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1. Biodegradable SPI-based hydrogel for controlled release of nanomedicines: a potential approach against brain tumors recurrence

Author

Viale, F, Ciprandi, M, Leoni, L, Sierri, G, Renda, A, Barbugian, F, Koch, M, Sesana, S, Salvioni, L, Colombo, M, Mantegazza, F, Russo, L, Re, F, Viale, Francesca, Ciprandi, Matilde, Leoni, Luca, Sierri, Giulia, Renda, Antonio, Barbugian, Federica, Koch, Marcus, Sesana, Silvia, Salvioni, Lucia, Colombo, Miriam, Mantegazza, Francesco, Russo, Laura, Re, Francesca, Viale, F, Ciprandi, M, Leoni, L, Sierri, G, Renda, A, Barbugian, F, Koch, M, Sesana, S, Salvioni, L, Colombo, M, Mantegazza, F, Russo, L, Re, F, Viale, Francesca, Ciprandi, Matilde, Leoni, Luca, Sierri, Giulia, Renda, Antonio, Barbugian, Federica, Koch, Marcus, Sesana, Silvia, Salvioni, Lucia, Colombo, Miriam, Mantegazza, Francesco, Russo, Laura, and Re, Francesca

Abstract

Glioblastoma (GB) is the most common and aggressive brain tumor. The treatment for newly diagnosed glioblastoma is surgical resection of the primary tumor mass, followed by radiotherapy and chemotherapy. However, recurrences frequently occur in proximity to the surgical resection area. In these cases, none of the current therapies is effective. Recently, implantable biomaterials seem to be a promising strategy against GB recurrence. Here, for the first time we combined the tailorable properties of soy-protein hydrogels with the versatility of drug-loaded liposomes to realize a hybrid biomaterial for controlled and sustained nanoparticles release. Hydrogel consisting of 18–20 % w/v soy-protein isolated were fabricated in absence of chemical cross-linkers. They were biodegradable (−10 % and −30 % of weight by hydrolytic and enzymatic degradation, respectively in 3 days), biocompatible (>95 % of cell viability after treatment), and capable of sustained release of intact doxorubicin-loaded liposomes (diffusion coefficient between 10−18 and 10 −19 m2 s−1). A proof-of-concept in a “donut-like” 3D-bioprinted model shows that liposomes released by hydrogels were able to diffuse in a model with a complex extracellular matrix-like network and a 3D structural organization, targeting glioblastoma cells. The combination of nanoparticles' encapsulation capabilities with the hydrogels' structural support and controlled release properties will provide a powerful tool with high clinical relevance that could be applicable for the treatment of other cancers, realizing patient-specific interventions.

Published
2024

2. The Nanomechanical Properties of CLL Cells Are Linked to the Actin Cytoskeleton and Are a Potential Target of BTK Inhibitors

Author

Sampietro, M, Cassina, V, Salerno, D, Barbaglio, F, Buglione, E, Marrano, C, Campanile, R, Scarfò, L, Biedenweg, D, Fregin, B, Zamai, M, Díaz Torres, A, Labrador Cantarero, V, Ghia, P, Otto, O, Mantegazza, F, Caiolfa, V, Scielzo, C, Sampietro M., Cassina V., Salerno D., Barbaglio F., Buglione E., Marrano C. A., Campanile R., Scarfò L., Biedenweg D., Fregin B., Zamai M., Díaz Torres A., Labrador Cantarero V., Ghia P., Otto O., Mantegazza F., Caiolfa V. R., Scielzo C., Sampietro, M, Cassina, V, Salerno, D, Barbaglio, F, Buglione, E, Marrano, C, Campanile, R, Scarfò, L, Biedenweg, D, Fregin, B, Zamai, M, Díaz Torres, A, Labrador Cantarero, V, Ghia, P, Otto, O, Mantegazza, F, Caiolfa, V, Scielzo, C, Sampietro M., Cassina V., Salerno D., Barbaglio F., Buglione E., Marrano C. A., Campanile R., Scarfò L., Biedenweg D., Fregin B., Zamai M., Díaz Torres A., Labrador Cantarero V., Ghia P., Otto O., Mantegazza F., Caiolfa V. R., and Scielzo C.

Abstract

Chronic lymphocytic leukemia (CLL) is an incurable disease characterized by an intense trafficking of the leukemic cells between the peripheral blood and lymphoid tissues. It is known that the ability of lymphocytes to recirculate strongly depends on their capability to rapidly rearrange their cytoskeleton and adapt to external cues; however, little is known about the differences occurring between CLL and healthy B cells during these processes. To investigate this point, we applied a single-cell optical (super resolution microscopy) and nanomechanical approaches (atomic force microscopy, real-time deformability cytometry) to both CLL and healthy B lymphocytes and compared their behavior. We demonstrated that CLL cells have a specific actomyosin complex organization and altered mechanical properties in comparison to their healthy counterpart. To evaluate the clinical relevance of our findings, we treated the cells in vitro with the Bruton's tyrosine kinase inhibitors and we found for the first time that the drug restores the CLL cells mechanical properties to a healthy phenotype and activates the actomyosin complex. We further validated these results in vivo on CLL cells isolated from patients undergoing ibrutinib treatment. Our results suggest that CLL cells' mechanical properties are linked to their actin cytoskeleton organization and might be involved in novel mechanisms of drug resistance, thus becoming a new potential therapeutic target aiming at the normalization of the mechanical fingerprints of the leukemic cells.

Published
2023

3. Engineering tandem CD33xCD146 CAR CIK (cytokine-induced killer) cells to target the acute myeloid leukemia niche

Author

Alberti, G, Arsuffi, C, Pievani, A, Salerno, D, Mantegazza, F, Dazzi, F, Biondi, A, Tettamanti, S, Serafini, M, Alberti G., Arsuffi C., Pievani A., Salerno D., Mantegazza F., Dazzi F., Biondi A., Tettamanti S., Serafini M., Alberti, G, Arsuffi, C, Pievani, A, Salerno, D, Mantegazza, F, Dazzi, F, Biondi, A, Tettamanti, S, Serafini, M, Alberti G., Arsuffi C., Pievani A., Salerno D., Mantegazza F., Dazzi F., Biondi A., Tettamanti S., and Serafini M.

Abstract

In acute myeloid leukemia (AML), malignant stem cells hijack the normal bone marrow niche where they are largely protected from the current therapeutic approaches. Thus, eradicating these progenitors is the ultimate challenge in the treatment of this disease. Specifically, the development of chimeric antigen receptors (CARs) against distinct mesenchymal stromal cell subpopulations involved in the maintenance of leukemic stem cells within the malignant bone marrow microenvironment could represent a new strategy to improve CAR T-cell therapy efficacy, which is still unsuccessful in AML. As a proof of concept, we generated a novel prototype of Tandem CAR, with one specificity directed against the leukemic cell marker CD33 and the other against the mesenchymal stromal cell marker CD146, demonstrating its capability of simultaneously targeting two different cell types in a 2D co-culture system. Interestingly, we could also observe an in vitro inhibition of CAR T cell functionality mediated by stromal cells, particularly in later effector functions, such as reduction of interferon-gamma and interleukin-2 release and impaired proliferation of the CAR+ effector Cytokine-Induced Killer (CIK) cells. Taken together, these data demonstrate the feasibility of a dual targeting model against two molecules, which are expressed on two different target cells, but also highlight the immunomodulatory effect on CAR CIK cells exerted by stromal cells, confirming that the niche could be an obstacle to the efficacy of CAR T cells. This aspect should be considered in the development of novel CAR T cell approaches directed against the AML bone marrow niche.

Published
2023

4. Single molecule study of the DNA denaturation phase transition in the force-torsion space

Author

Salerno, D., Tempestini, A., Mai, I., Brogioli, D., Ziano, R., Cassina, V., and Mantegazza, F.

Subjects
Physics - Biological Physics, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We use the "magnetic tweezers" technique to reveal the structural transitions that DNA undergoes in the force-torsion space. In particular, we focus on regions corresponding to negative supercoiling. These regions are characterized by the formation of so-called denaturation bubbles, which have an essential role in the replication and transcription of DNA. We experimentally map the region of the force-torsion space where the denaturation takes place. We observe that large fluctuations in DNA extension occur at one of the boundaries of this region, i.e., when the formation of denaturation bubbles and of plectonemes are competing. To describe the experiments, we introduce a suitable extension of the classical model. The model correctly describes the position of the denaturation regions, the transition boundaries, and the measured values of the DNA extension fluctuations., Comment: 5 pages and 4 figure

Published
2012
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5. Speckles generated by skewed, short-coherence light beams

Author

Brogioli, D., Salerno, D., Croccolo, F., Ziano, R., and Mantegazza, F.

