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Main Authors: De Marco, Giuseppe, Cristaldi, Antonio, Eliso, Maria Concetta, Oliveri Conti, Gea, Galati, Mariachiara, Billè, Barbara, Terranova, Mery, Parrino, Vincenzo, Cappello, Tiziana, Ferrante, Margherita, Maisano, Maria
Format: Artículo científico
Language:en
Published: Environmental toxicology and pharmacology 2025
Subjects:
Animals
Dexamethasone
Mytilus
Gills
Water Pollutants, Chemical
Biomarkers
Lipid Peroxidation
Anti-Inflammatory Agents
Hemocytes
Online Access:https://pubmed.ncbi.nlm.nih.gov/39626850/
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author De Marco, Giuseppe
Cristaldi, Antonio
Eliso, Maria Concetta
Oliveri Conti, Gea
Galati, Mariachiara
Billè, Barbara
Terranova, Mery
Parrino, Vincenzo
Cappello, Tiziana
Ferrante, Margherita
Maisano, Maria
author_facet De Marco, Giuseppe
Cristaldi, Antonio
Eliso, Maria Concetta
Oliveri Conti, Gea
Galati, Mariachiara
Billè, Barbara
Terranova, Mery
Parrino, Vincenzo
Cappello, Tiziana
Ferrante, Margherita
Maisano, Maria
De Marco, Giuseppe
Cristaldi, Antonio
Eliso, Maria Concetta
Oliveri Conti, Gea
Galati, Mariachiara
Billè, Barbara
Terranova, Mery
Parrino, Vincenzo
Cappello, Tiziana
Ferrante, Margherita
Maisano, Maria
collection PubMed - marine biology
contents Cellular pathway disturbances elicited by realistic dexamethasone concentrations in gills of mussel Mytilus galloprovincialis as assessed by a multi-biomarker approach. De Marco, Giuseppe Cristaldi, Antonio Eliso, Maria Concetta Oliveri Conti, Gea Galati, Mariachiara Billè, Barbara Terranova, Mery Parrino, Vincenzo Cappello, Tiziana Ferrante, Margherita Maisano, Maria Animals Dexamethasone Mytilus Gills Water Pollutants, Chemical Biomarkers Lipid Peroxidation Anti-Inflammatory Agents Hemocytes The growing usage of glucocorticoids for a variety of diseases raises concerns since these drugs, including the anti-inflammatory dexamethasone (DEX), are frequently found in the environment. The impact of DEX was evaluated on mussels Mytilus galloprovincialis (Lamarck, 1819) by exposure to environmental concentrations (C1: 4 ng/L; C2: 40 ng/L; C3: 400 ng/L; C4: 2000 ng/L), and sampling at 3 (T3), 6 (T6), and 12 (T12) days. A multi-biomarker approach was applied on gills, involved in gas exchange, feed filtering, and osmoregulation. A dose- and time-dependent uptake of DEX was recorded, besides haemocyte infiltration, increased neutral and acid mucopolysaccharides, and a general pro-oxidant effect witnessed by lipid peroxidation and altered antioxidant system. Metabolomics revealed rise in protein turnover and energy demand by fluctuations in free amino acids (alanine, glycine) and energy-related metabolites (succinate, ATP/ADP). It is necessary to reduce DEX dosage from the environment by recovery strategies and effective eco-pharmacovigilance programs.
format Artículo científico
id pubmed_39626850
institution PubMed
language en
publishDate 2025
publisher Environmental toxicology and pharmacology
record_format pubmed
spellingShingle Cellular pathway disturbances elicited by realistic dexamethasone concentrations in gills of mussel Mytilus galloprovincialis as assessed by a multi-biomarker approach.
De Marco, Giuseppe
Cristaldi, Antonio
Eliso, Maria Concetta
Oliveri Conti, Gea
Galati, Mariachiara
Billè, Barbara
Terranova, Mery
Parrino, Vincenzo
Cappello, Tiziana
Ferrante, Margherita
Maisano, Maria
Animals
Dexamethasone
Mytilus
Gills
Water Pollutants, Chemical
Biomarkers
Lipid Peroxidation
Anti-Inflammatory Agents
Hemocytes
Cellular pathway disturbances elicited by realistic dexamethasone concentrations in gills of mussel Mytilus galloprovincialis as assessed by a multi-biomarker approach. De Marco, Giuseppe Cristaldi, Antonio Eliso, Maria Concetta Oliveri Conti, Gea Galati, Mariachiara Billè, Barbara Terranova, Mery Parrino, Vincenzo Cappello, Tiziana Ferrante, Margherita Maisano, Maria Animals Dexamethasone Mytilus Gills Water Pollutants, Chemical Biomarkers Lipid Peroxidation Anti-Inflammatory Agents Hemocytes The growing usage of glucocorticoids for a variety of diseases raises concerns since these drugs, including the anti-inflammatory dexamethasone (DEX), are frequently found in the environment. The impact of DEX was evaluated on mussels Mytilus galloprovincialis (Lamarck, 1819) by exposure to environmental concentrations (C1: 4 ng/L; C2: 40 ng/L; C3: 400 ng/L; C4: 2000 ng/L), and sampling at 3 (T3), 6 (T6), and 12 (T12) days. A multi-biomarker approach was applied on gills, involved in gas exchange, feed filtering, and osmoregulation. A dose- and time-dependent uptake of DEX was recorded, besides haemocyte infiltration, increased neutral and acid mucopolysaccharides, and a general pro-oxidant effect witnessed by lipid peroxidation and altered antioxidant system. Metabolomics revealed rise in protein turnover and energy demand by fluctuations in free amino acids (alanine, glycine) and energy-related metabolites (succinate, ATP/ADP). It is necessary to reduce DEX dosage from the environment by recovery strategies and effective eco-pharmacovigilance programs.
title Cellular pathway disturbances elicited by realistic dexamethasone concentrations in gills of mussel Mytilus galloprovincialis as assessed by a multi-biomarker approach.
topic Animals
Dexamethasone
Mytilus
Gills
Water Pollutants, Chemical
Biomarkers
Lipid Peroxidation
Anti-Inflammatory Agents
Hemocytes
url https://pubmed.ncbi.nlm.nih.gov/39626850/

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