wiese LM, Franz T, and De Stasio G

Subjects

Cyanobacteria chemistry, Gadolinium analysis, Glioblastoma chemistry, Humans, Phosphorus analysis, Electrons, Microscopy methods, Spectrum Analysis methods, X-Rays

Abstract

Several X-ray PhotoElectron Emission spectroMicroscopes (X-PEEMs) exist around the world at this time. We present recent performance and resolution tests of one of them, the Spectromicroscope for PHotoelectron Imaging of Nanostructures with X-rays (SPHINX) X-PEEM, installed at the University of Wisconsin Synchrotron Radiation Center. With this state-of-the-art instrument we demonstrate chemical analysis capabilities on conducting and insulating specimens of diverse interests, and an unprecedented lateral resolution of 10 nm with monochromatic X-rays and 7.2 nm with ultraviolet illumination.

Published

2004

140. Microbial polysaccharides template assembly of nanocrystal fibers.

Author

Chan CS, De Stasio G, Welch SA, Girasole M, Frazer BH, Nesterova MV, Fakra S, and Banfield JF

Subjects

Bacteria chemistry, Bacteria ultrastructure, Cell Membrane metabolism, Crystallization, Ferritins metabolism, Ferrous Compounds chemistry, Ferrous Compounds metabolism, Gallionellaceae ultrastructure, Hydrogen-Ion Concentration, Leptothrix ultrastructure, Microscopy, Electron, Mining, Oxidation-Reduction, Polymers, Proton-Motive Force, Spectrometry, X-Ray Emission, Water Microbiology, Bacteria metabolism, Biofilms, Ferric Compounds chemistry, Ferritins chemistry, Geologic Sediments microbiology, Polysaccharides, Bacterial chemistry, Polysaccharides, Bacterial metabolism

Abstract

Biological systems can produce extraordinary inorganic structures and morphologies. The mechanisms of synthesis are poorly understood but are of great interest for engineering novel materials. We use spectromicroscopy to show that microbially generated submicrometer-diameter iron oxyhydroxide (FeOOH) filaments contain polysaccharides, providing an explanation for the formation of akaganeite pseudo-single crystals with aspect ratios of approximately 1000:1. We infer that the cells extrude the polysaccharide strands to localize FeOOH precipitation in proximity to the cell membrane to harness the proton gradient for energy generation. Characterization of organic compounds with high spatial resolution, correlated with mineralogical information, should improve our understanding of biomineralization mechanisms.

Published

2004

141. Imaging the cell surface: argon sputtering to expose inner cell structures.

Author

De Stasio G, Frazer BH, Girasole M, Wiese LM, Krasnowska EK, Greco G, Serafino A, and Parasassi T

Subjects

Argon, Caco-2 Cells, Cytoplasm ultrastructure, Humans, Organelles ultrastructure, X-Rays, Cells ultrastructure, Microscopy, Confocal, Microscopy, Electron, Microscopy, Electron, Scanning

Abstract

Established microscopies such as Scanning Electron Microscopy (SEM) and more recent developments such as Atomic Force Microscopy (AFM) and X-ray Photo-Electron Emission spectroMicroscopy (X-PEEM) can only image the sample surface. We present an argon sputtering method able to progressively expose inner cell structures without apparent damage. By varying the sputtering time, the structure of cell cytoskeleton, vesicles, mitochondria, nuclear membrane, and nucleoli can be imaged. We compared images obtained with confocal fluorescence microscopy, transmission electron microscopy (TEM), SEM, and X-PEEM on similar samples after argon sputtering, then confirmed the similarity of reference intracellular structures, including cytoskeleton fibers, cell-cell and cell-substrate adhesion structures, and secretory vesicles. We conclude that the sputtering method is a new valuable tool for surface sensitive microscopies., (Copyright 2004 Wiley-Liss, Inc.)

