Your search keyword '"Palestini Paola"' showing total 10 results

1. Role of lipid rafts and GM1 in the segregation and processing of Prion Protein

Author

Botto, L, Cunati, D, Coco, S, Sesana, M, Bulbarelli, A, Biasini, E, Colombo, L, Negro, A, Chiesa, R, Masserini, M, Palestini, P, BOTTO, LAURA MARIA, CUNATI, DIANA, COCO, SILVIA, SESANA, MARIA SILVIA, BULBARELLI, ALESSANDRA, MASSERINI, MASSIMO ERNESTO, PALESTINI, PAOLA NOVERINA ADA, Botto, L, Cunati, D, Coco, S, Sesana, M, Bulbarelli, A, Biasini, E, Colombo, L, Negro, A, Chiesa, R, Masserini, M, Palestini, P, BOTTO, LAURA MARIA, CUNATI, DIANA, COCO, SILVIA, SESANA, MARIA SILVIA, BULBARELLI, ALESSANDRA, MASSERINI, MASSIMO ERNESTO, and PALESTINI, PAOLA NOVERINA ADA

Published

2014

2. Repeated Intratracheal Instillation of PM10 Induces Lipid Reshaping in Lung Parenchyma and in Extra-Pulmonary Tissues

Author

Rizzo, A, Corsetto, P, Farina, F, Montorfano, G, Pania, F, Battaglia, C, Sancini, G, Palestini, P, Rizzo, AM, Corsetto, PA, FARINA, FRANCESCA, SANCINI, GIULIO ALFREDO, PALESTINI, PAOLA NOVERINA ADA, Rizzo, A, Corsetto, P, Farina, F, Montorfano, G, Pania, F, Battaglia, C, Sancini, G, Palestini, P, Rizzo, AM, Corsetto, PA, FARINA, FRANCESCA, SANCINI, GIULIO ALFREDO, and PALESTINI, PAOLA NOVERINA ADA

Abstract

Adverse health effects of air pollution attributed mainly to airborne particulate matter have been well documented in the last couple of decades. Short term exposure, referring to a few hours exposure, to high ambient PM10 concentration is linked to increased hospitalization rates for cardiovascular events, typically 24 h after air pollution peaks. Particulate matter exposure is related to pulmonary and cardiovascular diseases, with increased oxidative stress and inflammatory status. Previously, we have demonstrated that repeated intratracheal instillation of PM10sum in BALB/c mice leads to respiratory tract inflammation, creating in lung a condition which could potentially evolve in a systemic toxic reaction. Additionally, plasma membrane and tissue lipids are easily affected by oxidative stress and directly correlated with inflammatory products. With this aim, in the present investigation using the same model, we analyzed the toxic potential of PM10sum exposure on lipid plasma membrane composition, lipid peroxidation and the mechanisms of cells protection in multiple organs such as lung, heart, liver and brain. Obtained results indicated that PM10 exposure led to lung lipid reshaping, in particular phospholipid and cholesterol content increases; concomitantly, the generation of oxidative stress caused lipid peroxidation. In liver we found significant changes in lipid content, mainly due to an increase of phosphatidylcholine, and in total fatty acid composition with a more pronounced level of docosahexaenoic acid; these changes were statistically correlated to lung molecular markers. Heart and brain were similarly affected; heart was significantly enriched in triglycerides in half of the PM10sum treated mice. These results demonstrated a direct involvement of PM10sum in affecting lipid metabolism and oxidative stress in peripheral tissues that might be related to the serious systemic air-pollution effects on human health.

Published

2014

3. Health Risk Assessment for Air Pollutants: Alterations in Lung and Cardiac Gene Expression in Mice Exposed to Milano Winter Fine Particulate Matter (PM2.5)

Author

Sancini, G, Farina, F, Battaglia, C, Cifola, I, Mangano, E, Mantecca, P, Camatini, M, Palestini, P, SANCINI, GIULIO ALFREDO, FARINA, FRANCESCA, MANTECCA, PARIDE, CAMATINI, MARINA CARLA, PALESTINI, PAOLA NOVERINA ADA, Sancini, G, Farina, F, Battaglia, C, Cifola, I, Mangano, E, Mantecca, P, Camatini, M, Palestini, P, SANCINI, GIULIO ALFREDO, FARINA, FRANCESCA, MANTECCA, PARIDE, CAMATINI, MARINA CARLA, and PALESTINI, PAOLA NOVERINA ADA