Subjects
Physics - Optics
Abstract

When a coherent laser beam impinges on a random sample (e.g. a colloidal suspension), the scattered light exhibits characteristic speckles. If the temporal coherence of the light source is too short, then the speckles disappear, along with the possibility of performing homodyne or heterodyne scattering detection or photon correlation spectroscopy. Here we investigate the scattering of a so-called "skewed coherence beam", i.e., a short-coherence beam modified such that the field is coherent within slabs that are skewed with respect to the wave fronts. We show that such a beam generates speckles and can be used for heterodyne scattering detection, despite its short temporal coherence. When applied to quite turbid samples, the technique has the remarkable advantage of suppressing the multiple scattering contribution of the scattering signal. The phenomenon presented here represents a very effective method for measuring the coherence skewness of either a continuous wave or a pulsed beam. Another field of application concerns X-rays. The observation of speckles is usually limited to synchrotron radiation and FELs. Our experiment suggests that a short-coherence X-ray source can also be used, with no monochromator filtration, provided that the coherence is suitably skewed. Such a technique will also enable heterodyne scattering detection with standard short-coherence light sources., Comment: 4 pages, 4 figures

Published
2011
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6. Photon correlation spectroscopy with incoherent light

Author

Salerno, D., Brogioli, D., Croccolo, F., Ziano, R., and Mantegazza, F.

Subjects
Physics - Optics
Abstract

Photon correlation spectroscopy (PCS) is based on measuring the temporal correlation of the light intensity scattered by the investigated sample. A typical setup requires a temporally coherent light source. Here, we show that a short-coherence light source can be used as well, provided that its coherence properties are suitably modified. This results in a "skewed-coherence" light beam allowing that restores the coherence requirements. This approach overcomes the usual need for beam filtering, which would reduce the total brightness of the beam., Comment: 4 pages, 4 figures

Published
2011
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7. Nanoparticle characterization by using Tilted Laser Microscopy: back scattering measurement in near field

Author

Brogioli, D., Salerno, D., Cassina, V., and Mantegazza, F.

Subjects
Physics - Optics, Physics - Instrumentation and Detectors
Abstract

By using scattering in near field techniques, a microscope can be easily turned into a device measuring static and dynamic light scattering, very useful for the characterization of nanoparticle dispersions. Up to now, microscopy based techniques have been limited to forward scattering, up to a maximum of 30 degrees. In this paper we present a novel optical scheme that overcomes this limitation, extending the detection range to angles larger than 90 degrees (back-scattering). Our optical scheme is based on a microscope, a wide numerical aperture objective, and a laser illumination, with the collimated beam positioned at a large angle with respect to the optical axis of the objective (Tilted Laser Microscopy, TLM). We present here an extension of the theory for near field scattering, which usually applies only to paraxial scattering, to our strongly out-of-axis s ituation. We tested our instrument and our calculations with calibrated spherical nanoparticles of several different diameters, performing static and dynamic scattering measurements up to 110 degrees. The measured static spectra and decay times are compatible with the Mie theory and the diffusion coefficients provided by the Stokes-Einstein equation. The ability of performing backscattering measurements with this modified microscope opens the way to new applications of scattering in near field techniques to the measurement of systems with strongly angle dependent scattering., Comment: 18 pages, 10 figures. Accepted for publication in Optics Express, vol. 17, no. 17 (08/17/2009)

Published
2009
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9. Engineering tandem CD33xCD146 CAR CIK (cytokine-induced killer) cells to target the acute myeloid leukemia niche

Author

Alberti G., Arsuffi C., Pievani A., Salerno D., Mantegazza F., Dazzi F., Biondi A., Tettamanti S., Serafini M., Alberti, G, Arsuffi, C, Pievani, A, Salerno, D, Mantegazza, F, Dazzi, F, Biondi, A, Tettamanti, S, and Serafini, M

Subjects
tandem CAR, cytokine-induced killer (CIK cells), MSCs (mesenchymal stem cells), Immunology, Immunology and Allergy, acute myeloid leukemia, AML niche
Abstract

In acute myeloid leukemia (AML), malignant stem cells hijack the normal bone marrow niche where they are largely protected from the current therapeutic approaches. Thus, eradicating these progenitors is the ultimate challenge in the treatment of this disease. Specifically, the development of chimeric antigen receptors (CARs) against distinct mesenchymal stromal cell subpopulations involved in the maintenance of leukemic stem cells within the malignant bone marrow microenvironment could represent a new strategy to improve CAR T-cell therapy efficacy, which is still unsuccessful in AML. As a proof of concept, we generated a novel prototype of Tandem CAR, with one specificity directed against the leukemic cell marker CD33 and the other against the mesenchymal stromal cell marker CD146, demonstrating its capability of simultaneously targeting two different cell types in a 2D co-culture system. Interestingly, we could also observe an in vitro inhibition of CAR T cell functionality mediated by stromal cells, particularly in later effector functions, such as reduction of interferon-gamma and interleukin-2 release and impaired proliferation of the CAR+ effector Cytokine-Induced Killer (CIK) cells. Taken together, these data demonstrate the feasibility of a dual targeting model against two molecules, which are expressed on two different target cells, but also highlight the immunomodulatory effect on CAR CIK cells exerted by stromal cells, confirming that the niche could be an obstacle to the efficacy of CAR T cells. This aspect should be considered in the development of novel CAR T cell approaches directed against the AML bone marrow niche.

Published
2023

10. Nanomechanics of negatively supercoiled diaminopurine-substituted DNA

Author

Salerno, D, Marrano, C, Cassina, V, Cristofalo, M, Shao, Q, Finzi, L, Mantegazza, F, Dunlap, D, Salerno D., Marrano C. A., Cassina V., Cristofalo M., Shao Q., Finzi L., Mantegazza F., Dunlap D., Salerno, D, Marrano, C, Cassina, V, Cristofalo, M, Shao, Q, Finzi, L, Mantegazza, F, Dunlap, D, Salerno D., Marrano C. A., Cassina V., Cristofalo M., Shao Q., Finzi L., Mantegazza F., and Dunlap D.

Abstract

Single molecule experiments have demonstrated a progressive transition from a B-to an L-form helix as DNA is gently stretched and progressively unwound. The particular sequence of a DNA segment defines both base stacking and hydrogen bonding that affect the partitioning and conformations of the two phases. Naturally or artificially modified bases alter H-bonds and base stacking and DNA with diaminopurine (DAP) replacing adenine was synthesized to produce linear fragments with triply hydrogen-bonded DAP:T base pairs. Both unmodified and DAP-substituted DNA transitioned from a B-to an L-helix under physiological conditions of mild tension and unwinding. This transition avoids writhing and the ease of this transition may prevent cumbersome topological rearrangements in genomic DNA that would require topoisomerase activity to resolve. L-DNA displayed about tenfold lower persistence length than B-DNA. However, left-handed DAP-substituted DNA was twice as stiff as unmodified L-DNA. Unmodified DNA and DAP-substituted DNA have very distinct mechanical characteristics at physiological levels of negative supercoiling and tension.

Published
2021

11. Double-stranded flanking ends affect the folding kinetics and conformational equilibrium of G-quadruplexes forming sequences within the promoter of KIT oncogene

Author

Vesco, G, Lamperti, M, Salerno, D, Marrano, C, Cassina, V, Rigo, R, Buglione, E, Bondani, M, Nicoletto, G, Mantegazza, F, Sissi, C, Nardo, L, Vesco G., Lamperti M., Salerno D., Marrano C. A., Cassina V., Rigo R., Buglione E., Bondani M., Nicoletto G., Mantegazza F., Sissi C., Nardo L., Vesco, G, Lamperti, M, Salerno, D, Marrano, C, Cassina, V, Rigo, R, Buglione, E, Bondani, M, Nicoletto, G, Mantegazza, F, Sissi, C, Nardo, L, Vesco G., Lamperti M., Salerno D., Marrano C. A., Cassina V., Rigo R., Buglione E., Bondani M., Nicoletto G., Mantegazza F., Sissi C., and Nardo L.

Abstract

G-quadruplexes embedded within promoters play a crucial role in regulating the gene expression. KIT is a widely studied oncogene, whose promoter contains three G-quadruplex forming sequences, c-kit1, c-kit2 and c-kit∗. For these sequences available studies cover ensemble and single-molecule analyses, although for kit∗ the latter were limited to a study on a promoter domain comprising all of them. Recently, c-kit2 has been reported to fold according to a multi-step process involving folding intermediates. Here, by exploiting fluorescence resonance energy transfer, both in ensemble and at the single molecule level, we investigated the folding of expressly designed constructs in which, alike in the physiological context, either c-kit2 or c-kit∗ are flanked by double stranded DNA segments. To assess whether the presence of flanking ends at the borders of the G-quadruplex affects the folding, we studied under the same protocols oligonucleotides corresponding to the minimal G-quadruplex forming sequences. Data suggest that addition of flanking ends results in biasing both the final equilibrium state and the folding kinetics. A previously unconsidered aspect is thereby unravelled, which ought to be taken into account to achieve a deeper insight of the complex relationships underlying the fine tuning of the gene-regulatory properties of these fascinating DNA structures.

