(1)H NMR-based metabolomics investigation of Daphnia magna responses to sub-lethal exposure to arsenic, copper and lithium | Health & Environmental Research Online (HERO)

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Citation
Tags

HERO ID

1936094

Reference Type

Journal Article

Title

(1)H NMR-based metabolomics investigation of Daphnia magna responses to sub-lethal exposure to arsenic, copper and lithium

Author(s)

Nagato, EG; D'eon, JC; Lankadurai, BP; Poirier, DG; Reiner, EJ; Simpson, AJ; Simpson, MJ

Year

2013

Is Peer Reviewed?

Yes

Journal

Chemosphere
ISSN: 0045-6535
EISSN: 1879-1298

Volume

Issue

Page Numbers

331-337

Language

English

PMID

23732010

DOI

10.1016/j.chemosphere.2013.04.085

Web of Science Id

WOS:000324667700017

Abstract

Metal and metalloid contamination constitutes a major concern in aquatic ecosystems. Thus it is important to find rapid and reliable indicators of metal stress to aquatic organisms. In this study, we tested the use of (1)H nuclear magnetic resonance (NMR) - based metabolomics to examine the response of Daphnia magna neonates after a 48h exposure to sub-lethal concentrations of arsenic (49μgL(-1)), copper (12.4μgL(-1)) or lithium (1150μgL(-1)). Metabolomic responses for all conditions were compared to a control using principal component analysis (PCA) and metabolites that contributed to the variation between the exposures and the control condition were identified and quantified. The PCA showed that copper and lithium exposures result in statistically significant metabolite variations from the control. Contributing to this variation was a number of amino acids such as: phenylalanine, leucine, lysine, glutamine, glycine, alanine, methionine and glutamine as well as the nucleobase uracil and osmolyte glycerophosphocholine. The similarities in metabolome changes suggest that lithium has an analogous mode of toxicity to that of copper, and may be impairing energy production and ionoregulation. The PCA also showed that arsenic exposure resulted in a metabolic shift in comparison to the control population but this change was not statistically significant. However, significant changes in specific metabolites such as alanine and lysine were observed, suggesting that energy metabolism is indeed disrupted. This research demonstrates that (1)H NMR-based metabolomics is a viable platform for discerning metabolomic changes and mode of toxicity of D. magna in response to metal stressors in the environment.

Keywords

Metal contamination; Metabolome; Mining; Sub-lethal stress; Amino acids

Tags

IRIS
• Arsenic (Inorganic)
     1. Literature
          Lit search updates through Oct 2015
     3. Hazard ID Screening
          Other potentially supporting studies
• Inorganic Arsenic (7440-38-2) [Final 2025]
          PubMed
          Considered New
          PubMed
          ToxNet
          Considered New
          WOS
          ToxNet
          Excluded
               Toxnet Duplicates
          ToxNet
          Excluded
               Toxnet Duplicates
          ToxNet
          Excluded
               Toxnet Duplicates
     2. Lit Search Updates through Oct 2015
          PubMed
          WOS
          ToxNet
          Considered
     7. Other Studies through Oct 2015
          Ecology