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H NMR spectroscopic characterisation of HepG2 cells as a model metabolic system for toxicology studies. | LitMetric

H NMR spectroscopic characterisation of HepG2 cells as a model metabolic system for toxicology studies.

Toxicol In Vitro

Centre for Computational and Systems Medicine, Health Futures Institute, Harry Perkins Building, Murdoch University, Perth, WA 6150, Australia; Medical, Molecular and Forensic Sciences, Murdoch University, 90 South Street, Murdoch, WA 6150, Australia. Electronic address:

Published: August 2024

AI Article Synopsis

  • - The HepG2 cell line is frequently utilized in toxicology studies as a substitute for animal testing because it mimics liver functions, but its metabolic responses to toxins were not well-understood before this research.
  • - Using H NMR spectroscopy, the study analyzed metabolic changes in HepG2 cells before and after exposure to hydrogen peroxide (HO), identifying multiple altered metabolites in live cells, cell extracts, and spent media.
  • - The research revealed that HO exposure disrupted at least 10 biochemical pathways related to essential metabolic processes, enhancing the capability of NMR profiling in future toxicity assessments of liver cell models.

Article Abstract

The immortalised human hepatocellular HepG2 cell line is commonly used for toxicology studies as an alternative to animal testing due to its characteristic liver-distinctive functions. However, little is known about the baseline metabolic changes within these cells upon toxin exposure. We have applied H Nuclear Magnetic Resonance (NMR) spectroscopy to characterise the biochemical composition of HepG2 cells at baseline and post-exposure to hydrogen peroxide (HO). Metabolic profiles of live cells, cell extracts, and their spent media supernatants were obtained using H high-resolution magic angle spinning (HR-MAS) NMR and H NMR spectroscopic techniques. Orthogonal partial least squares discriminant analysis (O-PLS-DA) was used to characterise the metabolites that differed between the baseline and HO treated groups. The results showed that HO caused alterations to 10 metabolites, including acetate, glutamate, lipids, phosphocholine, and creatine in the live cells; 25 metabolites, including acetate, alanine, adenosine diphosphate (ADP), aspartate, citrate, creatine, glucose, glutamine, glutathione, and lactate in the cell extracts, and 22 metabolites, including acetate, alanine, formate, glucose, pyruvate, phenylalanine, threonine, tryptophan, tyrosine, and valine in the cell supernatants. At least 10 biochemical pathways associated with these metabolites were disrupted upon toxin exposure, including those involved in energy, lipid, and amino acid metabolism. Our findings illustrate the ability of NMR-based metabolic profiling of immortalised human cells to detect metabolic effects on central metabolism due to toxin exposure. The established data sets will enable more subtle biochemical changes in the HepG2 model cell system to be identified in future toxicity testing.

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Source
http://dx.doi.org/10.1016/j.tiv.2024.105881DOI Listing

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