Published
2021

13. ETNK1 mutations induce a mutator phenotype that can be reverted with phosphoethanolamine

Author

Fontana, D, Mauri, M, Renso, R, Docci, M, Crespiatico, I, Rost, L, Jang, M, Niro, A, D'Aliberti, D, Massimino, L, Bertagna, M, Zambrotta, G, Bossi, M, Citterio, S, Crescenzi, B, Fanelli, F, Cassina, V, Corti, R, Salerno, D, Nardo, L, Chinello, C, Mantegazza, F, Mecucci, C, Magni, F, Cavaletti, G, Bruheim, P, Rea, D, Larsen, S, Gambacorti-Passerini, C, Piazza, R, Fontana D., Mauri M., Renso R., Docci M., Crespiatico I., Rost L. M., Jang M., Niro A., D'Aliberti D., Massimino L., Bertagna M., Zambrotta G., Bossi M., Citterio S., Crescenzi B., Fanelli F., Cassina V., Corti R., Salerno D., Nardo L., Chinello C., Mantegazza F., Mecucci C., Magni F., Cavaletti G., Bruheim P., Rea D., Larsen S., Gambacorti-Passerini C., Piazza R., Fontana, D, Mauri, M, Renso, R, Docci, M, Crespiatico, I, Rost, L, Jang, M, Niro, A, D'Aliberti, D, Massimino, L, Bertagna, M, Zambrotta, G, Bossi, M, Citterio, S, Crescenzi, B, Fanelli, F, Cassina, V, Corti, R, Salerno, D, Nardo, L, Chinello, C, Mantegazza, F, Mecucci, C, Magni, F, Cavaletti, G, Bruheim, P, Rea, D, Larsen, S, Gambacorti-Passerini, C, Piazza, R, Fontana D., Mauri M., Renso R., Docci M., Crespiatico I., Rost L. M., Jang M., Niro A., D'Aliberti D., Massimino L., Bertagna M., Zambrotta G., Bossi M., Citterio S., Crescenzi B., Fanelli F., Cassina V., Corti R., Salerno D., Nardo L., Chinello C., Mantegazza F., Mecucci C., Magni F., Cavaletti G., Bruheim P., Rea D., Larsen S., Gambacorti-Passerini C., and Piazza R.

Abstract

Recurrent somatic mutations in ETNK1 (Ethanolamine-Kinase-1) were identified in several myeloid malignancies and are responsible for a reduced enzymatic activity. Here, we demonstrate in primary leukemic cells and in cell lines that mutated ETNK1 causes a significant increase in mitochondrial activity, ROS production, and Histone H2AX phosphorylation, ultimately driving the increased accumulation of new mutations. We also show that phosphoethanolamine, the metabolic product of ETNK1, negatively controls mitochondrial activity through a direct competition with succinate at mitochondrial complex II. Hence, reduced intracellular phosphoethanolamine causes mitochondria hyperactivation, ROS production, and DNA damage. Treatment with phosphoethanolamine is able to counteract complex II hyperactivation and to restore a normal phenotype.

Published
2020

14. ETNK1 mutations in atypical chronic myeloid leukemia induce a mutator phenotype that can be reverted with phosphoethanolamine

Author

Fontana, D, Mauri, M, Renso, R, Docci, M, Crespiatico, I, Rost, L, Jang, M, Niro, A, D'Aliberti, D, Massimino, L, Bertagna, M, Zambrotta, G, Bossi, M, Citterio, S, Crescenzi, B, Fanelli, F, Cassina, V, Corti, R, Salerno, D, Nardo, L, Chinello, C, Mantegazza, F, Mecucci, C, Magni, F, Cavaletti, G, Bruheim, P, Rea, D, Larsen, S, Piazza, R, Gambacorti-Passerini, C, Fontana D., Mauri M., Renso R., Docci M., Crespiatico I., Rost L. M., Jang M., Niro A., D'Aliberti D., Massimino L., Bertagna M., Zambrotta G., Bossi M., Citterio S., Crescenzi B., Fanelli F., Cassina V., Corti R., Salerno D., Nardo L., Chinello C., Mantegazza F., Mecucci C., Magni F., Cavaletti G., Bruheim P., Rea D., Larsen S., Piazza R., Gambacorti-Passerini C., Fontana, D, Mauri, M, Renso, R, Docci, M, Crespiatico, I, Rost, L, Jang, M, Niro, A, D'Aliberti, D, Massimino, L, Bertagna, M, Zambrotta, G, Bossi, M, Citterio, S, Crescenzi, B, Fanelli, F, Cassina, V, Corti, R, Salerno, D, Nardo, L, Chinello, C, Mantegazza, F, Mecucci, C, Magni, F, Cavaletti, G, Bruheim, P, Rea, D, Larsen, S, Piazza, R, Gambacorti-Passerini, C, Fontana D., Mauri M., Renso R., Docci M., Crespiatico I., Rost L. M., Jang M., Niro A., D'Aliberti D., Massimino L., Bertagna M., Zambrotta G., Bossi M., Citterio S., Crescenzi B., Fanelli F., Cassina V., Corti R., Salerno D., Nardo L., Chinello C., Mantegazza F., Mecucci C., Magni F., Cavaletti G., Bruheim P., Rea D., Larsen S., Piazza R., and Gambacorti-Passerini C.

Published
2020

15. Cooperative effects on the compaction of DNA fragments by the nucleoid protein H-NS and the crowding agent PEG probed by Magnetic Tweezers

Author

Cristofalo, M, Marrano, C, Salerno, D, Corti, R, Cassina, V, Mammola, A, Gherardi, M, Sclavi, B, Cosentino Lagomarsino, M, Mantegazza, F, Cristofalo M., Marrano C. A., Salerno D., Corti R., Cassina V., Mammola A., Gherardi M., Sclavi B., Cosentino Lagomarsino M., Mantegazza F., Cristofalo, M, Marrano, C, Salerno, D, Corti, R, Cassina, V, Mammola, A, Gherardi, M, Sclavi, B, Cosentino Lagomarsino, M, Mantegazza, F, Cristofalo M., Marrano C. A., Salerno D., Corti R., Cassina V., Mammola A., Gherardi M., Sclavi B., Cosentino Lagomarsino M., and Mantegazza F.

Abstract

Background: DNA bridging promoted by the H-NS protein, combined with the compaction induced by cellular crowding, plays a major role in the structuring of the E. coli genome. However, only few studies consider the effects of the physical interplay of these two factors in a controlled environment. Methods: We apply a single molecule technique (Magnetic Tweezers) to study the nanomechanics of compaction and folding kinetics of a 6 kb DNA fragment, induced by H-NS bridging and/or PEG crowding. Results: In the presence of H-NS alone, the DNA shows a step-wise collapse driven by the formation of multiple bridges, and little variations in the H-NS concentration-dependent unfolding force. Conversely, the DNA collapse force observed with PEG was highly dependent on the volume fraction of the crowding agent. The two limit cases were interpreted considering the models of loop formation in a pulled chain and pulling of an equilibrium globule respectively. Conclusions: We observed an evident cooperative effect between H-NS activity and the depletion of forces induced by PEG. General Significance: Our data suggest a double role for H-NS in enhancing compaction while forming specific loops, which could be crucial in vivo for defining specific mesoscale domains in chromosomal regions in response to environmental changes.

Published
2020

20. Not just a pathogen? Description of a plant-beneficial Pseudomonas syringae strain

Author

Passera, A, Compant, S, Casati, P, Maturo, M, Battelli, G, Quaglino, F, Antonielli, L, Salerno, D, Brasca, M, Toffolatti, S, Mantegazza, F, Delledonne, M, Mitter, B, Passera A., Compant S., Casati P., Maturo M. G., Battelli G., Quaglino F., Antonielli L., Salerno D., Brasca M., Toffolatti S. L., Mantegazza F., Delledonne M., Mitter B., Passera, A, Compant, S, Casati, P, Maturo, M, Battelli, G, Quaglino, F, Antonielli, L, Salerno, D, Brasca, M, Toffolatti, S, Mantegazza, F, Delledonne, M, Mitter, B, Passera A., Compant S., Casati P., Maturo M. G., Battelli G., Quaglino F., Antonielli L., Salerno D., Brasca M., Toffolatti S. L., Mantegazza F., Delledonne M., and Mitter B.

Abstract

Plants develop in a microbe-rich environment and must interact with a plethora of microorganisms, both pathogenic and beneficial. Indeed, such is the case of Pseudomonas, and its model organisms P. fluorescens and P. syringae, a bacterial genus that has received particular attention because of its beneficial effect on plants and its pathogenic strains. The present study aims to compare plant-beneficial and pathogenic strains belonging to the P. syringae species to get new insights into the distinction between the two types of plant-microbe interactions. In assays carried out under greenhouse conditions, P. syringae pv. syringae strain 260-02 was shown to promote plant-growth and to exert biocontrol of P. syringae pv. tomato strain DC3000, against the Botrytis cinerea fungus and the Cymbidium Ringspot Virus. This P. syringae strain also had a distinct volatile emission profile, as well as a different plant-colonization pattern, visualized by confocal microscopy and gfp labeled strains, compared to strain DC3000. Despite the different behavior, the P. syringae strain 260-02 showed great similarity to pathogenic strains at a genomic level. However, genome analyses highlighted a few differences that form the basis for the following hypotheses regarding strain 260-02. P. syringae strain 260-02: (i) possesses nonfunctional virulence genes, like the mangotoxin-producing operon Mbo; (ii) has different regulation pathways, suggested by the difference in the autoinducer system and the lack of a virulence activator gene; (iii) has genes encoding DNA methylases different from those found in other P. syringae strains, suggested by the presence of horizontal-gene-transfer-obtained methylases that could affect gene expression.

