Your search keyword '"Cerciello R"' showing total 3 results

1. Structural and functional changes in the zebrafish Danio rerio skeletal muscle after cadmium exposure

Author

Avallone B., Agnisola C., Cerciello R., Panzuto R., Simoniello P., Cretì P., Motta C. M., Avallone, B., Agnisola, C., Cerciello, R., Panzuto, R., Simoniello, P., Cretì, P., and Motta, C. M.

Subjects

heavy metals cadmium zebrafish

Published

2015

2. Long term exposure to cadmium: Pathological effects on kidney tubules cells in Sparus aurata juveniles

Author

Monica Tizzano, Raffaele Panzuto, Raimondo Cerciello, Palma Simoniello, Bice Avallone, Rosaria Scudiero, Chiara Maria Motta, Maria Rosa Montinari, Patrizia Cretì, Carmela Pizzoleo, Avallone, Bice, Cerciello, Raimondo, Cretì, Patrizia, Pizzoleo, Carmela, Scudiero, Rosaria, Tizzano, Monica, Panzuto, Raffaele, Simoniello, Palma, Montinari, Maria Rosa, Motta, CHIARA MARIA, Avallone, B, Cerciello, R, Cretì, P, Pizzoleo, C, Scudiero, R, Tizzano, M, Panzuto, R, Simoniello, P, Montinari, Mr, and Motta, Cm

Subjects

0301 basic medicine, medicine.medical_specialty, Brush border, Health, Toxicology and Mutagenesis, Lectin staining, chemistry.chemical_element, Cell Count, Chemical, 010501 environmental sciences, Cadmium chloride, Biology, Aquatic Science, Kidney, 01 natural sciences, Inactivation, Glycocalyx, 03 medical and health sciences, chemistry.chemical_compound, Cadmium Chloride, Internal medicine, medicine, Metallothionein, Animals, Brush border, Cadmium, Kidney tubule cells ultrastructure, Lectin staining, Metallothionein, PAS staining, Water Pollutants, Toxicology and Mutagenesis, 0105 earth and related environmental sciences, Cadmium, PAS staining, Kidney tubule cells ultrastructure, Inactivation, Metabolic, Kidney Tubules, Sea Bream, Water Pollutants, Chemical, Staining, 030104 developmental biology, Endocrinology, medicine.anatomical_structure, chemistry, Health, Ultrastructure, Metabolic

Abstract

The effects of an exposure to cadmium chloride 0.47 μM for 150 days were studied in kidneys of juveniles Sparus aurata by a multidisciplinary approach so to correlate uptake and detoxification potential to changes in brush border and glycocalyx sugar composition. Results demonstrated that cadmium concentration in kidney significantly increased from day 30 reaching a plateau on day 120 while metallothioneins reached a peak on day 90 and by day 120 were already decreasing to control values. Cytological damage was extensive on day 90, clearly detectable at both structural and ultrastructural levels, in tubular cells and brush-border. Staining with a panel of four lectins revealed a significant increase in N-Ac-Gal and a decrease in mannose in the glycocalyx and the tubular basal membranes. From day 120, when cadmium concentration was high and metallothionein concentration decreasing, a clear recovery was observed in tubular cells morphology and sugar composition. Possible significance of these apparently contrasting data are discussed.

Published

2017

3. Evidence of Bacteroides fragilis protection from Bartonella henselae-induced damage

Author

Gabiria Pastore, Roberta Colicchio, Valerio Costa, Teresa Infante, Carmela Fiorito, Maria D'Armiento, Chiara Pagliuca, Alfredo Ciccodicola, Francesco Paolo D'Armiento, Rossana Ippolito, Raimondo Cerciello, Alfonso Giovane, Linda Sommese, Claudio Napoli, Paola Salvatore, Bice Avallone, Margherita Scarpato, Amelia Casamassimi, L., Sommese, Pagliuca, Chiara, Avallone, Bice, R., Ippolito, A., Casamassimi, V., Costa, Colicchio, Roberta, Cerciello, Raimondo, D'Armiento, Maria, M., Scarpato, A., Giovane, G., Pastore, T., Infante, A., Ciccodicola, C., Fiorito, D'Armiento, FRANCESCO PAOLO, Salvatore, Paola, C., Napoli, Sommese, Linda, Pagliuca, C, Avallone, B, Ippolito, R, Casamassimi, Amelia, Costa, V, Colicchio, R, Cerciello, R, D'Armiento, M, Scarpato, M, Giovane, Alfonso, Pastore, G, Infante, T, Ciccodicola, A, Fiorito, C, D'Armiento, Fp, Salvatore, P, and Napoli, Claudio

Subjects

Bacterial Diseases, Mouse, Cardiovascular, Bacteroides fragilis, Mice, Bartonella henselae induced-damage, Bacteroides fragilis protection, coinfection model, EPC, PSA, ultrastructural analysis, morphological analysis, Cluster Analysis, Multidisciplinary, Bartonella henselae, biology, Bartonellosis, Coinfection, Stem Cells, Polysaccharides, Bacterial, Animal Models, Bacteroides Infections, Bacterial Pathogens, Host-Pathogen Interaction, medicine.anatomical_structure, Infectious Diseases, Host-Pathogen Interactions, Angiomatosis, Bacillary, Immunohistochemistry, Cytokines, Medicine, Female, Helicobacter hepaticus, medicine.symptom, Research Article, Science, Spleen, Inflammation, Microbiology, Model Organisms, Virology, Antibiosis, medicine, Animals, Humans, Progenitor cell, Biology, Gene Expression Profiling, Immunity, Endothelial Cells, Bacteriology, Bacteroides Infection, medicine.disease, biology.organism_classification, Disease Models, Animal, Animal Models of Infection

Abstract

Bartonella henselae is able to internalize endothelial progenitor cells (EPCs), which are resistant to the infection of other common pathogens. Bacteroides fragilis is a gram-negative anaerobe belonging to the gut microflora. It protects from experimental colitis induced by Helicobacter hepaticus through the polysaccharide A (PSA). The aim of our study was to establish: 1) whether B. fragilis colonization could protect from B. henselae infection; if this event may have beneficial effects on EPCs, vascular system and tissues. Our in vitro results establish for the first time that B. fragilis can internalize EPCs and competes with B. henselae during coinfection. We observed a marked activation of the inflammatory response by Real-time PCR and ELISA in coinfected cells compared to B. henselae-infected cells (63 vs 23 up-regulated genes), and after EPCs infection with mutant B. fragilis DPSA (>90% up-regulated genes) compared to B. fragilis. Interestingly, in a mouse model of coinfection, morphological and ultrastructural analyses by hematoxylin-eosin staining and electron microscopy on murine tissues revealed that damages induced by B. henselae can be prevented in the coinfection with B. fragilis but not with its mutant B. fragilis DPSA. Moreover, immunohistochemistry analysis with anti-Bartonella showed that the number of positive cells per field decreased of at least 50% in the liver (2064 vs 5068), aorta (561 vs 1062) and spleen (2563 vs 4066) sections of mice coinfected compared to mice infected only with B. henselae. This decrease was less evident in the coinfection with DPSA strain (3566 in the liver, 561 in the aorta and 3065 in the spleen). Finally, B. fragilis colonization was also able to restore the EPC decrease observed in mice infected with B. henselae (0.65 vs 0.06 media). Thus, our data establish that B. fragilis colonization is able to prevent B. henselae damages through PSA.

Published

2012