Abstract

Oxidative stress, pulmonary and systemic inflammation, endothelial cell dysfunction, atherosclerosis and cardiac autonomic dysfunction have been linked to urban particulate matter exposure. The chemical composition of airborne pollutants in Milano is similar to those of other European cities though with a higher PM2.5 fraction. Milano winter fine particles (PM2.5win) are characterized by the presence of nitrate, organic carbon fraction, with high amount of polycyclic aromatic hydrocarbons and elements such as Pb, Al, Zn, V, Fe, Cr and others, with a negligible endotoxin presence. In BALB/c mice, we examined, at biochemical and transcriptomic levels, the adverse effects of repeated Milano PM2.5win exposure in lung and heart. We found that ET-1, Hsp70, Cyp1A1, Cyp1B1 and Hsp-70, HO-1, MPO respectively increased within lung and heart of PM2.5win-treated mice. The PM2.5win exposure had a strong impact on global gene expression of heart tissue (181 upregulated and 178 down-regulated genes) but a lesser impact on lung tissue (14 up-regulated genes and 43 downregulated genes). Focusing on modulated genes, in lung we found two- to three-fold changes of those genes related to polycyclic aromatic hydrocarbons exposure and calcium signalling. Within heart the most striking aspect is the twofold to threefold increase in collagen and laminin related genes as well as in genes involved in calcium signaling. The current study extends our previous findings, showing that repeated instillations of PM2.5win trigger systemic adverse effects. PM2.5win thus likely poses an acute threat primarily to susceptible people, such as the elderly and those with unrecognized coronary artery or structural heart disease. The study of genomic responses will improve understanding of disease mechanisms and enable future clinical testing of interventions against the toxic effects of air pollutant

Published

2014

4. Milano Summer Particulate Matter (PM10) Triggers Lung Inflammation and Extra Pulmonary Adverse Events in Mice

Author

Farina, F, Sancini, G, Battaglia, C, Tinaglia, V, Mantecca, P, Camatini, M, Palestini, P, FARINA, FRANCESCA, SANCINI, GIULIO ALFREDO, MANTECCA, PARIDE, CAMATINI, MARINA CARLA, PALESTINI, PAOLA NOVERINA ADA, Farina, F, Sancini, G, Battaglia, C, Tinaglia, V, Mantecca, P, Camatini, M, Palestini, P, FARINA, FRANCESCA, SANCINI, GIULIO ALFREDO, MANTECCA, PARIDE, CAMATINI, MARINA CARLA, and PALESTINI, PAOLA NOVERINA ADA

Published

2013

5. Type-1 cannabinoid receptors reduce membrane fluidity of capacitated boar sperm by impairing their activation by bicarbonate.

Author

Barboni, B, Bernabò, N, Palestini, P, Botto, L, Pistilli, M, Charini, M, Tettamanti, E, Battista, N, Maccarrone, M, Mattioli, M, Pistilli, MG, Mattioli, M., PALESTINI, PAOLA NOVERINA ADA, BOTTO, LAURA MARIA, Barboni, B, Bernabò, N, Palestini, P, Botto, L, Pistilli, M, Charini, M, Tettamanti, E, Battista, N, Maccarrone, M, Mattioli, M, Pistilli, MG, Mattioli, M., PALESTINI, PAOLA NOVERINA ADA, and BOTTO, LAURA MARIA