Published
2019

21. Nanomechanics of G-quadruplexes within the promoter of the KIT oncogene

Author

Buglione, E, Salerno, D, Marrano, C, Cassina, V, Vesco, G, Nardo, L, Dacasto, M, Rigo, R, Sissi, C, Mantegazza, F, Buglione, Enrico, Salerno, Domenico, Marrano, Claudia Adriana, Cassina, Valeria, Vesco, Guglielmo, Nardo, Luca, Dacasto, Mauro, Rigo, Riccardo, Sissi, Claudia, Mantegazza, Francesco, Buglione, E, Salerno, D, Marrano, C, Cassina, V, Vesco, G, Nardo, L, Dacasto, M, Rigo, R, Sissi, C, Mantegazza, F, Buglione, Enrico, Salerno, Domenico, Marrano, Claudia Adriana, Cassina, Valeria, Vesco, Guglielmo, Nardo, Luca, Dacasto, Mauro, Rigo, Riccardo, Sissi, Claudia, and Mantegazza, Francesco

Abstract

G-quadruplexes (G4s) are tetrahelical DNA structures stabilized by four guanines paired via Hoogsteen hydrogen bonds into quartets. While their presence within eukaryotic DNA is known to play a key role in regulatory processes, their functional mechanisms are still under investigation. In the present work, we analysed the nanomechanical properties of three G4s present within the promoter of the KIT proto-oncogene from a single-molecule point of view through the use of magnetic tweezers (MTs). The study of DNA extension fluctuations under negative supercoiling allowed us to identify a characteristic fingerprint of G4 folding. We further analysed the energetic contribution of G4 to the double-strand denaturation process in the presence of negative supercoiling, and we observed a reduction in the energy required for strands separation.

Published
2021

22. Determination of the size distribution of non-spherical nanoparticles by electric birefringence-based methods

Author

Arenas-Guerrero, P, Delgado, A, Donovan, K, Scott, K, Bellini, T, Mantegazza, F, Jiménez, M, Arenas-Guerrero, P., Delgado, A. V., Donovan, K. J., Scott, K., Bellini, T., Mantegazza, F., Jiménez, M. L., Arenas-Guerrero, P, Delgado, A, Donovan, K, Scott, K, Bellini, T, Mantegazza, F, Jiménez, M, Arenas-Guerrero, P., Delgado, A. V., Donovan, K. J., Scott, K., Bellini, T., Mantegazza, F., and Jiménez, M. L.

Abstract

The in situ determination of the size distribution of dispersed non-spherical nanoparticles is an essential characterization tool for the investigation and use of colloidal suspensions. In this work, we test a size characterization method based on the measurement of the transient behaviour of the birefringence induced in the dispersions by pulsed electric fields. The specific shape of such relaxations depends on the distribution of the rotational diffusion coefficient of the suspended particles. We analyse the measured transient birefringence with three approaches: The stretched-exponential, Watson-Jennings, and multi-exponential methods. These are applied to six different types of rod-like and planar particles: PTFE rods, goethite needles, single- A nd double-walled carbon nanotubes, sodium montmorillonite particles and gibbsite platelets. The results are compared to electron microscopy and dynamic light scattering measurements. The methods here considered provide good or excellent results in all cases, proving that the analysis of the transient birefringence is a powerful tool to obtain complete size distributions of non-spherical particles in suspension.

Published
2018

23. Functionalized liposomes and phytosomes loading Annona muricata L. aqueous extract: Potential nanoshuttles for brain-delivery of phenolic compounds

Author

Mancini, S, Nardo, L, Gregori, M, Ribeiro, I, Mantegazza, F, Delerue-Matos, C, Masserini, M, Grosso, C, Mancini S., Nardo L., Gregori M., Ribeiro I., Mantegazza F., Delerue-Matos C., Masserini M., Grosso C., Mancini, S, Nardo, L, Gregori, M, Ribeiro, I, Mantegazza, F, Delerue-Matos, C, Masserini, M, Grosso, C, Mancini S., Nardo L., Gregori M., Ribeiro I., Mantegazza F., Delerue-Matos C., Masserini M., and Grosso C.

Abstract

Background: Multi-target drugs have gained significant recognition for the treatment of multifactorial diseases such as depression. Under a screening study of multi-potent medicinal plants with claimed antidepressant-like activity, the phenolic-rich Annona muricata aqueous extract (AE) emerged as a moderate monoamine oxidase A (hMAO-A) inhibitor and a strong hydrogen peroxide (H2O2) scavenger. Purpose: In order to protect this extract from gastrointestinal biotransformation and to improve its permeability across the blood-brain barrier (BBB), four phospholipid nanoformulations of liposomes and phytosomes functionalized with a peptide ligand promoting BBB crossing were produced. Methods: AE and nanoformulations were characterized by HPLC-DAD-ESI-MSn, HPLC-DAD, spectrophotometric, fluorescence and dynamic light scattering methods. Cytotoxicity and permeability studies were carried out using an in vitro transwell model of the BBB, composed of immortalized human microvascular endothelial cells (hCMEC/D3), and in vitro hMAO-A inhibition and H2O2 scavenging activities were performed with all samples. Results: The encapsulation/binding of AE was more efficient with phytosomes, while liposomes were more stable, displaying a slower extract release over time. In general, phytosomes were less toxic than liposomes in hCMEC/D3 cells and, when present, cholesterol improved the permeability across the cell monolayer of all tested nanoformulations. All nanoformulations conserved the antioxidant potential of AE, while phosphatidylcholine interfered with MAO-A inhibition assay. Conclusions: Overall, phytosome formulations registered the best performance in terms of binding efficiency, enzyme inhibition and scavenging activity, thus representing a promising multipotent phenolic-rich nanoshuttle for future in vivo depression treatment.

Published
2018

24. Coil-to-globule transition of poly(N-isopropylacrylamide) doped with chiral amino acidic comonomers

Author

Lebon, F., Caggioni, M., Bignotti, F., Abbate, S., Gangemi, F., Longhi, G., Mantegazza, F., and Bellini, T.

Subjects
Circular dichroism -- Analysis, Amino compounds -- Chemical properties, Chirality -- Research, Chemicals, plastics and rubber industries
Abstract

Light scattering and circular dichroism measurements (CD) are used to investigate the coil-to-globule transition of the thermosensitive polymer poly(N-isopropylacrylamide) (pNIPAAm) copolymerized with a fraction of valine- or leucine-derived groups randomly positioned along the chains. The CD signal of the chiral comonomers is found to depend on the local chain density, indicating the behavior as an effect of the whole chain conformation on the conformations accessible to the chiral groups.

Published
2007

25. Multiphoton Fabrication of Proteinaceous Nanocomposite Microstructures with Photothermal Activity in the Infrared

Author

Zeynali, A, Marini, M, Chirico, G, Bouzin, M, Borzenkov, M, Sironi, L, D'Alfonso, L, Pallavicini, P, Cassina, V, Mantegazza, F, Granucci, F, Marongiu, L, Polli, D, De la Cadena, A, Collini, M, Zeynali, Amirbahador, Marini, Mario, Chirico, Giuseppe, Bouzin, Margaux, Borzenkov, Mykola, Sironi, Laura, D'Alfonso, Laura, Pallavicini, Piersandro, Cassina, Valeria, Mantegazza, Francesco, Granucci, Francesca, Marongiu, Laura, Polli, Dario, De la Cadena, Alejandro, Collini, Maddalena, Zeynali, A, Marini, M, Chirico, G, Bouzin, M, Borzenkov, M, Sironi, L, D'Alfonso, L, Pallavicini, P, Cassina, V, Mantegazza, F, Granucci, F, Marongiu, L, Polli, D, De la Cadena, A, Collini, M, Zeynali, Amirbahador, Marini, Mario, Chirico, Giuseppe, Bouzin, Margaux, Borzenkov, Mykola, Sironi, Laura, D'Alfonso, Laura, Pallavicini, Piersandro, Cassina, Valeria, Mantegazza, Francesco, Granucci, Francesca, Marongiu, Laura, Polli, Dario, De la Cadena, Alejandro, and Collini, Maddalena

Abstract

Two‐photon laser writing is used here to fabricate 3D proteinaceous microstructures with photothermal functionality in the near‐infrared spectral region and tunable elasticity. The photo‐cross‐linking is initiated in bovine serum albumin (BSA) by rose bengal or methylene blue and the photo‐thermal effect arises from gold non‐spherically symmetric nanoparticles dispersed in the ink. Massive energy transfer of the plasmonic resonances of the gold nanoparticles to methylene blue prevents effective photo‐crosslinking of BSA. However, stable microstructures with photo‐thermal functionality can be fabricated in the rose bengal proteinaceous inks. On these microstructures, with a gold atom concentration as low as 1% w/w, a highly localized temperature increase can be quickly (≅1 s) reached and maintained under continuous wave laser irradiation at 800 nm. The photothermal efficiency under continuous wave laser irradiation depends on the thickness of the microstructure and can reach 12.2 ± 0.4 °C W−1 These proteinaceous microstructures represent therefore a promising platform for future applications in the fields like physical stimulation of cells for regenerative nanomedicine.

