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The Kinetic Signature of Toxicity of Four Heavy Metals and Their Mixtures on MCF7 Breast Cancer Cell Line

Author

Listed:
  • Egbe Egiebor

    (Department of Natural Sciences, University of Maryland Eastern Shore, Princess Anne, MD 21853, USA)

  • Adam Tulu

    (Department of Natural Sciences, University of Maryland Eastern Shore, Princess Anne, MD 21853, USA)

  • Nadia Abou-Zeid

    (Department of Natural Sciences, University of Maryland Eastern Shore, Princess Anne, MD 21853, USA)

  • Isoken Tito Aighewi

    (Department of Biology, Chemistry and Environmental Health Sciences, Benedict College, Columbia, SC 29204, USA)

  • Ali Ishaque

    (Department of Natural Sciences, University of Maryland Eastern Shore, Princess Anne, MD 21853, USA)

Abstract

This study evaluated the kinetic signature of toxicity of four heavy metals known to cause severe health and environmental issues—cadmium (Cd), mercury (Hg) lead (Pb) arsenic (As)—and the mixture of all four metals (Mix) on MCF7 cancer cells, in the presence and absence of the antioxidant glutathione (GSH). The study was carried out using real time cell electronic sensing (RT-CES). RT-CES monitors in real time the electrical impedance changes at the electrode/culture medium interface due to the number of adhered cells, which is used as an index of cell viability. Cells were seeded for 24 h before exposure to the metals and their mixtures. The results showed that in the presence and absence of cellular glutathione, arsenic was the most cytotoxic of all five treatments, inducing cell death after 5 h of exposure. Lead was the least cytotoxic in both scenarios. In the presence of cellular GSH, the cytotoxic trend was As > Cd > MIX > Hg > Pb, while in the absence of GSH, the cytotoxic trend was As > Hg > MIX > Cd > Pb. The findings from this study indicate the significance of glutathione-mediated toxicity of the metals examined—particularly for mercury—and may be clinically relevant for disorders such as autism spectrum disorder where decreased glutathione-based detoxification capacity is associated with increased mercury intoxication.

Suggested Citation

  • Egbe Egiebor & Adam Tulu & Nadia Abou-Zeid & Isoken Tito Aighewi & Ali Ishaque, 2013. "The Kinetic Signature of Toxicity of Four Heavy Metals and Their Mixtures on MCF7 Breast Cancer Cell Line," IJERPH, MDPI, vol. 10(10), pages 1-12, October.
  • Handle: RePEc:gam:jijerp:v:10:y:2013:i:10:p:5209-5220:d:29698
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