Differential uptake and oxidative stress response in zebrafish fed a single dose of the principal copper and zinc enriched sub-cellular fractions of Gammarus pulex

The sub-cellular compartmentalisation of trace metals and its effect on trophic transfer and toxicity in the aquatic food chain has been a subject of growing interest. In the present study, the crustacean Gammarus pulex was exposed to either 11 μg Cu l −1, added solely as the enriched stable isotope...

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Published inAquatic toxicology Vol. 99; no. 4; pp. 466 - 472
Main Authors Khan, Farhan R., Bury, Nicolas R., Hogstrand, Christer
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 15.09.2010
Amsterdam; New York: Elsevier Science
Elsevier
Subjects
Amphipoda
Amphipoda - chemistry
analysis
Analysis of Variance
Animal, plant and microbial ecology
Animals
Applied ecology
bioavailability
Biological and medical sciences
Cell Extracts
Cell Extracts - chemistry
Cell Extracts - pharmacokinetics
Cell Extracts - toxicity
centrifugation
chemistry
copper
Copper - analysis
Copper - toxicity
cytosol
cytotoxicity
Danio rerio
Ecotoxicology, biological effects of pollution
England
feeds
fish
food chain
Freshwater
Fundamental and applied biological sciences. Psychology
Gammarus pulex
gelatin
General aspects
heat stability
intestines
isotopes
Isotopes - analysis
Isotopes - toxicity
lipid peroxidation
Malondialdehyde (MDA)
metabolism
Metal rich granules
Metalloproteins
Metalloproteins - metabolism
Metallothionein
oxidative stress
Oxidative Stress - physiology
pharmacokinetics
physiology
Rivers
stress response
Sub-cellular distribution
Techniques
toxicity
Trophic transfer
Zebrafish
Zebrafish - metabolism
Zebrafish - physiology
zinc
Zinc Radioisotopes
Zinc Radioisotopes - analysis
Zinc Radioisotopes - toxicity
England
Metal rich granules
AE
ROS
Malondialdehyde (MDA)
TBARS
Sub-cellular distribution
MDA
Trophic transfer
Metallothionein
Oxidative stress
Toxicity
Gammarus pulex
Biological marker
Amphipoda
Crustacea
Aquatic environment
Pisces
Granule
Copper
Ecotoxicology
Detoxification
Trophic factor
Metalloproteins
Uptake
Zinc
Heavy metal
Pollutant
Vertebrata
Brachydanio rerio
Arthropoda
Transfer
Cyprinidae
Invertebrata
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Abstract The sub-cellular compartmentalisation of trace metals and its effect on trophic transfer and toxicity in the aquatic food chain has been a subject of growing interest. In the present study, the crustacean Gammarus pulex was exposed to either 11 μg Cu l −1, added solely as the enriched stable isotope 65Cu, or 660 μg Zn l −1, radiolabeled with 2MBq 65Zn, for 16 days. Post-exposure the heat stable cytosol containing metallothionein-like proteins (MTLP) and a combined granular and exoskeletal (MRG + exo) fractions were isolated by differential centrifugation, incorporated into gelatin and fed to zebrafish as a single meal. Assimilation efficiency (AE) and intestinal lipid peroxidation, as malondialdehyde (MDA) were measured. There was a significant difference ( p < 0.05) between the retention of the MTLP-Zn (39.0 ± 6.4%) and MRG + exo-Zn (17.2 ± 3.7%) and of this zinc retained by the zebrafish a significantly greater proportion of the MTLP-Zn feed had been transported away from the site of uptake. For 65Cu, although the results pointed towards greater bioavailability of the MTLP fraction compared to MRG + exo during the slow elimination phase (24–72 h) these results were not significant ( p = 0.155). Neither zinc feed provoked a lipid peroxidation response in the intestinal tissue of zebrafish compared to control fish (gelatin fed), but both 65Cu labeled feeds did. The greater effect was exerted by the MRG + exo (2.96 ± 0.29 nmol MDA mg protein −1) feed which three-fold greater than control ( p < 0.01) and almost twice the MDA concentration of the MTLP feed (1.76 ± 0.21 nmol MDA mg protein −1, p < 0.05). The oxidative stress response produced by Zn and Cu is in keeping with their respective redox potentials; Zn being oxidatively inert and Cu being redox active. These results are similar, in terms of bioavailability and stress response of each feed, to those in our previous study in which 109Cd labeled G. pulex fractions were fed to zebrafish. Thus it appears that when a metal (Cu or Cd) has the potential to cause cytotoxicity via lipid peroxidation, a feed consisting of a largely unavailable fraction (MRG + exo) causes a greater intestinal stress response than the more bioavailable (MTLP) feed.