Published
2020

26. Coupling quaternary ammonium surfactants to the surface of liposomes improves both antibacterial efficacy and host cell biocompatibility

Author

Montefusco-Pereira, C, Formicola, B, Goes, A, Re, F, Marrano, C, Mantegazza, F, Carvalho-Wodarz, C, Fuhrmann, G, Caneva, E, Nicotra, F, Lehr, C, Russo, L, Montefusco-Pereira, Carlos V, Formicola, Beatrice, Goes, Adriely, Re, Francesca, Marrano, Claudia A, Mantegazza, Francesco, Carvalho-Wodarz, Cristiane, Fuhrmann, Gregor, Caneva, Enrico, Nicotra, Francesco, Lehr, Claus-Michael, Russo, Laura, Montefusco-Pereira, C, Formicola, B, Goes, A, Re, F, Marrano, C, Mantegazza, F, Carvalho-Wodarz, C, Fuhrmann, G, Caneva, E, Nicotra, F, Lehr, C, Russo, L, Montefusco-Pereira, Carlos V, Formicola, Beatrice, Goes, Adriely, Re, Francesca, Marrano, Claudia A, Mantegazza, Francesco, Carvalho-Wodarz, Cristiane, Fuhrmann, Gregor, Caneva, Enrico, Nicotra, Francesco, Lehr, Claus-Michael, and Russo, Laura

Abstract

By functionalizing the surface of PEG-liposomes with linkers bearing quaternary ammonium compounds (QACs), we generated novel bacteria disruptors with anti-adhesive properties and reduced cytotoxicity compared to free QACs. Furthermore, QAC-functionalized liposomes are a promising platform for future drug encapsulation. The QAC (11-mercaptoundecyl)-N,N,N-trimethylammonium bromide (MTAB) was attached to maleimide-functionalized liposomes (DSPE-PEG) via thiol linker. The MTAB-functionalized liposomes were physicochemically characterized and their biological activity, in terms of anti-adherence activity and biofilm prevention in Escherichia coli were assessed. The results showed that MTAB-functionalized liposomes inhibit bacterial adherence and biofilm formation while reducing MTAB toxicity.

Published
2020

28. Light scattered by model phantom bacteria reveals molecular interactions at their surface

Author

Ghetta, A., Prosperi, D., Mantegazza, F., Panza, L., Riva, S., and Bellini, T.

Subjects
Nanoparticles -- Research, Ligand binding (Biochemistry) -- Research, Science and technology
Abstract

Testing molecular interactions is an ubiquitous need in modern biology and molecular medicine. Here, we present a qualitative and quantitative method rooted in the basic properties of the scattering of light, enabling detailed measurement of ligand--receptor interactions occurring on the surface of colloids. The key factor is the use of receptor-coated nanospheres matched in refractive index with water and therefore optically undetectable ('phantom') when not involved in adhesion processes. At the occurrence of ligand binding at the receptor sites, optically unmatched material adsorbs on the nanoparticle surface, giving rise to an increment in their scattering cross section up to a maximum corresponding to saturated binding sites. The analysis of the scattering growth pattern enables extracting the binding affinity. This label-free method has been assessed through the determination of the binding constant of the antibiotic vancomycin with the tripeptide L-LyS-D-Ala-D-Ala and of the vancomycin dimerization constant. We shed light on the role of chelate effect and molecular hindrance in the activity of this glycopeptide. binding affinity | nanoparticles | vancomycin ligand-receptor recognition

Published
2005

30. 40-Tesla pulsed-eld cryomagnet for single crystal neutron diffraction

Author

Duc, F., Tonon, X., BILLETTE, Julien, Rollet, B., Knafo, William, Bourdarot, Frédéric, Beard, Jerome, Mantegazza, F., Longuet, B., J.E., Lorenzo, Lelievre-Berna, E., Frings, P., Regnault, L.P., Laboratoire national des champs magnétiques intenses - Toulouse (LNCMI), Institut National des Sciences Appliquées - Toulouse (INSA Toulouse), and Institut National des Sciences Appliquées (INSA)-Institut National des Sciences Appliquées (INSA)-Centre National de la Recherche Scientifique (CNRS)

Subjects
[PHYS.COND.CM-S]Physics [physics]/Condensed Matter [cond-mat]/Superconductivity [cond-mat.supr-con], ComputingMilieux_MISCELLANEOUS
Abstract

International audience

Published
2019

33. Nanomechanics of Diaminopurine-Substituted DNA

Author

Cristofalo, M, Kovari, D, Corti, R, Salerno, D, Cassina, V, Dunlap, D, Mantegazza, F, CRISTOFALO, MATTEO, Cristofalo, M, Kovari, D, Corti, R, Salerno, D, Cassina, V, Dunlap, D, Mantegazza, F, and CRISTOFALO, MATTEO

Abstract

2,6-diaminopurine (DAP) is a nucleobase analog of adenine. When incorporated into double-stranded DNA (dsDNA), it forms three hydrogen bonds with thymine. Rare in nature, DAP substitution alters the physical characteristics of a DNA molecule without sacrificing sequence specificity. Here, we show that in addition to stabilizing double-strand hybridization, DAP substitution also changes the mechanical and conformational properties of dsDNA. Thermal melting experiments reveal that DAP substitution raises melting temperatures without diminishing sequence-dependent effects. Using a combination of atomic force microscopy (AFM), magnetic tweezer (MT) nanomechanical assays, and circular dichroism spectroscopy, we demonstrate that DAP substitution increases the flexural rigidity of dsDNA yet also facilitates conformational shifts, which manifest as changes in molecule length. DAP substitution increases both the static and dynamic persistence length of DNA (measured by AFM and MT, respectively). In the static case (AFM), in which tension is not applied to the molecule, the contour length of DAP-DNA appears shorter than wild-type (WT)-DNA; under tension (MT), they have similar dynamic contour lengths. At tensions above 60 pN, WT-DNA undergoes characteristic overstretching because of strand separation (tension-induced melting) and spontaneous adoption of a conformation termed S-DNA. Cyclic overstretching and relaxation of WT-DNA at near-zero loading rates typically yields hysteresis, indicative of tension-induced melting; conversely, cyclic stretching of DAP-DNA showed little or no hysteresis, consistent with the adoption of the S-form, similar to what has been reported for GC-rich sequences. However, DAP-DNA overstretching is distinct from GC-rich overstretching in that it happens at a significantly lower tension. In physiological salt conditions, evenly mixed AT/GC DNA typically overstretches around 60 pN. GC-rich sequences overstretch at similar if not slightly higher tensi

Published
2019

34. Mechanical properties of Chronic Lymphocytic Leukaemia cells

Author

Buglione, E, Scielzo, C, Barbaglio, F, Scarfò, L, Cassina, V, Mantegazza, F, Enrico Buglione, Cristina Scielzo, Federica Barbaglio, Lydia Scarfò, Valeria Cassina, Francesco Mantegazza, Buglione, E, Scielzo, C, Barbaglio, F, Scarfò, L, Cassina, V, Mantegazza, F, Enrico Buglione, Cristina Scielzo, Federica Barbaglio, Lydia Scarfò, Valeria Cassina, and Francesco Mantegazza

Abstract

Chronic lymphocytic leukaemia (CLL) is one of the most common and incurable B cell leukaemia. CLL cells traffic between peripheral blood, bone marrow and secondary lymphatic tissues where interact with a supportive microenvironment. These processes are affected by the mechanical forces present in the environment and by the capability of the cells to sense the forces. In order to migrate from a fluid environment like the blood to a significantly more viscous surrounding, B lymphocytes need to modify their cytoskeleton and consequently their rigidity. Those processes are known to be regulated by Hematopoietic-cell-specific Lyn-substrate-1 (HS1) protein, which promotes the homing processes and is involved in cell-cell communication and focal adhesions formation. From a nanomechanical point of view, cytoskeleton rearrangements can be observed as a difference in the force distribution along the cell and, ultimately, as a change of the overall rigidity of the cell. To measure this change, we used Atomic Force Microscopy (AFM) as an external pressure stimulus and we observed the cell deformation, which finally determines the value of its stiffness. By AFM we measured primary B lymphocytes from selected CLL patients and healthy donors, and we found a significant decrease of stiffness in leukaemia cells compared to healthy ones. We also performed Real-Time Deformability Cytometry (RT-DC) to test the rigidity of cells in flow condition. Finally, we tested the effect of a first line drug (Ibrutinib) on the mechanical properties of leukemic and healthy cells with both techniques in order to understand its effect on the mechanics of cells along their path to development of the disease.

