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61,005 resultsShowing papers similar to The Combined Effect of Copper Nanoparticles and Microplastics on Transcripts Involved in Oxidative Stress Pathway in Rainbow Trout (Oncorhynchus Mykiss) Hepatocytes
ClearHepatic transcriptomic and histopathological responses of common carp, Cyprinus carpio, to copper and microplastic exposure
Researchers investigated how PVC microplastics interact with copper exposure in common carp over 14 days. They found that the microplastic particles acted as a vector for copper, increasing its accumulation in the liver and worsening tissue damage beyond what either pollutant caused alone. The study suggests that microplastics can amplify the toxic effects of heavy metals in freshwater fish.
Copper and Microplastic Exposure Affects the Gill Gene Expression of Common Carp During Saltwater Challenge
This study examined how combined copper and microplastic exposure affects gill gene expression in common carp, finding synergistic stress responses including upregulation of genes involved in oxidative stress defense and immune function.
Toxic Effect of Combined Exposure of Microplastics and Copper on Goldfish (Carassius auratus): Insight from Oxidative Stress, Inflammation, Apoptosis and Autophagy in Hepatopancreas and Intestine
Researchers found that combined exposure to microplastics and copper in goldfish significantly enhanced copper accumulation and tissue damage in the hepatopancreas and intestine, triggering oxidative stress, inflammation, apoptosis, and autophagy beyond the effects of either pollutant alone.
Combined effects of microplastics and copper on oxidative responses in zebrafish (Danio rerio)
Researchers exposed zebrafish (Danio rerio) to microplastics (10 µg/L) and copper (45 µg/L) individually and in combination, finding that fish exposed to both stressors simultaneously exhibited higher oxidative stress across multiple body organs than those exposed to either contaminant alone.
Combined effects of polystyrene microplastics and copper on antioxidant capacity, immune response and intestinal microbiota of Nile tilapia (Oreochromis niloticus)
Researchers examined the combined effects of polystyrene microplastics and copper on Nile tilapia and found that co-exposure increased copper accumulation in the liver and caused tissue damage in multiple organs. High concentrations of both contaminants together triggered oxidative stress, inflammation, and shifts in intestinal microbial communities. The study suggests that microplastics can worsen the toxic effects of heavy metals on freshwater fish.
Toxic effects of polyethylene microplastics on transcriptional changes, biochemical response, and oxidative stress in common carp (Cyprinus carpio)
Researchers exposed common carp to varying concentrations of polyethylene microplastics and assessed biochemical, oxidative, and gene expression changes. The study found that microplastic exposure caused significant oxidative stress, altered liver enzyme activity, and modified the expression of stress-related genes in a dose-dependent manner.
Combined effects of microplastics and copper on antioxidant capacity, gut microbiome, and metabolomics of Pseudorasbora parva
Researchers studied the combined effects of microplastics and copper on the freshwater fish Pseudorasbora parva, examining antioxidant capacity, gut microbiota, and metabolic responses. They found that the presence of microplastics alongside copper actually reduced copper accumulation in tissues and lessened oxidative damage compared to copper exposure alone. The study suggests that while microplastics can alter the toxicity profile of metals in fish, the interactions are complex and involve metabolic adjustments that balance cellular repair and energy expenditure.
Histopathological damage and stress‐ and immune‐related genes' expression in the intestine of common carp, Cyprinus carpio exposed to copper and polyvinyl chloride microparticle
Researchers examined the combined effects of copper and PVC microplastics on common carp intestines, finding that co-exposure caused greater histopathological damage and altered stress- and immune-related gene expression compared to either contaminant alone.
Toxicity of microplastics and copper, alone or combined, in blackspot seabream (Pagellus bogaraveo) larvae
Researchers examined the toxicity of microplastics and copper, alone and combined, on blackspot seabream larvae, finding that microplastic-copper mixtures can alter biochemical biomarkers and gene expression related to oxidative stress and immune response in developing fish.
Pre-Exposure of Common Carp to Ambient Copper and Microplastic Changes the Gill Ionoregulaion-Related Transcripts During Saltwater Exposure
Common carp were pre-exposed to copper alone or with polyvinyl chloride microplastics for 14 days, then challenged with brackish water to test how microplastic co-exposure alters gill physiology and metal accumulation. Combined exposure changed gill copper concentrations and altered physiological responses to salinity stress, suggesting microplastics modify how fish handle heavy metal toxicity.
Impact and Molecular Mechanism of Microplastics on Zebrafish in the Presence and Absence of Copper Nanoparticles
Polystyrene microplastics of three sizes combined with copper nanoparticles caused additive or synergistic toxicity in zebrafish, disrupting oxidative stress responses, gene expression, and early development, with 0.07-micrometer particles producing the most severe effects.
Single and combined acute and subchronic toxic effects of microplastics and copper in zebrafish (Danio rerio) early life stages
Researchers exposed zebrafish embryos and larvae to microplastics, copper, and their combinations to assess individual and combined toxic effects. They found that microplastics alone caused limited harm, but when combined with copper, the mixture produced altered biochemical responses and changes in gene expression. The study suggests that microplastics can modify the toxicity of heavy metals in aquatic organisms during early development.
Microplastics and copper effects on the neotropical teleost Prochilodus lineatus: Is there any interaction?