Abstract

Background: Mammalian spermatozoa acquire their full fertilizing ability (so called capacitation) within the female genital tract, where they are progressively exposed to inverse gradients of inhibiting and stimulating molecules. Methodology/Principal Findings: In the present research, the effect on this process of anandamide, an endocannabinoid that can either activate or inhibit cannabinoid receptors depending on its concentration, and bicarbonate, an oviductal activatory molecule, was assessed, in order to study the role exerted by the type 1 cannabinoid receptor (CB1R) in the process of lipid membrane remodeling crucial to complete capacitation. To this aim, boar sperm were incubated in vitro under capacitating conditions (stimulated by bicarbonate) in the presence or in the absence of methanandamide (Met-AEA), a non-hydrolysable analogue of anandamide. The CB1R involvement was studied by using the specific inhibitor (SR141716) or mimicking its activation by adding a permeable cAMP analogue (8Br-cAMP). By an immunocytochemistry approach it was shown that the Met-AEA inhibits the bicarbonate-dependent translocation of CB1R from the post-equatorial to equatorial region of sperm head. In addition it was found that Met-AEA is able to prevent the bicarbonate-induced increase in membrane disorder and the cholesterol extraction, both preliminary to capacitation, acting through a CB1R-cAMP mediated pathway, as indicated by MC540 and filipin staining, EPR spectroscopy and biochemical analysis on whole membranes (CB1R activity) and on membrane enriched fraction (C/P content and anisotropy). Conclusions/Significance: Altogether, these data demonstrate that the endocannabinoid system strongly inhibits the process of sperm capacitation, acting as membrane stabilizing agent, thus increasing the basic knowledge on capacitation related signaling and potentially opening new perspectives in diagnostics and therapeutics of male infertility

Published

2011

6. Health Risk Assessment for Air Pollutants: Alterations in Lung and Cardiac Gene Expression in Mice Exposed to Milano Winter Fine Particulate Matter (PM2.5).

Author

Sancini, Giulio, Farina, Francesca, Battaglia, Cristina, Cifola, Ingrid, Mangano, Eleonora, Mantecca, Paride, Camatini, Marina, and Palestini, Paola

Subjects

HEALTH risk assessment, AIR pollutants, GENE expression, OXIDATIVE stress, ATHEROSCLEROSIS, PARTICULATE matter

Abstract

Oxidative stress, pulmonary and systemic inflammation, endothelial cell dysfunction, atherosclerosis and cardiac autonomic dysfunction have been linked to urban particulate matter exposure. The chemical composition of airborne pollutants in Milano is similar to those of other European cities though with a higher PM2.5 fraction. Milano winter fine particles (PM2.5win) are characterized by the presence of nitrate, organic carbon fraction, with high amount of polycyclic aromatic hydrocarbons and elements such as Pb, Al, Zn, V, Fe, Cr and others, with a negligible endotoxin presence. In BALB/c mice, we examined, at biochemical and transcriptomic levels, the adverse effects of repeated Milano PM2.5win exposure in lung and heart. We found that ET-1, Hsp70, Cyp1A1, Cyp1B1 and Hsp-70, HO-1, MPO respectively increased within lung and heart of PM2.5win-treated mice. The PM2.5win exposure had a strong impact on global gene expression of heart tissue (181 up-regulated and 178 down-regulated genes) but a lesser impact on lung tissue (14 up-regulated genes and 43 down-regulated genes). Focusing on modulated genes, in lung we found two- to three-fold changes of those genes related to polycyclic aromatic hydrocarbons exposure and calcium signalling. Within heart the most striking aspect is the twofold to threefold increase in collagen and laminin related genes as well as in genes involved in calcium signaling. The current study extends our previous findings, showing that repeated instillations of PM2.5win trigger systemic adverse effects. PM2.5win thus likely poses an acute threat primarily to susceptible people, such as the elderly and those with unrecognized coronary artery or structural heart disease. The study of genomic responses will improve understanding of disease mechanisms and enable future clinical testing of interventions against the toxic effects of air pollutant. [ABSTRACT FROM AUTHOR]

Published

2014

7. Repeated Intratracheal Instillation of PM10 Induces Lipid Reshaping in Lung Parenchyma and in Extra-Pulmonary Tissues.

Author

Rizzo, Angela Maria, Corsetto, Paola Antonia, Farina, Francesca, Montorfano, Gigliola, Pani, Giuseppe, Battaglia, Cristina, Sancini, Giulio, and Palestini, Paola

Subjects

AIR pollution, HEALTH, LUNG diseases, HOSPITAL care, OXIDATIVE stress, LIPID peroxidation (Biology), LIPID metabolism