Published
2019

35. HS1 protein role in regulating mechanical properties of Chronic Lymphocytic Leukaemia cells

Author

Buglione, E, Cassina, V, Corti, R, Barbaglio, F, Scarfò, L, Mantegazza, F, Scielzo, C, E. Buglione, V. Cassina, R. Corti, F. Barbaglio, L. Scarfò, F. Mantegazza, C. Scielzo, Buglione, E, Cassina, V, Corti, R, Barbaglio, F, Scarfò, L, Mantegazza, F, Scielzo, C, E. Buglione, V. Cassina, R. Corti, F. Barbaglio, L. Scarfò, F. Mantegazza, and C. Scielzo

Abstract

Chronic lymphocytic leukaemia (CLL) is one of the most common and incurable B cell leukaemia. CLL cells traffic between peripheral blood, bone marrow and secondary lymphatic tissues where interact with the microenvironment. These processes are affected by the mechanical-forces present in the environment and by the capability of the cells to sense the forces. In this context we demonstrated that Hematopoietic-cell-specific Lyn-substrate-1 (HS1) protein is a cytoskeletal regulator and a prognostic factor in CLL. We proved that interfering with HS1 expression impacts on the progression and homing of CLL cells. To further study HS1 role in CLL we knocked-down HS1 expression by CRISPR/CAS9 technology in a CLL cells line (MEC1). By RNAseq and network analysis on MEC1HS1ko vs MEC1UT we found that HS1-KO significantly affects the expression of molecules involved in: cell motility, adhesion, cell-cell communication, focal adhesion formation. In particular, we found LEF1, FAK and Cortactin genes are up-regulated in MEC1HS1ko, suggesting their involvement in the mechano-signalling pathway. To study the nano-mechanical properties of those cells we are performing AFM measurements of single cell. The results provide an evaluation of the cell stiffness that is related to its deformation in response to an externally applied force. By AFM we found that MEC1HS1ko cells are less stiff if compared with MEC1UT cells. This results demonstrates a putative role for HS1 in regulating the mechanical properties of CLL cells. Due to the prognostic value of HS1 we are currently performing AFM measurement on selected patients and healthy B cells. We are planning to study in depth the role of HS1 in regulating the mechanical properties of the leukemic cells and how this contributes to leukemia development, progression and resistance to therapy.

Published
2019

36. HS1 protein in regulating mechanical properties of Chronic Lymphocytic Leukaemia cells

Author

Buglione, E, Cassina, V, Corti, R, Barbaglio, F, Scarfò, L, Mantegazza, F, Scielzo, C, Enrico Buglione, Valeria Cassina, Roberta Corti, Federica Barbaglio, Lydia Scarfò, Francesco Mantegazza, Cristina Scielzo, Buglione, E, Cassina, V, Corti, R, Barbaglio, F, Scarfò, L, Mantegazza, F, Scielzo, C, Enrico Buglione, Valeria Cassina, Roberta Corti, Federica Barbaglio, Lydia Scarfò, Francesco Mantegazza, and Cristina Scielzo

Abstract

Chronic lymphocytic leukaemia (CLL) is one of the most common and incurable B cell leukaemia. CLL cells traffic between peripheral blood, bone marrow and secondary lymphatic tissues where interact with the microenvironment. These processes are affected by the mechanical-forces present in the environment and by the capability of the cells to sense the forces. In this context we demonstrated that Hematopoietic-cell-specific Lyn-substrate-1 (HS1) protein is a cytoskeletal regulator and a prognostic factor in CLL. We proved that interfering with HS1 expression impacts on the progression and homing of CLL cells. To further study HS1 role in CLL we knocked-down HS1 expression by CRISPR/CAS9 technology in a CLL cells line (MEC1). By RNAseq and network analysis on MEC1HS1ko vs MEC1UT we found that HS1-KO significantly affects the expression of molecules involved in: cell motility, adhesion, cell-cell communication, focal adhesion formation. In particular, we found LEF1, FAK and Cortactin genes are up-regulated in MEC1HS1ko, suggesting their involvement in the mechano-signalling pathway. To study the nano-mechanical properties of those cells we are performing AFM measurements of single cell. The results provide an evaluation of the cell stiffness that is related to its deformation in response to an externally applied force. By AFM we found that MEC1HS1ko cells are less stiff if compared with MEC1UT cells. This results demonstrates a putative role for HS1 in regulating the mechanical properties of CLL cells. Due to the prognostic value of HS1 we are currently performing AFM measurement on selected patients and healthy B cells.

Published
2019

37. Capacitive Mixing for Harvesting the Free Energy of Solutions at Different Concentrations

Author

Rica, R.A., Ziano, R., Salerno, D., Mantegazza, F., van Roij, R.H.H.G., Brogioli, D., Theoretical Physics, Sub Cond-Matter Theory, Stat & Comp Phys, Rica, R, Ziano, R, Salerno, D, Mantegazza, F, van Roij, R, Brogioli, D, Theoretical Physics, and Sub Cond-Matter Theory, Stat & Comp Phys

Subjects
Renewable energy, Materials science, Capacitive sensing, General Physics and Astronomy, lcsh:Astrophysics, 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, Electric charge, Ion, symbols.namesake, lcsh:QB460-466, capacitive mixing, lcsh:Science, 0105 earth and related environmental sciences, water salinity difference, Supercapacitor, Donnan potential, Dissipation, 021001 nanoscience & nanotechnology, free energy, Electrochemical energy conversion, lcsh:QC1-999, 6. Clean water, Chemical engineering, Electrode, symbols, lcsh:Q, 0210 nano-technology, lcsh:Physics
Abstract

An enormous dissipation of the order of 2 kJ/L takes place during the natural mixing process of fresh river water entering the salty sea. “Capacitive mixing” is a promising technique to efficiently harvest this energy in an environmentally clean and sustainable fashion. This method has its roots in the ability to store a very large amount of electric charge inside supercapacitor or battery electrodes dipped in a saline solution. Three different schemes have been studied so far, namely, Capacitive Double Layer Expansion (CDLE), Capacitive Donnan Potential (CDP) and Mixing Entropy Battery (MEB), respectively based on the variation upon salinity change of the electric double layer capacity, on the Donnan membrane potential, and on the electrochemical energy of intercalated ions.

Published
2013

38. Translocation pathways for inhaled asbestos fibers

Author

Mantegazza F, Sancini G, Miserocchi G, and Chiappino Gerolamo

Subjects
Industrial medicine. Industrial hygiene, RC963-969, Public aspects of medicine, RA1-1270
Abstract

Abstract We discuss the translocation of inhaled asbestos fibers based on pulmonary and pleuro-pulmonary interstitial fluid dynamics. Fibers can pass the alveolar barrier and reach the lung interstitium via the paracellular route down a mass water flow due to combined osmotic (active Na+ absorption) and hydraulic (interstitial pressure is subatmospheric) pressure gradient. Fibers can be dragged from the lung interstitium by pulmonary lymph flow (primary translocation) wherefrom they can reach the blood stream and subsequently distribute to the whole body (secondary translocation). Primary translocation across the visceral pleura and towards pulmonary capillaries may also occur if the asbestos-induced lung inflammation increases pulmonary interstitial pressure so as to reverse the trans-mesothelial and trans-endothelial pressure gradients. Secondary translocation to the pleural space may occur via the physiological route of pleural fluid formation across the parietal pleura; fibers accumulation in parietal pleura stomata (black spots) reflects the role of parietal lymphatics in draining pleural fluid. Asbestos fibers are found in all organs of subjects either occupationally exposed or not exposed to asbestos. Fibers concentration correlates with specific conditions of interstitial fluid dynamics, in line with the notion that in all organs microvascular filtration occurs from capillaries to the extravascular spaces. Concentration is high in the kidney (reflecting high perfusion pressure and flow) and in the liver (reflecting high microvascular permeability) while it is relatively low in the brain (due to low permeability of blood-brain barrier). Ultrafine fibers (length < 5 μm, diameter < 0.25 μm) can travel larger distances due to low steric hindrance (in mesothelioma about 90% of fibers are ultrafine). Fibers translocation is a slow process developing over decades of life: it is aided by high biopersistence, by inflammation-induced increase in permeability, by low steric hindrance and by fibers motion pattern at low Reynolds numbers; it is hindered by fibrosis that increases interstitial flow resistances.

Published
2008
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41. 40-Tesla pulsed-field cryomagnet for single crystal neutron diffraction

Author

Duc, F., primary, Tonon, X., additional, Billette, J., additional, Rollet, B., additional, Knafo, W., additional, Bourdarot, F., additional, Béard, J., additional, Mantegazza, F., additional, Longuet, B., additional, Lorenzo, J. E., additional, Lelièvre-Berna, E., additional, Frings, P., additional, and Regnault, L.-P., additional

Published
2018
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42. Pretransitional behavior of a water in liquid crystal microemulsion close to the demixing transition: Evidence for intermicellar attraction mediated by paranematic fluctuations.

Author

Caggioni, M., Giacometti, A., Bellini, T., Clark, N. A., Mantegazza, F., and Maritan, A.