AbstractList The sub-cellular compartmentalisation of trace metals and its effect on trophic transfer and toxicity in the aquatic food chain has been a subject of growing interest. In the present study, the crustacean Gammarus pulex was exposed to either 11μgCul⁻¹, added solely as the enriched stable isotope ⁶⁵Cu, or 660μgZnl⁻¹, radiolabeled with 2MBq ⁶⁵Zn, for 16 days. Post-exposure the heat stable cytosol containing metallothionein-like proteins (MTLP) and a combined granular and exoskeletal (MRG+exo) fractions were isolated by differential centrifugation, incorporated into gelatin and fed to zebrafish as a single meal. Assimilation efficiency (AE) and intestinal lipid peroxidation, as malondialdehyde (MDA) were measured. There was a significant difference (p <0.05) between the retention of the MTLP-Zn (39.0±6.4%) and MRG+exo-Zn (17.2±3.7%) and of this zinc retained by the zebrafish a significantly greater proportion of the MTLP-Zn feed had been transported away from the site of uptake. For ⁶⁵Cu, although the results pointed towards greater bioavailability of the MTLP fraction compared to MRG+exo during the slow elimination phase (24-72h) these results were not significant (p =0.155). Neither zinc feed provoked a lipid peroxidation response in the intestinal tissue of zebrafish compared to control fish (gelatin fed), but both ⁶⁵Cu labeled feeds did. The greater effect was exerted by the MRG+exo (2.96±0.29nmolMDAmgprotein⁻¹) feed which three-fold greater than control (p <0.01) and almost twice the MDA concentration of the MTLP feed (1.76±0.21nmolMDAmgprotein⁻¹, p <0.05). The oxidative stress response produced by Zn and Cu is in keeping with their respective redox potentials; Zn being oxidatively inert and Cu being redox active. These results are similar, in terms of bioavailability and stress response of each feed, to those in our previous study in which ¹⁰⁹Cd labeled G. pulex fractions were fed to zebrafish. Thus it appears that when a metal (Cu or Cd) has the potential to cause cytotoxicity via lipid peroxidation, a feed consisting of a largely unavailable fraction (MRG+exo) causes a greater intestinal stress response than the more bioavailable (MTLP) feed.
The sub-cellular compartmentalisation of trace metals and its effect on trophic transfer and toxicity in the aquatic food chain has been a subject of growing interest. In the present study, the crustacean Gammarus pulex was exposed to either 11 microg Cu l(-1), added solely as the enriched stable isotope 65Cu, or 660 microg Zn l(-1), radiolabeled with 2MBq (65)Zn, for 16 days. Post-exposure the heat stable cytosol containing metallothionein-like proteins (MTLP) and a combined granular and exoskeletal (MRG+exo) fractions were isolated by differential centrifugation, incorporated into gelatin and fed to zebrafish as a single meal. Assimilation efficiency (AE) and intestinal lipid peroxidation, as malondialdehyde (MDA) were measured. There was a significant difference (p<0.05) between the retention of the MTLP-Zn (39.0+/-6.4%) and MRG+exo-Zn (17.2+/-3.7%) and of this zinc retained by the zebrafish a significantly greater proportion of the MTLP-Zn feed had been transported away from the site of uptake. For 65Cu, although the results pointed towards greater bioavailability of the MTLP fraction compared to MRG+exo during the slow elimination phase (24-72 h) these results were not significant (p=0.155). Neither zinc feed provoked a lipid peroxidation response in the intestinal tissue of zebrafish compared to control fish (gelatin fed), but both 65Cu labeled feeds did. The greater effect was exerted by the MRG+exo (2.96+/-0.29 nmol MDA mg protein(-1)) feed which three-fold greater than control (p<0.01) and almost twice the MDA concentration of the MTLP feed (1.76+/-0.21 nmol MDA mg protein(-1), p<0.05). The oxidative stress response produced by Zn and Cu is in keeping with their respective redox potentials; Zn being oxidatively inert and Cu being redox active. These results are similar, in terms of bioavailability and stress response of each feed, to those in our previous study in which 109Cd labeled G. pulex fractions were fed to zebrafish. Thus it appears that when a metal (Cu or Cd) has the potential to cause cytotoxicity via lipid peroxidation, a feed consisting of a largely unavailable fraction (MRG+exo) causes a greater intestinal stress response than the more bioavailable (MTLP) feed.The sub-cellular compartmentalisation of