Abstract

Adverse health effects of air pollution attributed mainly to airborne particulate matter have been well documented in the last couple of decades. Short term exposure, referring to a few hours exposure, to high ambient PM10 concentration is linked to increased hospitalization rates for cardiovascular events, typically 24 h after air pollution peaks. Particulate matter exposure is related to pulmonary and cardiovascular diseases, with increased oxidative stress and inflammatory status. Previously, we have demonstrated that repeated intratracheal instillation of PM10sum in BALB/c mice leads to respiratory tract inflammation, creating in lung a condition which could potentially evolve in a systemic toxic reaction. Additionally, plasma membrane and tissue lipids are easily affected by oxidative stress and directly correlated with inflammatory products. With this aim, in the present investigation using the same model, we analyzed the toxic potential of PM10sum exposure on lipid plasma membrane composition, lipid peroxidation and the mechanisms of cells protection in multiple organs such as lung, heart, liver and brain. Obtained results indicated that PM10 exposure led to lung lipid reshaping, in particular phospholipid and cholesterol content increases; concomitantly, the generation of oxidative stress caused lipid peroxidation. In liver we found significant changes in lipid content, mainly due to an increase of phosphatidylcholine, and in total fatty acid composition with a more pronounced level of docosahexaenoic acid; these changes were statistically correlated to lung molecular markers. Heart and brain were similarly affected; heart was significantly enriched in triglycerides in half of the PM10sum treated mice. These results demonstrated a direct involvement of PM10sum in affecting lipid metabolism and oxidative stress in peripheral tissues that might be related to the serious systemic air-pollution effects on human health. [ABSTRACT FROM AUTHOR]

Published

2014

8. Role of Lipid Rafts and GM1 in the Segregation and Processing of Prion Protein.

Author

Botto, Laura, Cunati, Diana, Coco, Silvia, Sesana, Silvia, Bulbarelli, Alessandra, Biasini, Emiliano, Colombo, Laura, Negro, Alessandro, Chiesa, Roberto, Masserini, Massimo, and Palestini, Paola

Subjects

LIPID rafts, GANGLIOSIDES, PRION diseases, NERVOUS system, PROTEIN expression, GLYCOLIPIDS, SPHINGOLIPIDS

Abstract

The prion protein (PrPC) is highly expressed within the nervous system. Similar to other GPI-anchored proteins, PrPC is found in lipid rafts, membrane domains enriched in cholesterol and sphingolipids. PrPC raft association, together with raft lipid composition, appears essential for the conversion of PrPC into the scrapie isoform PrPSc, and the development of prion disease. Controversial findings were reported on the nature of PrPC-containing rafts, as well as on the distribution of PrPC between rafts and non-raft membranes. We investigated PrPC/ganglioside relationships and their influence on PrPC localization in a neuronal cellular model, cerebellar granule cells. Our findings argue that in these cells at least two PrPC conformations coexist: in lipid rafts PrPC is present in the native folding (α-helical), stabilized by chemico-physical condition, while it is mainly present in other membrane compartments in a PrPSc-like conformation. We verified, by means of antibody reactivity and circular dichroism spectroscopy, that changes in lipid raft-ganglioside content alters PrPC conformation and interaction with lipid bilayers, without modifying PrPC distribution or cleavage. Our data provide new insights into the cellular mechanism of prion conversion and suggest that GM1-prion protein interaction at the cell surface could play a significant role in the mechanism predisposing to pathology. [ABSTRACT FROM AUTHOR]

Published

2014

9. Milano Summer Particulate Matter (PM10) Triggers Lung Inflammation and Extra Pulmonary Adverse Events in Mice.

Author

Farina, Francesca, Sancini, Giulio, Battaglia, Cristina, Tinaglia, Valentina, Mantecca, Paride, Camatini, Marina, and Palestini, Paola

Subjects

PARTICULATE matter, ADVERSE health care events, CARDIOVASCULAR disease related mortality, AIR pollution, CENTRAL nervous system diseases, BLOOD testing, IMMUNE system, LABORATORY mice

