Your search keyword '"Dario Rusciano"' showing total 3 results

1. Dietary Supplementation of Antioxidant Compounds Prevents Light-Induced Retinal Damage in a Rat Model

Author

Rosario Amato, Alessio Canovai, Alberto Melecchi, Salvatore Pezzino, Roberta Corsaro, Massimo Dal Monte, Dario Rusciano, Paola Bagnoli, and Maurizio Cammalleri

Subjects

phototoxicity, oxidative stress, inflammation, neuroprotection, photoreceptor death, electroretinography, Biology (General), QH301-705.5

Abstract

Light-induced retinal damage (LD) is characterized by the accumulation of reactive oxygen species leading to oxidative stress and photoreceptor cell death. The use of natural antioxidants has emerged as promising approach for the prevention of LD. Among them, lutein and cyanidin-3-glucoside (C3G) have been shown to be particularly effective due to their antioxidant and anti-inflammatory activity. However, less is known about the possible efficacy of combining them in a multicomponent mixture. In a rat model of LD, Western blot analysis, immunohistochemistry and electroretinography were used to demonstrate that lutein and C3G in combination or in a multicomponent mixture can prevent oxidative stress, inflammation, gliotic and apoptotic responses thus protecting photoreceptor cells from death with higher efficacy than each component alone. Combined efficacy on dysfunctional electroretinogram was also demonstrated by ameliorated rod and cone photoreceptor responses. These findings suggest the rationale to formulate multicomponent blends which may optimize the partnering compounds bioactivity and bioavailability.

Published

2021

2. Atropine Differentially Modulates ECM Production by Ocular Fibroblasts, and Its Ocular Surface Toxicity Is Blunted by Colostrum

Author

Martina Cristaldi, Melania Olivieri, Salvatore Pezzino, Giorgia Spampinato, Gabriella Lupo, Carmelina Daniela Anfuso, and Dario Rusciano

Subjects

Atropine, 7-methyl-xanthine, myopia, collagen, sclera, choroid, Biology (General), QH301-705.5

Abstract

Background: The etiology and the mechanism behind atropine treatment of progressive myopia are still poorly understood. Our study addressed the role of scleral and choroidal fibroblasts in myopia development and atropine function. Methods: Fibroblasts treated in vitro with atropine or 7-methylxanthine were tested for ECM production by Western blotting. Corneal epithelial cells were treated with atropine in the presence or absence of colostrum or fucosyl-lactose, and cell survival was evaluated by the MTT metabolic test. Results: Atropine and 7-methyl-xanthine stimulated collagen I and fibronectin production in scleral fibroblasts, while they inhibited their production in choroidal fibroblasts. Four days of treatment with atropine of corneal epithelial cells significantly decreased cell viability, which could be prevented by the presence of colostrum or fucosyl-lactose. Conclusions: Our results show that atropine may function in different ways in different eye districts, strengthening the scleral ECM and increasing permeability in the choroid. The finding that colostrum or fucosyl-lactose attenuate the corneal epithelial toxicity after long-term atropine treatment suggests the possibility that both compounds can efficiently blunt its toxicity in children subjected to chronic atropine treatment.

Published

2020

3. Dietary Supplementation of Antioxidant Compounds Prevents Light-Induced Retinal Damage in a Rat Model

Author

Roberta Corsaro, Paola Bagnoli, Alberto Melecchi, Dario Rusciano, Rosario Amato, Alessio Canovai, Salvatore Pezzino, Maurizio Cammalleri, and Massimo Dal Monte

Subjects

Lutein, Antioxidant, QH301-705.5, phototoxicity, oxidative stress, inflammation, neuroprotection, photoreceptor death, electroretinography, nutraceuticals, medicine.medical_treatment, Medicine (miscellaneous), Pharmacology, medicine.disease_cause, Neuroprotection, Article, General Biochemistry, Genetics and Molecular Biology, Photoreceptor cell, chemistry.chemical_compound, medicine, Biology (General), chemistry.chemical_classification, Reactive oxygen species, medicine.diagnostic_test, medicine.anatomical_structure, chemistry, Apoptosis, sense organs, Oxidative stress, Electroretinography

Abstract

Light-induced retinal damage (LD) is characterized by the accumulation of reactive oxygen species leading to oxidative stress and photoreceptor cell death. The use of natural antioxidants has emerged as promising approach for the prevention of LD. Among them, lutein and cyanidin-3-glucoside (C3G) have been shown to be particularly effective due to their antioxidant and anti-inflammatory activity. However, less is known about the possible efficacy of combining them in a multicomponent mixture. In a rat model of LD, Western blot analysis, immunohistochemistry and electroretinography were used to demonstrate that lutein and C3G in combination or in a multicomponent mixture can prevent oxidative stress, inflammation, gliotic and apoptotic responses thus protecting photoreceptor cells from death with higher efficacy than each component alone. Combined efficacy on dysfunctional electroretinogram was also demonstrated by ameliorated rod and cone photoreceptor responses. These findings suggest the rationale to formulate multicomponent blends which may optimize the partnering compounds bioactivity and bioavailability.

Published

2021