trace metals and its effect on trophic transfer and toxicity in the aquatic food chain has been a subject of growing interest. In the present study, the crustacean Gammarus pulex was exposed to either 11 microg Cu l(-1), added solely as the enriched stable isotope 65Cu, or 660 microg Zn l(-1), radiolabeled with 2MBq (65)Zn, for 16 days. Post-exposure the heat stable cytosol containing metallothionein-like proteins (MTLP) and a combined granular and exoskeletal (MRG+exo) fractions were isolated by differential centrifugation, incorporated into gelatin and fed to zebrafish as a single meal. Assimilation efficiency (AE) and intestinal lipid peroxidation, as malondialdehyde (MDA) were measured. There was a significant difference (p<0.05) between the retention of the MTLP-Zn (39.0+/-6.4%) and MRG+exo-Zn (17.2+/-3.7%) and of this zinc retained by the zebrafish a significantly greater proportion of the MTLP-Zn feed had been transported away from the site of uptake. For 65Cu, although the results pointed towards greater bioavailability of the MTLP fraction compared to MRG+exo during the slow elimination phase (24-72 h) these results were not significant (p=0.155). Neither zinc feed provoked a lipid peroxidation response in the intestinal tissue of zebrafish compared to control fish (gelatin fed), but both 65Cu labeled feeds did. The greater effect was exerted by the MRG+exo (2.96+/-0.29 nmol MDA mg protein(-1)) feed which three-fold greater than control (p<0.01) and almost twice the MDA concentration of the MTLP feed (1.76+/-0.21 nmol MDA mg protein(-1), p<0.05). The oxidative stress response produced by Zn and Cu is in keeping with their respective redox potentials; Zn being oxidatively inert and Cu being redox active. These results are similar, in terms of bioavailability and stress response of each feed, to those in our previous study in which 109Cd labeled G. pulex fractions were fed to zebrafish. Thus it appears that when a metal (Cu or Cd) has the potential to cause cytotoxicity via lipid peroxidation, a feed consisting of a largely unavailable fraction (MRG+exo) causes a greater intestinal stress response than the more bioavailable (MTLP) feed.
The sub-cellular compartmentalisation of trace metals and its effect on trophic transfer and toxicity in the aquatic food chain has been a subject of growing interest. In the present study, the crustacean Gammarus pulex was exposed to either 11 mu gCul super(-1), added solely as the enriched stable isotope 65Cu, or 660 mu gZnl super(-1), radiolabeled with 2MBq 65Zn, for 16 days. Post-exposure the heat stable cytosol containing metallothionein-like proteins (MTLP) and a combined granular and exoskeletal (MRG+exo) fractions were isolated by differential centrifugation, incorporated into gelatin and fed to zebrafish as a single meal. Assimilation efficiency (AE) and intestinal lipid peroxidation, as malondialdehyde (MDA) were measured. There was a significant difference (p <0.05) between the retention of the MTLP-Zn (39.0 plus or minus 6.4%) and MRG+exo-Zn (17.2 plus or minus 3.7%) and of this zinc retained by the zebrafish a significantly greater proportion of the MTLP-Zn feed had been transported away from the site of uptake. For 65Cu, although the results pointed towards greater bioavailability of the MTLP fraction compared to MRG+exo during the slow elimination phase (24-72h) these results were not significant (p =0.155). Neither zinc feed provoked a lipid peroxidation response in the intestinal tissue of zebrafish compared to control fish (gelatin fed), but both 65Cu labeled feeds did. The greater effect was exerted by the MRG+exo (2.96 plus or minus 0.29nmolMDAmgprotein super(-1)) feed which three-fold greater than control (p <0.01) and almost twice the MDA concentration of the MTLP feed (1.76 plus or minus 0.21nmolMDAmgprotein super(-1), p <0.05). The oxidative stress response produced by Zn and Cu is in keeping with their respective redox potentials; Zn being oxidatively inert and Cu being redox active. These results are similar, in terms of bioavailability and stress response of each feed, to those in our previous study in which 109Cd labeled G. pulex fractions were fed to zebrafish. Thus it appears that when a metal (Cu or Cd) has the potential to cause cytotoxicity via lipid peroxidation, a feed consisting of a largely unavailable fraction (MRG+exo) causes a greater intestinal stress response than the more bioavailable (MTLP) feed.
