Your search keyword '"Samantha Cordone"' showing total 7 results

1. Advanced lipoxidation end‐products mediate lipid‐induced glomerular injury: role of receptor‐mediated mechanisms

Author

Carla Iacobini, Carlo Ricci, Viola Sansoni, Flavia Pricci, Samantha Cordone, Angela Scipioni, Carlo Pesce, Stefano Menini, Giuseppe Pugliese, Mazzitelli G, and Francesco Pugliese

Subjects

medicine.medical_specialty, Kidney, Cholesterol, Lipid metabolism, Glomerular Hypertrophy, medicine.disease_cause, Pathology and Forensic Medicine, Lipid peroxidation, chemistry.chemical_compound, Endocrinology, medicine.anatomical_structure, chemistry, Glycation, Internal medicine, medicine, Scavenger receptor, Oxidative stress

Abstract

Atherosclerosis and renal disease are related conditions, sharing several risk factors. This includes hyperlipidaemia, which may result in enhanced lipoprotein accumulation and chemical modification, particularly oxidation, with formation of advanced lipoxidation endproducts (ALEs). We investigated whether increased lipid peroxidation plays a major role in the pathogenesis of lipid-induced renal disease, via receptor-mediated mechanisms involving the scavenger and advanced glycation endproduct (AGE) receptors. Mice knocked out for galectin-3 (Gal3(-/-)), an AGE receptor previously shown to protect from AGE-induced renal injury, and the corresponding wild-type (Gal3(+/+)) animals, were fed an atherogenic high-fat diet (HFD; 15% fat, 1.25% cholesterol and 0.5% sodium cholate); mice fed a normal-fat diet (NFD; 4% fat) served as controls. Gal3(+/+) mice fed a HFD developed glomerular disease, as indicated by proteinuria, mesangial expansion and glomerular hypertrophy and sclerosis. Glomerular injury was associated with increased glomerular matrix protein expression, ALE and oxidized LDL content, oxidative stress, AGE and scavenger receptor expression and macrophage infiltration, with only modest renal/glomerular fat accumulation and changes in lipid metabolism. Fibrotic and inflammatory changes, together with accumulation of ALEs, such as 4-hydroxy-2-nonenal adducts and N(epsilon)-carboxymethyllysine, oxidative stress and expression of the receptor of AGEs (RAGE), were significantly more marked in Gal3(-/-) animals, whereas fat deposition and abnormalities in lipid metabolism remained modest. Thus, lipid-induced renal damage is mainly dependent on lipid peroxidation with formation of carbonyl reactive species and ALEs, which accumulate within the kidney tissue, thus triggering receptor-mediated pro-inflammatory signalling pathways, as in atherogenesis. Moreover, galectin-3 exerts a significant role in the uptake and effective removal of modified lipoproteins, with diversion of these products from RAGE-dependent pro-inflammatory pathways associated with downregulation of RAGE expression.

Published

2009

2. Role of galectin-3 as a receptor for advanced glycosylation end products

Author

Lorena Amadio, Roberto Gradini, Gaetano Leto, Fu-Tong Liu, Carla Iacobini, Flavia Pricci, Samantha Cordone, Giuseppe Pugliese, Umberto Di Mario, G. Romeo, and P. Barsotti

Subjects

Glycation End Products, Advanced, Signal peptide, Glycosylation, Galectin 3, RNA Splicing, Biology, AGE-receptor, RAGE (receptor), Diabetes Complications, chemistry.chemical_compound, diabetic complications, Animals, Humans, Galectin-3, Receptor, Cell adhesion, chemistry.chemical_classification, Cell Cycle, nonenzymatic glycation, cell adhesion, Cell cycle, Antigens, Differentiation, chemistry, Biochemistry, Nephrology, Advanced glycation end-product, glycosylation end products, Glycoprotein

