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Main Authors: Pinto, Albano, Macário, Inês P E, Jeremias, Guilherme, Marques, Sérgio M, Lourenço, Joana, Guimarães, Ana Rita, Marques, Sofia L, Moura, Gabriela, Asselman, Jana, Pereira, Patrícia, Pereira, Joana L
Format: Artículo científico
Language:en
Published: Ecotoxicology and environmental safety 2025
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Online Access:https://pubmed.ncbi.nlm.nih.gov/41317619/
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author Pinto, Albano
Macário, Inês P E
Jeremias, Guilherme
Marques, Sérgio M
Lourenço, Joana
Guimarães, Ana Rita
Marques, Sofia L
Moura, Gabriela
Asselman, Jana
Pereira, Patrícia
Pereira, Joana L
author_facet Pinto, Albano
Macário, Inês P E
Jeremias, Guilherme
Marques, Sérgio M
Lourenço, Joana
Guimarães, Ana Rita
Marques, Sofia L
Moura, Gabriela
Asselman, Jana
Pereira, Patrícia
Pereira, Joana L
Pinto, Albano
Macário, Inês P E
Jeremias, Guilherme
Marques, Sérgio M
Lourenço, Joana
Guimarães, Ana Rita
Marques, Sofia L
Moura, Gabriela
Asselman, Jana
Pereira, Patrícia
Pereira, Joana L
collection PubMed - marine biology
contents Cadmium sub-lethal effects on Daphnia magna - A new take on an old subject. Pinto, Albano Macário, Inês P E Jeremias, Guilherme Marques, Sérgio M Lourenço, Joana Guimarães, Ana Rita Marques, Sofia L Moura, Gabriela Asselman, Jana Pereira, Patrícia Pereira, Joana L Animals Daphnia Cadmium Water Pollutants, Chemical DNA Methylation DNA Damage Lipid Peroxidation Transcriptome Epigenesis, Genetic Daphnia magna Rising production and use of electronic products leads to higher cadmium usage, increasing the risk of exposure to this dangerous metal. Despite being a classic environmental contaminant, cadmium's full toxicity spectrum and mechanisms of action towards aquatic biota are still in need of further clarification. This work contributes to such clarification by comprehensively characterizing cadmium mechanisms of toxic action resulting from a seven-day exposure to a sub-lethal concentration (EC20; 4.5 µg L) on the freshwater species Daphnia magna. A holistic approach starting at molecular level responses with epigenetic endpoints (total DNA methylation and DNA methyltransferases activity) and transcriptomic analysis (RNA-Seq), then working up to phenotypic effects at the sub-cellular and individual level was applied. Cadmium exposure caused global genome hypomethylation and altered DNA methyltransferases activity. These methylome changes were accompanied by significant changes in gene expression, that correlate with the observed phenotypic effects. A significant increase in the activity of the main antioxidant enzymes, lipid peroxidation levels and DNA damage was recorded, along with a reduction in heart rate and somatic growth in exposed organisms. These findings provide new insights into cadmium lesser-known effects spanning multiple levels of biological organization in D. magna even at a low environmentally relevant concentration.
format Artículo científico
id pubmed_41317619
institution PubMed
language en
publishDate 2025
publisher Ecotoxicology and environmental safety
record_format pubmed
spellingShingle Cadmium sub-lethal effects on Daphnia magna - A new take on an old subject.
Pinto, Albano
Macário, Inês P E
Jeremias, Guilherme
Marques, Sérgio M
Lourenço, Joana
Guimarães, Ana Rita
Marques, Sofia L
Moura, Gabriela
Asselman, Jana
Pereira, Patrícia
Pereira, Joana L
Animals
Daphnia
Cadmium
Water Pollutants, Chemical
DNA Methylation
DNA Damage
Lipid Peroxidation
Transcriptome
Epigenesis, Genetic
Daphnia magna
Cadmium sub-lethal effects on Daphnia magna - A new take on an old subject. Pinto, Albano Macário, Inês P E Jeremias, Guilherme Marques, Sérgio M Lourenço, Joana Guimarães, Ana Rita Marques, Sofia L Moura, Gabriela Asselman, Jana Pereira, Patrícia Pereira, Joana L Animals Daphnia Cadmium Water Pollutants, Chemical DNA Methylation DNA Damage Lipid Peroxidation Transcriptome Epigenesis, Genetic Daphnia magna Rising production and use of electronic products leads to higher cadmium usage, increasing the risk of exposure to this dangerous metal. Despite being a classic environmental contaminant, cadmium's full toxicity spectrum and mechanisms of action towards aquatic biota are still in need of further clarification. This work contributes to such clarification by comprehensively characterizing cadmium mechanisms of toxic action resulting from a seven-day exposure to a sub-lethal concentration (EC20; 4.5 µg L) on the freshwater species Daphnia magna. A holistic approach starting at molecular level responses with epigenetic endpoints (total DNA methylation and DNA methyltransferases activity) and transcriptomic analysis (RNA-Seq), then working up to phenotypic effects at the sub-cellular and individual level was applied. Cadmium exposure caused global genome hypomethylation and altered DNA methyltransferases activity. These methylome changes were accompanied by significant changes in gene expression, that correlate with the observed phenotypic effects. A significant increase in the activity of the main antioxidant enzymes, lipid peroxidation levels and DNA damage was recorded, along with a reduction in heart rate and somatic growth in exposed organisms. These findings provide new insights into cadmium lesser-known effects spanning multiple levels of biological organization in D. magna even at a low environmentally relevant concentration.
title Cadmium sub-lethal effects on Daphnia magna - A new take on an old subject.
topic Animals
Daphnia
Cadmium
Water Pollutants, Chemical
DNA Methylation
DNA Damage
Lipid Peroxidation
Transcriptome
Epigenesis, Genetic
Daphnia magna
url https://pubmed.ncbi.nlm.nih.gov/41317619/