The sub-cellular compartmentalisation of trace metals and its effect on trophic transfer and toxicity in the aquatic food chain has been a subject of growing interest. In the present study, the crustacean Gammarus pulex was exposed to either 11 μg Cu l −1, added solely as the enriched stable isotope 65Cu, or 660 μg Zn l −1, radiolabeled with 2MBq 65Zn, for 16 days. Post-exposure the heat stable cytosol containing metallothionein-like proteins (MTLP) and a combined granular and exoskeletal (MRG + exo) fractions were isolated by differential centrifugation, incorporated into gelatin and fed to zebrafish as a single meal. Assimilation efficiency (AE) and intestinal lipid peroxidation, as malondialdehyde (MDA) were measured. There was a significant difference ( p < 0.05) between the retention of the MTLP-Zn (39.0 ± 6.4%) and MRG + exo-Zn (17.2 ± 3.7%) and of this zinc retained by the zebrafish a significantly greater proportion of the MTLP-Zn feed had been transported away from the site of uptake. For 65Cu, although the results pointed towards greater bioavailability of the MTLP fraction compared to MRG + exo during the slow elimination phase (24–72 h) these results were not significant ( p = 0.155). Neither zinc feed provoked a lipid peroxidation response in the intestinal tissue of zebrafish compared to control fish (gelatin fed), but both 65Cu labeled feeds did. The greater effect was exerted by the MRG + exo (2.96 ± 0.29 nmol MDA mg protein −1) feed which three-fold greater than control ( p < 0.01) and almost twice the MDA concentration of the MTLP feed (1.76 ± 0.21 nmol MDA mg protein −1, p < 0.05). The oxidative stress response produced by Zn and Cu is in keeping with their respective redox potentials; Zn being oxidatively inert and Cu being redox active. These results are similar, in terms of bioavailability and stress response of each feed, to those in our previous study in which 109Cd labeled G. pulex fractions were fed to zebrafish. Thus it appears that when a metal (Cu or Cd) has the potential to cause cytotoxicity via lipid peroxidation, a feed consisting of a largely unavailable fraction (MRG + exo) causes a greater intestinal stress response than the more bioavailable (MTLP) feed.