Published

2004

142. Lymphoblastoid cells exposed to low-frequency magnetic fields: study by atomic force microscopy.

Author

Grimaldi S, Girasole M, and Cricenti A

Subjects

Artifacts, B-Lymphocytes ultrastructure, Calcium metabolism, Cell Line, Cell Membrane metabolism, Cell Membrane ultrastructure, Cell Size, Cytoskeleton metabolism, Humans, Microscopy, Atomic Force instrumentation, B-Lymphocytes radiation effects, Electromagnetic Fields, Microscopy, Atomic Force methods

Published

2004

143. X-ray absorption near-edge spectroscopy of transferrins: a theoretical and experimental probe of the metal site local structure.

Author

Boffi F, Ascone I, Della Longa S, Girasole M, Yalovega G, Soldatov AV, Varoli-Piazza A, and Congiu Castellano A

Subjects

Animals, Binding Sites, Chickens, Computer Simulation, Humans, Protein Binding, Protein Conformation, Species Specificity, Conalbumin chemistry, Metals chemistry, Models, Molecular, Spectrometry, X-Ray Emission methods, Transferrin chemistry

Abstract

Proteins of the transferrin (Tf) family have a role in metal transport in vertebrates and have been extensively studied. The results here reported provide, for the first time, a detailed systematic comparison of metal sites in Tf complexes involving several atoms in the whole protein and in two different types of Tfs. The high interest in the structural variations induced in a metalloprotein upon the uptake of different metals is related to the hypothesis of the metals' involvement in some neuropathologies. We propose a comparative study of the X-ray absorption spectra at the K-edge of iron, copper, zinc and nickel in serotransferrin and ovotransferrin. The experimental data are simulated using an algorithm of the full multiple scattering method. Our results show that: (1) the local structure of each site (N-terminal and C-terminal) is correlated to the ligation state of the other site; (2) the difference between the two proteins is related to site local structure and depends on the metal ion nature being greater in the case of copper and zinc with respect to iron and nickel ions; (3) X-ray spectroscopy is confirmed as a suitable technique able to discriminate between coordination models proposed by X-ray diffraction.

Published

2003

144. Quantitative analysis of x-ray absorption near edge structure data by a full multiple scattering procedure: the Fe-CO geometry in photolyzed carbonmonoxy-myoglobin single crystal.

Author

Della Longa S, Arcovito A, Girasole M, Hazemann JL, and Benfatto M

Subjects

Animals, Binding Sites, Crystallography, X-Ray, Heme chemistry, Photolysis, Protein Conformation, Scattering, Radiation, Spectrometry, X-Ray Emission, Whales, Carbon Monoxide chemistry, Iron chemistry, Myoglobin chemistry

Abstract

We report the first quantitative analysis of the Fe K-edge polarized x-ray absorption near edge structure of the iron protein carbonmonoxy-myoglobin (MbCO) single crystal and of its cryogenic photoproduct Mb(*)CO. The CO-Fe-heme local structure has been determined using a novel fitting procedure based on the full multiple scattering approach. The extracted local structure of Mb(*)CO includes a Fe-CO distance of (3.08+/-0.07) A, with a tilting angle between the heme normal and the Fe-C vector of (37+/-7) degrees, and a bending angle between the Fe-C vector and the C-O bond of (31+/-5) degrees.

Published

2001

145. Structure of the Fe-heme in the hemodimeric hemoglobin from Scapharca inaequivalvis and in the T721 mutant: an X-ray absorption spectroscopic study at low temperature.