Subjects
LIQUID crystals, EMULSIONS, SEPARATION (Technology), LIGHT scattering, SURFACE active agents, OPTICAL reflection
Abstract

We present a study of a water-in-oil microemulsion in which surfactant coated water nanodroplets are dispersed in the isotropic phase of the thermotropic liquid-crystal penthyl-cyanobiphenyl (5CB). As the temperature is lowered below the isotropic to nematic phase transition of pure 5CB, the system displays a demixing transition leading to a coexistence of a droplet-rich isotropic phase with a droplet-poor nematic. The transition is anticipated, in the high T side, by increasing pretransitional fluctuations in 5CB molecular orientation and in the nanodroplet concentration. The observed phase behavior supports the notion that the nanosized droplets, while large enough for their statistical behavior to be probed via light scattering, are also small enough to act as impurities, disturbing the local orientational ordering of the liquid crystal and thus experiencing pretransitional attractive interaction mediated by paranematic fluctuations. The pretransitional behavior, together with the topology of the phase diagram, can be understood on the basis of a diluted Lebwohl–Lasher model which describes the nanodroplets simply as holes in the liquid crystal. [ABSTRACT FROM AUTHOR]

Published
2005
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43. Effect of ionic mobility on the enhanced dielectric and electro-optic susceptibility of suspensions: Theory and experiments.

Author

Arroyo, F. J., Delgado, A. V., Carrique, F., Jime´nez, M. L., Bellini, T., and Mantegazza, F.

Subjects
IONIC mobility, SUSPENSIONS (Chemistry), DIELECTRICS, ELECTROOPTICS
Abstract

It is a well-known fact that the presence of charged dispersed solid particles in an electrolyte solution considerably modifies the dielectric permittivity and conductivity of the system as compared to that of the pure dispersing medium. The enhanced conductivity of the electrical double layer, and its polarization under the action of the external field are responsible for that fact. A related phenomenon, which is also a manifestation of large induced dipole moments, is the enhanced electric birefringence (Kerr effect), which measures the electric torque on charged nonspherical colloids. Measurements of the Kerr constant are significant because a direct relationship exists between electrically induced birefringence and the particle's electric polarizability. In this work we analyze, from the experimental and theoretical points of view, the effects of coion and counterion mobility on the enhancement of both dielectric and Kerr constants: we show that, quite unexpectedly, the diffusion coefficient of coions has a large effect on both dielectric response and electric birefringence of the suspensions. To our knowledge, this effect had never been described before. Experimental data have been obtained on suspensions of various polymer particles, in different concentrations of NaCl and Na-salicylate: since the particles are anionic, this choice enables to assess the effects of the mobility of coions. We find that both the dielectric response and the Kerr effect are smaller (beyond experimental errors) in the presence of salicylate solutions. Experimental results and physical reasons for this behavior are discussed, and it is concluded that the classical theory of the low-frequency dielectric dispersion of colloidal systems provides a quantitative explanation for the coion effect on the dielectric constant. In the case of the Kerr effect, only qualitative arguments can be given in the low-frequency regime. In contrast, the high-frequency behavior is better justified in... [ABSTRACT FROM AUTHOR]

Published
2002
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44. Biophysical characterization of a binding site for TLQP-21, a naturally occurring peptide which induces resistance to obesity

Author

fehrentz, jean-alain, Cassina, V., Torsello, A., Tempestini, A., Salerno, D., Brogioli, D., Tamiazzo, L., Bresciani, E., Martinez, J., Fehrentz, J.A., Verdié, P., Omeljaniuk, R.J., Possenti, R., Rizzi, L., Locatelli, V., Mantegazza, F., Institut des Biomolécules Max Mousseron [Pôle Chimie Balard] (IBMM), Centre National de la Recherche Scientifique (CNRS)-Institut de Chimie du CNRS (INC)-Université de Montpellier (UM)-Ecole Nationale Supérieure de Chimie de Montpellier (ENSCM), Università degli Studi di Milano-Bicocca [Milano] (UNIMIB), dep of experimental, environmental medecine, Università degli Studi di Firenze = University of Florence [Firenze] (UNIFI), Instituto Nacional de Técnica Aeroespacial (INTA), Centre National de la Recherche Scientifique (CNRS), Cassina, V, Torsello, A, Tempestini, A, Salerno, D, Brogioli, D, Tamiazzo, L, Bresciani, E, Martinez, J, Fehrentz, J, Verdie, P, Omeljaniuk, R, Possenti, R, Rizzi, L, Locatelli, V, and Mantegazza, F

Subjects
Time Factors, CHO, Cell, Peptide, Ligands, Microscopy, Atomic Force, Biochemistry, Calcium in biology, Mice, Atomic force Microscopy (AFM), Ligand–receptor, 0302 clinical medicine, Cricetinae, Microscopy, Phase-Contrast, Receptor, ComputingMilieux_MISCELLANEOUS, chemistry.chemical_classification, 0303 health sciences, Chinese hamster ovary cell, Settore BIO/14, VGF, Biological activity, medicine.anatomical_structure, Hypothalamus, Biophysics, CHO Cells, Cleavage (embryo), Models, Biological, Settore BIO/09, Fluorescence, 03 medical and health sciences, Cell Adhesion, medicine, Animals, Obesity, Binding site, 030304 developmental biology, Binding Sites, Models, Statistical, TLQP-21, Cell Membrane, [SDV.BBM.BM]Life Sciences [q-bio]/Biochemistry, Molecular Biology/Molecular biology, Cell Biology, Peptide Fragments, Rats, chemistry, Calcium, Peptides, 030217 neurology & neurosurgery
Abstract

Recently, we demonstrated that TLQP-21 triggers lipolysis and induces resistance to obesity by reducing fat accumulation [1]. TLQP-21 is a 21 amino acid peptide cleavage product of the neuroprotein VGF and was first identified in rat brain. Although TLQP-21 biological activity and its molecular signaling is under active investigation, a receptor for TLQP-21 has not yet been characterized. We now demonstrate that TLQP-21 stimulates intracellular calcium mobilization in CHO cells. Furthermore, using Atomic Force Microscopy (AFM), we also provide evidence of TLQP-21 binding-site characteristics in CHO cells. AFM was used in force mapping mode equipped with a cantilever suitably functionalized with TLQP-21. Attraction of this functionalized probe to the cell surface was specific and consistent with the biological activity of TLQP-21; by contrast, there was no attraction of a probe functionalized with biologically inactive analogues. We detected interaction of the peptide with the binding-site by scanning the cell surface with the cantilever tip. The attractive force between TLQP-21 and its binding site was measured, statistically analyzed and quantified at approximately 40 pN on average, indicating a single class of binding sites. Furthermore we observed that the distribution of these binding sites on the surface was relatively uniform. © 2012 Elsevier B.V. All rights reserved.

Published
2013

45. Effects of cytosine methylation on DNA morphology: An atomic force microscopy study

Author

Cassina, V, Manghi, M, Salerno, D, Tempestini, A, Iadarola, V, Nardo, L, Brioschi, S, Mantegazza, F, CASSINA, VALERIA, SALERNO, DOMENICO, TEMPESTINI, ALESSIA, NARDO, LUCA, BRIOSCHI, SIMONE, MANTEGAZZA, FRANCESCO, Cassina, V, Manghi, M, Salerno, D, Tempestini, A, Iadarola, V, Nardo, L, Brioschi, S, Mantegazza, F, CASSINA, VALERIA, SALERNO, DOMENICO, TEMPESTINI, ALESSIA, NARDO, LUCA, BRIOSCHI, SIMONE, and MANTEGAZZA, FRANCESCO

Abstract

Methylation is one of the most important epigenetic mechanisms in eukaryotes. As a consequence of cytosine methylation, the binding of proteins that are implicated in transcription to gene promoters is severely hindered, which results in gene regulation and, eventually, gene silencing. To date, the mechanisms by which methylation biases the binding affinities of proteins to DNA are not fully understood; however, it has been proposed that changes in double-strand conformations, such as stretching, bending, and over-twisting, as well as local variations in DNA stiffness/flexibility may play a role. The present work investigates, at the single molecule level, the morphological consequences of DNA methylation in vitro. By tracking the atomic force microscopy images of single DNA molecules, we characterize DNA conformations pertaining to two different degrees of methylation. In particular, we observe that methylation induces no relevant variations in DNA contour lengths, but produces measurable incremental changes in persistence lengths. Furthermore, we observe that for the methylated chains, the statistical distribution of angles along the DNA coordinate length is characterized by a double exponential decay, in agreement with what is predicted for polyelectrolytes. The results reported herein support the claim that the biological consequences of the methylation process, specifically difficulties in protein-DNA binding, are at least partially due to DNA conformation modifications.

Published
2016

46. Methods for Elucidation of DNA-Anticancer Drug Interactions and their Applications in the Development of New Drugs

Author

Misiak, M, Mantegazza, F, Beretta, G, MANTEGAZZA, FRANCESCO, Beretta, G., Misiak, M, Mantegazza, F, Beretta, G, MANTEGAZZA, FRANCESCO, and Beretta, G.