Abstract

Role of galectin-3 as a receptor for advanced glycosylation end products. The advanced glycosylation end product (AGE)-binding proteins identified so far include the components of the AGE-receptor complex p60, p90 and galectin-3, receptor for advanced glycosylation end products (RAGE), and the macrophage scavenger receptor types I and II. Galectin-3 interacts with β-galactoside residues of several cell surface and matrix glycoproteins through the carbohydrate recognition domain and is also capable of peptide–peptide associations mediated by its N-terminus domain. These structural properties enable galectin-3 to exert multiple functions, including the modulation of cell adhesion, the control of cell cycle, and the mRNA splicing activity. Moreover, in macrophages, astrocytes, and endothelial cells, galectin-3 has been shown to exhibit a high-affinity binding for AGEs; the lack of a transmembrane anchor sequence or signal peptide suggests that it associates with other AGE-receptor components rather than playing an independent role as AGE-receptor. In tissues that are targets of diabetic vascular complications, such as the mesangium and the endothelium, galectin-3 is not expressed or only weakly expressed under basal conditions, at variance with p90 and p60 but becomes detectable with aging and is induced or up-regulated by the diabetic milieu, which only slightly affects the expression of p90 or p60. This (over)expression of galectin-3 may in turn modulate AGE-receptor-mediated events by modifying the function of the AGE-receptor complex, which could play a role in the pathogenesis of target tissue injury. Up-regulated galectin-3 expression may also exert direct effects on tissue remodeling, independently of AGE ligands, by virtue of its adhesive and growth regulating properties.

Published

2000

3. Accelerated Lipid-Induced Atherogenesis in Galectin-3-Deficient Mice. Role of Lipoxidation via Receptor-Mediated Mechanisms

Author

Stefano Menini, Maurizio Taurino, Matteo Serino, Viola Sansoni, Carlo Ricci, Carla Iacobini, Samantha Cordone, Massimo Federici, Angela Scipioni, Giuseppe Pugliese, Giuseppe Marano, and Flavia Pricci

Subjects

Settore MED/09 - Medicina Interna, Time Factors, Advanced lipoxidation end products, Atherosclerosis, Galectin-3, Inflammation, RAGE, Galectin 3, Receptor for Advanced Glycation End Products, Apoptosis, Inbred C57BL, medicine.disease_cause, Lymphocyte Activation, Monocytes, Mice, Immunologic, Receptors, Medicine, Receptors, Immunologic, Receptor, Aorta, Mice, Knockout, Receptors, Scavenger, Settore M-EDF/01 - Metodi e Didattiche delle Attivita' Motorie, Chemotaxis, Macrophages, Animals, Disease Progression, Disease Models, Animal, Lipid Peroxidation, Transcription Factors, Oxidative Stress, Inflammation Mediators, Th1 Cells, Signal Transduction, Chemotaxis, Leukocyte, Aortitis, Diet, Atherogenic, Aortic Diseases, Mice, Inbred C57BL, Lipoproteins, LDL, Female, Atherogenic, Signal transduction, medicine.symptom, Cardiology and Cardiovascular Medicine, medicine.medical_specialty, Knockout, Lipoproteins, Scavenger, LDL, Proinflammatory cytokine, Downregulation and upregulation, Internal medicine, atherosclerosis, galectin-3, receptor for advanced glycation endproducts, oxidized LDLs, Scavenger receptor, Animal, business.industry, Leukocyte, Diet, Endocrinology, Disease Models, Immunology, business, Oxidative stress

Abstract

Objective— Modified lipoproteins, particularly oxidized LDLs, are believed to evoke an inflammatory response which participates in all stages of atherosclerosis. Disposal of these particles is mediated through receptors which may trigger proinflammatory signaling pathways leading to vascular injury. This study was aimed at assessing the role in atherogenesis of one of these receptors, galectin-3. Methods and Results— Galectin-3-deficient and wild-type mice were fed an atherogenic diet or standard chow for 8 months. Lesion area and length were higher in galectin-3-deficient versus wild-type mice. At the level of the aortic sinus, wild-type animals showed only fatty streaks, whereas galectin-3-deficient mice developed complex lesions, associated with extensive inflammatory changes. This was indicated by the presence of T lymphocytes with activated Th1-phenotype and by more marked monocyte-macrophage infiltration, inflammatory mediator expression, vascular cell apoptosis, and proinflammatory transcription factor activation. Increased accumulation of oxidixed LDLs and lipoxidation products and upregulation of other receptors for these compounds, including the proinflammatory RAGE, were detected in galectin-3-deficient versus wild-type mice. Conclusions— These data suggest a unique protective role for galectin-3 in the uptake and effective removal of modified lipoproteins, with concurrent downregulation of proinflammatory pathways responsible for atherosclerosis initiation and progression.