Abstract

Recent studies have suggested a link between particulate matter (PM) exposure and increased mortality and morbidity associated with pulmonary and cardiovascular diseases; accumulating evidences point to a new role for air pollution in CNS diseases. The purpose of our study is to investigate PM10sum effects on lungs and extra pulmonary tissues. Milano PM10sum has been intratracheally instilled into BALB/c mice. Broncho Alveolar Lavage fluid, lung parenchyma, heart and brain were screened for markers of inflammation (cell counts, cytokines, ET-1, HO-1, MPO, iNOS), cytotoxicity (LDH, ALP, Hsp70, Caspase8-p18, Caspase3-p17) for a putative pro-carcinogenic marker (Cyp1B1) and for TLR4 pathway activation. Brain was also investigated for CD68, TNF-α, GFAP. In blood, cell counts were performed while plasma was screened for endothelial activation (sP-selectin, ET-1) and for inflammation markers (TNF-α, MIP-2, IL-1β, MPO). Genes up-regulation (HMOX1, Cyp1B1, IL-1β, MIP-2, MPO) and miR-21 have been investigated in lungs and blood. Inflammation in the respiratory tract of PM10sum-treated mice has been confirmed in BALf and lung parenchyma by increased PMNs percentage, increased ET-1, MPO and cytokines levels. A systemic spreading of lung inflammation in PM10sum-treated mice has been related to the increased blood total cell count and neutrophils percentage, as well as to increased blood MPO. The blood-endothelium interface activation has been confirmed by significant increases of plasma ET-1 and sP-selectin. Furthermore PM10sum induced heart endothelial activation and PAHs metabolism, proved by increased ET-1 and Cyp1B1 levels. Moreover, PM10sum causes an increase in brain HO-1 and ET-1. These results state the translocation of inflammation mediators, ultrafine particles, LPS, metals associated to PM10sum, from lungs to bloodstream, thus triggering a systemic reaction, mainly involving heart and brain. Our results provided additional insight into the toxicity of PM10sum and could facilitate shedding light on mechanisms underlying the development of urban air pollution related diseases. [ABSTRACT FROM AUTHOR]

Published

2013

10. Type-1 Cannabinoid Receptors Reduce Membrane Fluidity of Capacitated Boar Sperm by Impairing Their Activation by Bicarbonate.

Author

Barboni, Barbara, Bernabò, Nicola, Palestini, Paola, Botto, Laura, Pistilli, Maria Gabriella, Charini, Marco, Tettamanti, Enzo, Battista, Natalia, Maccarrone, Mauro, and Mattioli, Mauro

Subjects

CANNABINOID receptors, FLUIDITY of biological membranes, SPERMATOZOA, BICARBONATE ions, FEMALE reproductive organs, ANANDAMIDE, CHROMOSOMAL translocation, ELECTRON paramagnetic resonance spectroscopy

Abstract

Background: Mammalian spermatozoa acquire their full fertilizing ability (so called capacitation) within the female genital tract, where they are progressively exposed to inverse gradients of inhibiting and stimulating molecules. Methodology/Principal Findings: In the present research, the effect on this process of anandamide, an endocannabinoid that can either activate or inhibit cannabinoid receptors depending on its concentration, and bicarbonate, an oviductal activatory molecule, was assessed, in order to study the role exerted by the type 1 cannabinoid receptor (CB1R) in the process of lipid membrane remodeling crucial to complete capacitation. To this aim, boar sperm were incubated in vitro under capacitating conditions (stimulated by bicarbonate) in the presence or in the absence of methanandamide (Met-AEA), a non-hydrolysable analogue of anandamide. The CB1R involvement was studied by using the specific inhibitor (SR141716) or mimicking its activation by adding a permeable cAMP analogue (8Br-cAMP). By an immunocytochemistry approach it was shown that the Met-AEA inhibits the bicarbonate-dependent translocation of CB1R from the post-equatorial to equatorial region of sperm head. In addition it was found that Met-AEA is able to prevent the bicarbonate-induced increase in membrane disorder and the cholesterol extraction, both preliminary to capacitation, acting through a CB1R-cAMP mediated pathway, as indicated by MC540 and filipin staining, EPR spectroscopy and biochemical analysis on whole membranes (CB1R activity) and on membrane enriched fraction (C/P content and anisotropy). Conclusions/Significance: Altogether, these data demonstrate that the endocannabinoid system strongly inhibits the process of sperm capacitation, acting as membrane stabilizing agent, thus increasing the basic knowledge on capacitationrelated signaling and potentially opening new perspectives in diagnostics and therapeutics of male infertility. [ABSTRACT FROM AUTHOR]

Published

2011