Author

Della Longa S, Gambacurta A, Bertollini A, Girasole M, Castellano AC, and Ascoli F

Subjects

Animals, Biophysical Phenomena, Biophysics, DNA, Complementary metabolism, Escherichia coli metabolism, Hemoglobins genetics, Models, Theoretical, Spectrophotometry, Temperature, Thermodynamics, X-Rays, Dimerization, Heme chemistry, Hemoglobins chemistry, Iron chemistry, Mollusca chemistry, Mutation

Abstract

The Fe site structure in the recombinant wild-type and T721 mutant of the cooperative homodimeric hemoglobin (HbI) of the mollusc Scapharca itnaequivalvis has been investigated by measuring the Fe K-edge X-ray absorption near edge structure (XANES) spectra of their oxy, deoxy and carbonmonoxy derivatives, and the cryogenic photoproducts of the carbonmonoxy derivatives at T = 12 K. According to our results, the Fe site geometry in T72I HbI-CO is quite similar to that of human carbonmonoxy hemoglobin (HbA-CO), while in native HbI-CO it seems intermediate between that of HbA-CO and sperm whale MbCO. The XANES spectra of oxy and deoxy derivatives are similar to the homologous spectra of human HbA, except for T72I HbI, for which the absorption edge is blue-shifted (about + 1 eV) towards the spectrum of the oxy form. XANES spectra of the cryogenic photoproducts of HbA-CO (HbA*), HbI-CO (HbI*) and mutant HbI-CO (T72I HbI*) were acquired under continuous illumination at 12 K. The Fe-heme structures of the three photoproducts are similar; however, while in the case of HbA* and HbI* the data indicate incomplete structural relaxation of the Fe-heme towards its deoxy-like (T) form, the relaxation in T72I HbI* is almost completely towards the proposed "high affinity" Fe-heme structure of T72I HbI. This evidence suggests that minor tertiary restraints affect the Fe-heme dynamics of T72I HbI, corresponding to a reduction of the energy necessary for the T --> R structural transition, which can contribute to the observed dramatic enhancement in oxygen affinity of this hemoprotein, and the decreased cooperativity.

Published

2001

146. Comparative XANES study of serotransferrin and ovotransferrin at Cu K-edge: evidence of interactions among the metal sites.

Author

Boffi F, Ascone I, Varoli Piazza A, Girasole M, Della Longa S, Giovannelli A, and Congiu Castellano A

Subjects

Animals, Binding Sites, Chickens, Humans, Peptide Fragments chemistry, Spectrometry, X-Ray Emission, Spectrophotometry, Ultraviolet, Conalbumin chemistry, Copper chemistry, Transferrin chemistry

Abstract

The Cu site structure of human serotransferrin and hen ovotransferrin using XANES spectroscopy has been investigated. Although the transferrin family proteins have been extensively studied, the results reported herein are the first concerning the structure of the metal site in C-terminal and N-terminal in the whole protein. Our structural data show that these proteins differ with regard to the independence of the two binding sites and the geometry of copper coordination, ranging from a poorly to a significantly distorted octahedron.

Published

2000

147. Fe-heme structure and dynamics in Thr72 --> Ile mutant Scapharca inaequivalvis hemoglobin by X-ray absorption spectroscopy.

Author

Della Longa S, Gambacurta A, Ascone I, Bertollini A, Girasole M, Congiu Castellano A, and Ascoli F

Published

1999

148. Aluminum site structure in serum transferrin and lactoferrin revealed by synchrotron radiation X-ray spectroscopy.

Author

Congiu-Castellano A, Boffi F, Della Longa S, Giovannelli A, Girasole M, Natali F, Pompa M, Soldatov A, and Bianconi A

Subjects

Aluminum chemistry, Binding Sites, Spectrometry, X-Ray Emission, Aluminum analysis, Lactoferrin chemistry, Transferrin chemistry

Abstract

The Al site structure of serum transferrin and lactoferrin is investigated using X-ray absorption near edge structure (XANES) spectroscopy. Al K-edge spectra in the mono- and dialuminum forms of the proteins have been recorded for the first time. Our results show that the aluminium ion is hexa-coordinated in an octahedral-like symmetry and that the monoaluminum form, where only the C-terminal binding site is saturated, has an increased structural distortion around the metal site.

Published

1997