The sub-cellular compartmentalisation of trace metals and its effect on trophic transfer and toxicity in the aquatic food chain has been a subject of growing interest. In the present study, the crustacean Gammarus pulex was exposed to either 11 microg Cu l(-1), added solely as the enriched stable isotope 65Cu, or 660 microg Zn l(-1), radiolabeled with 2MBq (65)Zn, for 16 days. Post-exposure the heat stable cytosol containing metallothionein-like proteins (MTLP) and a combined granular and exoskeletal (MRG+exo) fractions were isolated by differential centrifugation, incorporated into gelatin and fed to zebrafish as a single meal. Assimilation efficiency (AE) and intestinal lipid peroxidation, as malondialdehyde (MDA) were measured. There was a significant difference (p<0.05) between the retention of the MTLP-Zn (39.0+/-6.4%) and MRG+exo-Zn (17.2+/-3.7%) and of this zinc retained by the zebrafish a significantly greater proportion of the MTLP-Zn feed had been transported away from the site of uptake. For 65Cu, although the results pointed towards greater bioavailability of the MTLP fraction compared to MRG+exo during the slow elimination phase (24-72 h) these results were not significant (p=0.155). Neither zinc feed provoked a lipid peroxidation response in the intestinal tissue of zebrafish compared to control fish (gelatin fed), but both 65Cu labeled feeds did. The greater effect was exerted by the MRG+exo (2.96+/-0.29 nmol MDA mg protein(-1)) feed which three-fold greater than control (p<0.01) and almost twice the MDA concentration of the MTLP feed (1.76+/-0.21 nmol MDA mg protein(-1), p<0.05). The oxidative stress response produced by Zn and Cu is in keeping with their respective redox potentials; Zn being oxidatively inert and Cu being redox active. These results are similar, in terms of bioavailability and stress response of each feed, to those in our previous study in which 109Cd labeled G. pulex fractions were fed to zebrafish. Thus it appears that when a metal (Cu or Cd) has the potential to cause cytotoxicity via lipid peroxidation, a feed consisting of a largely unavailable fraction (MRG+exo) causes a greater intestinal stress response than the more bioavailable (MTLP) feed.
Author Khan, Farhan R.
Hogstrand, Christer
Bury, Nicolas R.
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Issue 4
Keywords Metal rich granules
AE
ROS
Malondialdehyde (MDA)
TBARS
Sub-cellular distribution
MDA
Trophic transfer
Metallothionein
Oxidative stress
Toxicity
Gammarus pulex
Biological marker
Amphipoda
Crustacea
Aquatic environment
Pisces
Granule
Copper
Ecotoxicology
Detoxification
Trophic factor
Metalloproteins
Uptake
Zinc
Heavy metal
Pollutant
Vertebrata
Brachydanio rerio
Arthropoda
Transfer
Cyprinidae
Invertebrata
Language English
License https://www.elsevier.com/tdm/userlicense/1.0
CC BY 4.0
2010 Elsevier B.V. All rights reserved.
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Notes http://dx.doi.org/10.1016/j.aquatox.2010.06.007
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content type line 23
ObjectType-Article-2
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Elsevier
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Snippet The sub-cellular compartmentalisation of trace metals and its effect on trophic transfer and toxicity in the aquatic food chain has been a subject of growing...
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SubjectTerms Amphipoda
Amphipoda - chemistry
analysis
Analysis of Variance
Animal, plant and microbial ecology
Animals
Applied ecology
bioavailability
Biological and medical sciences
Cell Extracts
Cell Extracts - chemistry
Cell Extracts - pharmacokinetics
Cell Extracts - toxicity
centrifugation
chemistry
copper
Copper - analysis
Copper - toxicity
cytosol
cytotoxicity
Danio rerio
Ecotoxicology, biological effects of pollution
England
feeds
fish
food chain
Freshwater
Fundamental and applied biological sciences. Psychology
Gammarus pulex
gelatin
General aspects
heat stability
intestines
isotopes
Isotopes - analysis
Isotopes - toxicity
lipid peroxidation
Malondialdehyde (MDA)
metabolism
Metal rich granules
Metalloproteins
Metalloproteins - metabolism
Metallothionein
oxidative stress
Oxidative Stress - physiology
pharmacokinetics
physiology
Rivers
stress response
Sub-cellular distribution
Techniques
toxicity
Trophic transfer
Zebrafish
Zebrafish - metabolism
Zebrafish - physiology
zinc
Zinc Radioisotopes
Zinc Radioisotopes - analysis
Zinc Radioisotopes - toxicity
Title Differential uptake and oxidative stress response in zebrafish fed a single dose of the principal copper and zinc enriched sub-cellular fractions of Gammarus pulex
URI https://dx.doi.org/10.1016/j.aquatox.2010.06.007
https://www.ncbi.nlm.nih.gov/pubmed/20638736
https://www.proquest.com/docview/1501359270
https://www.proquest.com/docview/748999484
https://www.proquest.com/docview/762278451
Volume 99
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