Published

2009

4. Advanced lipoxidation end-products mediate lipid-induced glomerular injury: role of receptor-mediated mechanisms

Author

Carla, Iacobini, Stefano, Menini, Carlo, Ricci, Angela, Scipioni, Viola, Sansoni, Giulia, Mazzitelli, Samantha, Cordone, Carlo, Pesce, Francesco, Pugliese, Flavia, Pricci, and Giuseppe, Pugliese

Subjects

Glycation End Products, Advanced, advanced glycation endproduct receptors, Galectin 3, extracellular matrix, Kidney Glomerulus, Receptor for Advanced Glycation End Products, Blood Pressure, advanced glycation endproducts, advanced lipoxidation endproducts, apoptosis, galectin-3, glomerulopathy, inflammation, lipids, oxidative stress, rage, scavenger receptors, Mice, Animals, Receptors, Immunologic, Mice, Knockout, Receptors, Scavenger, Macrophages, Lipid Metabolism, Diet, Atherogenic, Female, Kidney Diseases, Lipid Peroxidation

Abstract

Atherosclerosis and renal disease are related conditions, sharing several risk factors. This includes hyperlipidaemia, which may result in enhanced lipoprotein accumulation and chemical modification, particularly oxidation, with formation of advanced lipoxidation endproducts (ALEs). We investigated whether increased lipid peroxidation plays a major role in the pathogenesis of lipid-induced renal disease, via receptor-mediated mechanisms involving the scavenger and advanced glycation endproduct (AGE) receptors. Mice knocked out for galectin-3 (Gal3(-/-)), an AGE receptor previously shown to protect from AGE-induced renal injury, and the corresponding wild-type (Gal3(+/+)) animals, were fed an atherogenic high-fat diet (HFD; 15% fat, 1.25% cholesterol and 0.5% sodium cholate); mice fed a normal-fat diet (NFD; 4% fat) served as controls. Gal3(+/+) mice fed a HFD developed glomerular disease, as indicated by proteinuria, mesangial expansion and glomerular hypertrophy and sclerosis. Glomerular injury was associated with increased glomerular matrix protein expression, ALE and oxidized LDL content, oxidative stress, AGE and scavenger receptor expression and macrophage infiltration, with only modest renal/glomerular fat accumulation and changes in lipid metabolism. Fibrotic and inflammatory changes, together with accumulation of ALEs, such as 4-hydroxy-2-nonenal adducts and N(epsilon)-carboxymethyllysine, oxidative stress and expression of the receptor of AGEs (RAGE), were significantly more marked in Gal3(-/-) animals, whereas fat deposition and abnormalities in lipid metabolism remained modest. Thus, lipid-induced renal damage is mainly dependent on lipid peroxidation with formation of carbonyl reactive species and ALEs, which accumulate within the kidney tissue, thus triggering receptor-mediated pro-inflammatory signalling pathways, as in atherogenesis. Moreover, galectin-3 exerts a significant role in the uptake and effective removal of modified lipoproteins, with diversion of these products from RAGE-dependent pro-inflammatory pathways associated with downregulation of RAGE expression.

Published

2009

5. Oxidative stress in diabetes-induced endothelial dysfunction involvement of nitric oxide and protein kinase C

Author

Giuseppe Pugliese, Samantha Cordone, Umberto Di Mario, Stefania Catalano, Mariella Sorcini, Flavia Pricci, Alessandra Zicari, Gaetano Leto, Carla Iacobini, and Lorena Amadio

Subjects

medicine.medical_specialty, Nitric Oxide Synthase Type III, Endothelium, endothelium, free radicals, medicine.disease_cause, Biochemistry, Permeability, Retina, Nitric oxide, chemistry.chemical_compound, nitric oxide, Physiology (medical), Internal medicine, Diabetes Mellitus, medicine, Animals, oxidative stress, antioxidarits, Cells, Cultured, Protein Kinase C, Protein kinase C, chemistry.chemical_classification, Reactive oxygen species, biology, Superoxide, nitric oxide synthase, Endothelial Cells, Hydrogen Peroxide, Nitric oxide synthase, Endocrinology, medicine.anatomical_structure, antioxidants, chemistry, biology.protein, Cattle, superoxide, Reactive Oxygen Species, Peroxynitrite, Oxidative stress