Abstract

DNA damaging agents including anthracyclines, camptothecins and platinum drugs are among most frequently used drugs in the chemotherapeutic routine. Due to their relatively low selectivity for cancer cells, administration is associated with adverse side effects, whereas the inherent genotoxicity of these drugs is associated with risk of developing secondary cancers. Development of new drugs, which could be spared of these drawbacks and at the same would characterize with improved antitumor efficacy, remains challenging yet vitally important task. These properties are in large part dictated by the selectivity of interaction between the drug and DNA and in this way the studies aimed at elucidating the complex interactions between ligand and DNA represent a key step in the drug development. Studies of the drug-DNA interactions encompass determination of DNA sequence specificity and mode of DNA binding as well as kinetic, dynamic and structural parameters of binding. Here, we consider the types of interactions between small molecule ligands and polynucleotides, how they are affected by DNA sequence and structure and what is their significance for the antitumor activity. Based on this knowledge we discuss the wide array of experimental techniques available to researchers for studying drug-DNA interactions, which include absorption and emission spectroscopies, NMR, magnetic and optical tweezers or atomic force microscopy. We show, using the clinical and experimental anticancer drugs as examples, how these methods provide various types of information and at the same time complement each other to provide full picture of drug-DNA interaction and aid in the development of new drugs

Published
2016

47. Platinum-Based Drugs and DNA Interactions Studied by Single-Molecule and Bulk Measurements

Author

Salerno, D, Beretta, G, Zanchetta, G, Brioschi, S, Cristofalo, M, Missana, N, Nardo, L, Cassina, V, Tempestini, A, Giovannoni, R, Cerrito, M, Zaffaroni, N, Bellini, T, Mantegazza, F, SALERNO, DOMENICO, BRIOSCHI, SIMONE, CRISTOFALO, MATTEO, MISSANA, NATALIA, NARDO, LUCA, CASSINA, VALERIA, TEMPESTINI, ALESSIA, GIOVANNONI, ROBERTO, CERRITO, MARIA GRAZIA, MANTEGAZZA, FRANCESCO, Salerno, D, Beretta, G, Zanchetta, G, Brioschi, S, Cristofalo, M, Missana, N, Nardo, L, Cassina, V, Tempestini, A, Giovannoni, R, Cerrito, M, Zaffaroni, N, Bellini, T, Mantegazza, F, SALERNO, DOMENICO, BRIOSCHI, SIMONE, CRISTOFALO, MATTEO, MISSANA, NATALIA, NARDO, LUCA, CASSINA, VALERIA, TEMPESTINI, ALESSIA, GIOVANNONI, ROBERTO, CERRITO, MARIA GRAZIA, and MANTEGAZZA, FRANCESCO

Abstract

Platinum-containing molecules are widely used as anticancer drugs. These molecules exert cytotoxic effects by binding to DNA through various mechanisms. The binding between DNA and platinum-based drugs hinders the opening of DNA, and therefore, DNA duplication and transcription are severely hampered. Overall, impeding the above-mentioned important DNA mechanisms results in irreversible DNA damage and the induction of apoptosis. Several molecules, including multinuclear platinum compounds, belong to the family of platinum drugs, and there is a body of research devoted to developing more efficient and less toxic versions of these compounds. In this study, we combined different biophysical methods, including single-molecule assays (magnetic tweezers) and bulk experiments (ultraviolet absorption for thermal denaturation) to analyze the differential stability of double-stranded DNA in complex with either cisplatin or multinuclear platinum agents. Specifically, we analyzed how the binding of BBR3005 and BBR3464, two representative multinuclear platinum-based compounds, to DNA affects its stability as compared with cisplatin binding. Our results suggest that single-molecule approaches can provide insights into the drug-DNA interactions that underlie drug potency and provide information that is complementary to that generated from bulk analysis; thus, single-molecule approaches have the potential to facilitate the selection and design of optimized drug compounds. In particular, relevant differences in DNA stability at the single-molecule level are demonstrated by analyzing nanomechanically induced DNA denaturation. On the basis of the comparison between the single-molecule and bulk analyses, we suggest that transplatinated drugs are able to locally destabilize small portions of the DNA chain, whereas other regions are stabilized.

Published
2016

48. Novel Antitransferrin Receptor Antibodies Improve the Blood-Brain Barrier Crossing Efficacy of Immunoliposomes

Author

Gregori, M, Orlando, A, Re, F, Sesana, M, Nardo, L, Salerno, D, Mantegazza, F, Salvati, E, Zito, A, Malavasi, F, Masserini, M, Cazzaniga, E, GREGORI, MARIA, ORLANDO, ANTONINA, RE, FRANCESCA, SESANA, MARIA SILVIA, NARDO, LUCA, SALERNO, DOMENICO, MANTEGAZZA, FRANCESCO, SALVATI, ELISA, MASSERINI, MASSIMO ERNESTO, CAZZANIGA, EMANUELA, Gregori, M, Orlando, A, Re, F, Sesana, M, Nardo, L, Salerno, D, Mantegazza, F, Salvati, E, Zito, A, Malavasi, F, Masserini, M, Cazzaniga, E, GREGORI, MARIA, ORLANDO, ANTONINA, RE, FRANCESCA, SESANA, MARIA SILVIA, NARDO, LUCA, SALERNO, DOMENICO, MANTEGAZZA, FRANCESCO, SALVATI, ELISA, MASSERINI, MASSIMO ERNESTO, and CAZZANIGA, EMANUELA

Abstract

Surface functionalization with antitransferrin receptor (TfR) mAbs has been suggested as the strategy to enhance the transfer of nanoparticles (NPs) across the blood-brain barrier (BBB) and to carry nonpermeant drugs from the blood into the brain. However, the efficiency of BBB crossing is currently too poor to be used in vivo. In the present investigation, we compared 6 different murine mAbs specific for different epitopes of the human TfR to identify the best performing one for the functionalization of NPs. For this purpose, we compared the ability of mAbs to cross an in vitro BBB model made of human brain capillary endothelial cells (hCMEC/D3). Liposomes functionalized with the best performing mAb (MYBE/4C1) were uptaken, crossed the BBB in vitro, and facilitated the BBB in vitro passage of doxorubicin, an anticancer drug, 3.9 folds more than liposomes functionalized with a nonspecific IgG, as assessed by confocal microscopy, radiochemical techniques, and fluorescence, and did not modify the cell monolayer structural or functional properties. These results show that MYBE/4C1 antihuman TfR mAb is a powerful resource for the enhancement of BBB crossing of NPs and is therefore potentially useful in the treatment of neurologic diseases and disorders including brain carcinomas.

Published
2016

49. Field-controlled optical profile of a waveguide having a liquid-crystalline core

Author

Marangoni, M, Osellame, R, Ramponi, R, Buscaglia, M, Bellini, T, Mantegazza, F, Mantegazza, F., Marangoni, M, Osellame, R, Ramponi, R, Buscaglia, M, Bellini, T, Mantegazza, F, and Mantegazza, F.

Abstract

The optical properties of a nematic liquid-crystal waveguide in a hybrid configuration have been dynamically reshaped in a straightforward and controlled way by applying an external electric field. The anisotropic refractive index profile of the waveguide has been determined for different electric-field strengths by means of m-lines spectroscopy. The experimental results are in very good agreement with the values predicted by a simple model that takes into account the dielectric, optical, and elastic properties of the liquid-crystal guiding layer. (C) 2002 American Institute of Physics

Published
2002

50. Effect of ionic mobility on the enhanced dielectric and electro-optic susceptibility of suspensions: Theory and experiments

Author

Arroyo, F, Delgado, A, Carrique, F, Jimenez, M, Bellini, T, Mantegazza, F, Arroyo, FJ, Delgado, AV, Jimenez, ML, Mantegazza, F., Arroyo, F, Delgado, A, Carrique, F, Jimenez, M, Bellini, T, Mantegazza, F, Arroyo, FJ, Delgado, AV, Jimenez, ML, and Mantegazza, F.

Abstract

It is a well-known fact that the presence of charged dispersed solid particles in an electrolyte solution considerably modifies the dielectric permittivity and conductivity of the system as compared to that of the pure dispersing medium. The enhanced conductivity of the electrical double layer, and its polarization under the action of the external field are responsible for that fact. A related phenomenon, which is also a manifestation of large induced dipole moments, is the enhanced electric birefringence (Kerr effect), which measures the electric torque on charged nonspherical colloids. Measurements of the Kerr constant are significant because a direct relationship exists between electrically induced birefringence and the particle's electric polarizability. In this work we analyze, from the experimental and theoretical points of view, the effects of coion and counterion mobility on the enhancement of both dielectric and Kerr constants: we show that, quite unexpectedly, the diffusion coefficient of coions has a large effect on both dielectric response and electric birefringence of the suspensions. To our knowledge, this effect had never been described before. Experimental data have been obtained on suspensions of various polymer particles, in different concentrations of NaCl and Na-salicylate: since the particles are anionic, this choice enables to assess the effects of the mobility of coions. We find that both the dielectric response and the Kerr effect are smaller (beyond experimental errors) in the presence of salicylate solutions. Experimental results and physical reasons for this behavior are discussed, and it is concluded that the classical theory of the low-frequency dielectric dispersion of colloidal systems provides a quantitative explanation for the coion effect on the dielectric constant. In the case of the Kerr effect, only qualitative arguments can be given in the low-frequency regime. In contrast, the high-frequency behavior is better justified in term

Published
2002

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