Dental Materials
Volume 24, Issue 6 , Pages 765-772, June 2008

Effect of mercury(II) on Nrf2, thioredoxin reductase-1 and thioredoxin-1 in human monocytes

  • John C. Wataha

      Affiliations

    • University of Washington, Seattle, WA 98195-7456, USA
    • Corresponding Author InformationCorresponding author. Tel.: +1 206 543 5948; fax: +1 206 543 7783.
    • ,
  • Jill B. Lewis

      Affiliations

    • Medical College of Georgia, Augusta, GA 30912-1160, USA
    • ,
  • Veronica V. McCloud

      Affiliations

    • Medical College of Georgia, Augusta, GA 30912-1160, USA
    • ,
  • Melissa Shaw
    • ,
  • Yo Omata

      Affiliations

    • Hokkaido University, Sapporo, Japan
    • ,
  • Petra E. Lockwood

      Affiliations

    • Medical College of Georgia, Augusta, GA 30912-1160, USA
    • ,
  • Regina L.W. Messer

      Affiliations

    • Medical College of Georgia, Augusta, GA 30912-1160, USA
    • ,
  • Jason M. Hansen

      Affiliations

    • Emory University, Atlanta, GA, USA

Received 11 July 2007; received in revised form 30 August 2007; accepted 4 September 2007.

Abstract 

Objectives

Human blood levels of mercury are commonly 10nM, but may transiently reach 50–75nM after dental amalgam placement or removal. Controversy persists about the use of mercury because the effects of these ‘trace’ levels of mercury are not clear. Concentrations of mercury ≥5000nM unequivocally alter redox balance in blood cells including monocytes. In the current study, we tested a hypothesis that concentrations of mercury <100nM altered levels and activities of key proteins that maintain monocytic redox balance.

Methods

Human THP1 monocytes were exposed to 10–75nM of Hg(II) for 6–72h, with or without activation by lipopolysaccharide (LPS). The redox management proteins Nrf2 and thioredoxin-1 (Trx1) were separated by electrophoresis, then quantified by immunoblotting. The activity of the seleno-enzyme thioredoxin reductase (TrxR1), important in maintaining Trx1 redox balance, was measured by cell-free and cell-dependent assays.

Results

Concentrations of Hg(II) between 10–75nM increased Nrf2 levels (3.5–4.5 fold) and decreased Trx1 levels (2–3 fold), but these changes persisted <24h. Hg(II) potently inhibited (at concentrations of 5–50nM) TrxR1 activity in both cell-free and intracellular assays. Furthermore, Hg(II) transiently amplified LPS-induced Nrf2 levels by 2–3 fold and limited LPS-induced decreases in Trx1. All effects of Hg(II) were mitigated by pre-adding N-acetyl-cysteine (NAC) or sodium selenide (Na2SeO3), supplements of cellular thiols and selenols, respectively.

Significance

Our results suggest that nanomolar concentrations of Hg(II) transiently alter cellular redox balance in monocytes that trigger changes in Nrf2 and Trx1 levels. These changes indicate that monocytes have a capacity to adapt to trace concentrations of Hg(II) that are introduced into the bloodstream after dental amalgam procedures or fish consumption. The ability of monocytes to adapt suggests that low levels of mercury exposure from dental amalgam may not overtly compromise monocyte function.

Keywords: Thioredoxin-1, Trx1, Nrf2, Thioredoxin reductase-1, TrxR1, Cytotoxicity, Mercury, Hg(II), Dental amalgam, Redox balance, Biocompatibility

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PII: S0109-5641(07)00220-5

doi:10.1016/j.dental.2007.09.002

Dental Materials
Volume 24, Issue 6 , Pages 765-772, June 2008

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