Abstract

Reactive oxygen species (ROS) formation plays a major role in diabetes-induced endothelial dysfunction, though the molecular mechanism(s) involved and the contribution of nitric oxide (NO) are still unclear. This study using bovine retinal endothelial cells was aimed at assessing (i) the role of oxygen-dependent vs. NO-dependent oxidative stress in the endothelial cell permeability alterations induced by the diabetic milieu and (ii) whether protein kinase C (PKC) activation ultimately mediates these changes. Superoxide, lipid peroxide, and PKC activity were higher under high glucose (HG) vs. normal glucose throughout the 30 d period. Nitrite/nitrate and endothelial NO synthase levels increased at 1 d and decreased thereafter. Changes in monolayer permeability to 125I-BSA induced by 1 or 30 d incubation in HG or exposure to advanced glycosylation endproduct were reduced by treatment with antioxidants or PKC inhibitors, whereas NO blockade prevented only the effect of 1 d HG. HG-induced changes were mimicked by a PKC activator, a superoxide generating system, an NO and superoxide donor, or peroxynitrite (attenuated by PKC inhibition), but not a NO donor. The short-term effect of HG depends on a combined oxidative and nitrosative stress with peroxynitrite formation, whereas the long-term effect is related to ROS generation; in both cases, PKC ultimately mediates permeability changes.

Published

2003

6. Increased retinal endothelial cell monolayer permeability induced by the diabetic milieu: role of advanced non-enzymatic glycation and polyol pathway activation

Author

Carlo Maria Rotella, Lorena Amadio, P. Barsotti, G. Romeo, Flavia Pricci, Giuseppe Pugliese, Carla Iacobini, Samantha Cordone, Gaetano Leto, Umberto Di Mario, and Oscar Diaz-Horta

Subjects

Glycation End Products, Advanced, medicine.medical_specialty, Cell Membrane Permeability, Polymers, Sorbitol dehydrogenase, Endocrinology, Diabetes and Metabolism, Vascular permeability, Methylguanidine, Guanidines, Retina, chemistry.chemical_compound, Endocrinology, Polyol pathway, Glycation, Internal medicine, Internal Medicine, medicine, Animals, Humans, Sorbitol, polyol pathway, Mannitol, Endothelium, Enzyme Inhibitors, Cells, Cultured, Horseradish Peroxidase, Aldose reductase, business.industry, advanced glycation end products, Serum Albumin, Bovine, aldose reductase inhibitors, Endothelial stem cell, Microscopy, Electron, diabetic retinopathy, chemistry, Immunoglobulin G, endothelial cell, Advanced glycation end-product, Cattle, Nitric Oxide Synthase, permeability, business

Abstract

Background Increased vascular permeability could be involved in the pathogenesis of diabetic retinopathy. The present study was aimed at assessing whether high glucose concentrations can impair retinal endothelial cell barrier function directly, irrespective of changes in other determinants of permeability, and the role of non-enzymatic glycation and polyol pathway activation in these alterations. Methods Bovine retinal endothelial cells (BREC) were exposed for various periods to high glucose vs iso-osmolar mannitol and normal glucose containing media±agents mimicking or inhibiting advanced glycation end product (AGE) formation and polyol pathway activation. Monolayer permeability was assessed by measuring the transendothelial passage of 125I-labeled proteins. Results Permeability increased significantly (up to +70%) in BREC exposed to high glucose, but not to mannitol, for 1–30 days, vs normal glucose control cells. Exposure to AGE-modified bovine serum albumin (BSA) (⪖90%) and, to a lesser extent, sorbitol (+28%) mimicked the high glucose effect. The AGE formation and nitric oxide synthase (NOS) inhibitor aminoguanidine significantly reduced (by 60%) changes induced by 30-day exposure to high glucose, whereas methylguanidine, which inhibits only NOS activity, did not affect permeability. Aldose reductase or sorbitol dehydrogenase inhibitors decreased (by ∼40%) the enhanced leakage produced by 1-day, but not 30-day, incubation in high glucose. Conclusions The present results indicate that high glucose is capable of impairing retinal endothelial cell barrier function directly and that non-enzymatic glycation and polyol pathway activation may mediate these changes, with AGEs participating in the long-term alterations and increased flux through the sorbitol pathway in the short-term effect. Copyright © 2001 John Wiley & Sons, Ltd.

Published

2001

7. Extracellular matrix overproduction vs. altered cell turnover in glomeruli from experimental diabetic rats

Author

Francesco Purrello, G. Romeo, Umberto Di Mario, Oscar Diaz-Horta, Gaetano Leto, Carlo Pesce, Eleonora Albanese, Flavia Pricci, Samantha Cordone, and Giuseppe Pugliese

Subjects

medicine.medical_specialty, Chemistry, Endocrinology, Diabetes and Metabolism, General Medicine, medicine.disease, Nephropathy, Extracellular matrix, Endocrinology, Internal medicine, Cell turnover, Internal Medicine, medicine, Overproduction

Published

2009