Lina Ghibelli scite author profile

Nanotechnology promises a revolution in pharmacology to improve or create ex novo therapies. Cerium oxide nanoparticles (nanoceria), well-known as catalysts, possess an astonishing pharmacological potential due to their antioxidant properties, deriving from a fraction of Ce(3+) ions present in CeO(2). These defects, compensated by oxygen vacancies, are enriched at the surface and therefore in nanosized particles. Reactions involving redox cycles between the Ce(3+) and Ce(4+) oxidation states allow nanoceria to react catalytically with superoxide and hydrogen peroxide, mimicking the behavior of two key antioxidant enzymes, superoxide dismutase and catalase, potentially abating all noxious intracellular reactive oxygen species (ROS) via a self-regenerating mechanism. Hence nanoceria, apparently well tolerated by the organism, might fight chronic inflammation and the pathologies associated with oxidative stress, which include cancer and neurodegeneration. Here we review the biological effects of nanoceria as they emerge from in vitro and in vivo studies, considering biocompatibility and the peculiar antioxidant mechanisms.

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Copper Nanoparticle/Polymer Composites with Antifungal and Bacteriostatic Properties

Cioffi¹,

Torsi²,

Tantillo³

et al. 2005

Chem. Mater.

762

389

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A spinnable coating capable of releasing metal species to a broth of living organisms in a controlled manner is an extremely interesting material for a number of biotechnological applications. Polymer/metal nanocomposites are a viable choice but very little is known about their biological properties. Here, a polymer based nanocomposite loading stabilized copper nanoparticles is proposed as a biostatic coating and systematic correlations between material properties and biological effects are established. Experimental proof of the nanocomposite capability to release metal species in a controlled manner and eventually to slow or even inhibit the growth of living organisms, such as fungi and other pathogenic microorganisms, are provided. The biostatic activity is correlated to the nanoparticle loading that controls the release of copper species, independently evaluated by means of electro-thermal atomic absorption spectroscopy. Insights into the understanding of the controlled releasing process, involving CuO dissolution through the nanoclusters stabilizing layer, are also proposed.

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Ce³⁺ Ions Determine Redox-Dependent Anti-apoptotic Effect of Cerium Oxide Nanoparticles

et al. 2011

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Antioxidant therapy is the novel frontier to prevent and treat an impressive series of severe human diseases, and the search for adequate antioxidant drugs is fervent. Cerium oxide nanoparticles (nanoceria) are redox-active owing to the coexistence of Ce(3+) and Ce(4+) oxidation states and to the fact that Ce(3+) defects, and the compensating oxygen vacancies, are more abundant at the surface. Nanoceria particles exert outstanding antioxidant effects in vivo acting as well-tolerated anti-age and anti-inflammatory agents, potentially being innovative therapeutic tools. However, the biological antioxidant mechanisms are still unclear. Here, the analysis on two leukocyte cell lines undergoing apoptosis via redox-dependent or independent mechanisms revealed that the intracellular antioxidant effect is the direct cause of the anti-apoptotic and prosurvival effects of nanoceria. Doping with increasing concentrations of Sm(3+), which progressively decreased Ce(3+) without affecting oxygen vacancies, blunted these effects, demonstrating that Ce(3+)/Ce(4+) redox reactions are responsible for the outstanding biological properties of nanoceria.

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The Role of Cyclooxygenase-2 in Cell Proliferation and Cell Death in Human Malignancies

Sobolewski

Cerella

Dicato

et al. 2010

International Journal of Cell Biology

398

281

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It is well admitted that the link between chronic inflammation and cancer involves cytokines and mediators of inflammatory pathways, which act during the different steps of tumorigenesis. The cyclooxygenases (COXs) are a family of enzymes, which catalyze the rate-limiting step of prostaglandin biosynthesis. This family contains three members: ubiquitously expressed COX-1, which is involved in homeostasis; the inducible COX-2 isoform, which is upregulated during both inflammation and cancer; and COX-3, expressed in brain and spinal cord, whose functions remain to be elucidated. COX-2 was described to modulate cell proliferation and apoptosis mainly in solid tumors, that is, colorectal, breast, and prostate cancers, and, more recently, in hematological malignancies. These findings prompt us to analyze here the effects of a combination of COX-2 inhibitors together with different clinically used therapeutic strategies in order to further improve the efficiency of future anticancer treatments. COX-2 modulation is a promising field investigated by many research groups.

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Melatonin: A pleiotropic molecule regulating inflammation

Radogna

Diederich

Ghibelli

2010

Biochemical Pharmacology

308

247

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Melatonin is a neurohormone produced by the pineal gland that regulates sleep and circadian functions. Melatonin also regulates inflammatory and immune processes acting as both an activator and inhibitor of these responses. Melatonin demonstrates endocrine, but also paracrine and autocrine effects in the leukocyte compartment: on one side, leukocytes respond to melatonin in a circadian fashion; on the other side, leukocytes are able to synthesize melatonin by themselves.With its endocrine and paracrine effects, melatonin differentially modulates pro-inflammatory enzymes, controls production of inflammatory mediators such as cytokines and leukotrienes and regulates the lifespan of leukocytes by interfering with apoptotic processes. Moreover, its potent anti-oxidant ability allows scavenging of oxidative stress in the inflamed tissues. The interesting timing of pro-and anti-inflammatory effects, such as those affecting lipoxygenase activity, suggests that melatonin might promote early phases of inflammation on one hand and contribute to its attenuation on the other hand, in order to avoid complications of chronic inflammation. This review aims at giving a comprehensive overview of the various inflammatory pathways regulated by this pleiotropic hormone.

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Lina Ghibelli

Pharmacological potential of cerium oxide nanoparticles

Copper Nanoparticle/Polymer Composites with Antifungal and Bacteriostatic Properties

Ce³⁺ Ions Determine Redox-Dependent Anti-apoptotic Effect of Cerium Oxide Nanoparticles

The Role of Cyclooxygenase-2 in Cell Proliferation and Cell Death in Human Malignancies

Melatonin: A pleiotropic molecule regulating inflammation

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Lina Ghibelli

Pharmacological potential of cerium oxide nanoparticles

Copper Nanoparticle/Polymer Composites with Antifungal and Bacteriostatic Properties

Ce3+ Ions Determine Redox-Dependent Anti-apoptotic Effect of Cerium Oxide Nanoparticles

The Role of Cyclooxygenase-2 in Cell Proliferation and Cell Death in Human Malignancies

Melatonin: A pleiotropic molecule regulating inflammation

Contact Info

Product

Resources

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Ce³⁺ Ions Determine Redox-Dependent Anti-apoptotic Effect of Cerium Oxide Nanoparticles