Researchers exposed the neotropical fish Prochilodus lineatus to polyethylene microplastics and copper separately and together, finding that microplastics alone caused oxidative stress and genotoxic effects, while combined exposure with copper did not consistently amplify harm compared to either stressor alone.
Toxicity Effects of Microplastics Individually and in Combination the Fish Pathogen Yersinia Ruckeri on the Rainbow Trout (Oncorhynchus Mykiss)
Researchers found that co-exposure of rainbow trout to polystyrene microplastics and the fish pathogen Yersinia ruckeri exacerbated blood biochemical disruptions and hepatic oxidative stress compared to either stressor alone. The results suggest microplastics may act as a predisposing factor that amplifies bacterial infection severity in fish.
New insights into the responding mechanism of Eriocheir sinensis hepatopancreas under nanoplastics and copper stress by transcriptome analysis
Researchers used transcriptome analysis to investigate how nanoplastics and copper individually and in combination affect the hepatopancreas of Chinese mitten crabs. They found that co-exposure led to greater accumulation and more severe tissue damage than either pollutant alone, with significant disruptions to immune and metabolic gene pathways. The study suggests that nanoplastics may enhance the toxicity of heavy metals in aquatic organisms through synergistic interactions.
The impact of microplastics and copper on sex ratio and oxidative stress: analysis in zebrafish intestine, gonad and brain
Researchers exposed zebrafish embryos to copper, polyethylene, and polystyrene microplastics individually and in combination, finding that copper caused high mortality, PE alone induced a feminization trend, and co-exposure amplified adverse effects on sex differentiation and antioxidant enzyme activity.
The impact of combined exposure to triphenyltin and microplastics on the oxidative stress, energy metabolism, and digestive function of common carp (Cyprinus carpio)
Exposing common carp to triphenyltin and microplastics individually and in combination found that combined exposure caused greater oxidative stress, disrupted energy metabolism more severely, and more strongly impaired digestive enzyme activity than either pollutant alone.
The effects of exposure to microplastics on grass carp (Ctenopharyngodon idella) at the physiological, biochemical, and transcriptomic levels
Researchers exposed grass carp to microplastics at two concentrations for 21 days and observed liver damage, inhibited growth, and increased oxidative stress. Transcriptome analysis revealed over 1,500 differentially expressed genes related to immune response, metabolism, and cellular stress pathways. The study suggests that microplastic exposure can trigger broad physiological and molecular disruptions in freshwater fish.
Oxidative stress, apoptosis and serotonergic system changes in zebrafish (Danio rerio) gills after long-term exposure to microplastics and copper
Researchers exposed adult zebrafish to microplastics and copper for 30 days and examined the effects on their gill tissue. They found that the combination caused greater oxidative stress, increased cell death, and disrupted the serotonin signaling system in gills more than either pollutant alone. The study demonstrates that microplastics can amplify the toxic effects of heavy metals on fish respiratory organs.
Single and combined effects of CuSO4 and polyethylene microplastics on biochemical endpoints and physiological impacts on the narrow-clawed crayfish Pontastacus leptodactylus
Researchers exposed freshwater crayfish to polyethylene microplastics and copper sulfate, both alone and together, for 28 days. The combination caused worse effects than either pollutant alone, including liver damage, immune suppression, and increased oxidative stress. This suggests microplastics can amplify the harmful effects of other environmental pollutants in aquatic food sources.
Co-exposure of decabromodiphenyl ethane and polystyrene nanoplastics damages grass carp (Ctenopharyngodon idella) hepatocytes: Focus on the role of oxidative stress, ferroptosis, and inflammatory reaction
Researchers found that combined exposure of grass carp liver cells to polystyrene nanoplastics and the flame retardant DBDPE triggered stronger oxidative stress, iron overload-mediated cell death (ferroptosis), and inflammatory cytokine release than either pollutant alone, with the ferroptosis inhibitor ferrostatin-1 partially reversing the damage.
Toxicological effects induced on early life stages of zebrafish (Danio rerio) after an acute exposure to microplastics alone or co-exposed with copper
Researchers exposed zebrafish embryos to microplastics alone and combined with copper to assess their joint toxicity during early development. They found that copper, both alone and combined with microplastics, reduced survival, increased oxidative stress, inhibited a key nervous system enzyme, and disrupted avoidance and social behaviors. The study suggests that microplastics may modulate copper toxicity in some biological endpoints, highlighting the importance of studying combined pollutant exposures during vulnerable developmental stages.
Transcriptome analysis provides insights into copper toxicology in piebald naked carp (Gymnocypris eckloni)
Researchers exposed piebald naked carp to copper — a common water pollutant — and found it significantly disrupted gene activity in the gills and liver, particularly genes involved in building proteins, suggesting that fish respond to metal-induced stress by broadly slowing down protein production as a protective mechanism.
Evaluation of Detoxification‐Related Gene Expression, Oxidative Stress Biomarkers, and Blood Biochemical Parameters in Common Carp ( Cyprinus carpio ) Co‐Exposed to Polyethylene Microplastics and Deltamethrin
Researchers investigated whether polyethylene microplastics worsen the toxic effects of the insecticide deltamethrin in juvenile common carp over a 30-day exposure. The study found that co-exposure to microplastics and deltamethrin affected detoxification-related gene expression, oxidative stress biomarkers, and blood biochemistry, suggesting that microplastics can modify the bioavailability and toxicity of co-occurring pesticides in fish.