Elevated levels of biomarkers of oxidative stress and renal injury linked to nitrogenous flame retardants exposure in e-waste dismantling site: A case study in China

Chemosphere. 2023 Feb:314:137747. doi: 10.1016/j.chemosphere.2023.137747. Epub 2023 Jan 3.

Abstract

Nitrogenous flame retardants (NFRs) have aroused worldwide public concern as their nephrotoxic effect. However, knowledge regarding the pathogenesis mechanism of their exposure to induce kidney injury remains largely unknown. In this study, eight NFRs, four oxidative stress biomarkers (OSBs), and one kidney injury biomarker, namely neutrophil gelatinase-associated lipocalin (NGAL), were measured in urine specimens collected from residents living around e-waste disassembly and reference areas, representing two exposure scenarios. Significant higher concentrations of Σ8NFR (median: 70.6 vs. 33.8 μg/g Cre) and five biomarkers (124 vs. 97.4 μg/g Cre) were found in urines of populations living in e-waste site compared to those in the reference site (p < 0.05). Primary NFRs exhibited significant positive associations with OSBs and NGAL regardless of the population examined, implying that chronic NFRs exposure could induce oxidative stress and kidney damage. By using structure equation model, we found that oxidative stress, particularly DNA and RNA oxidation mediated 16.1% of the total effect of NFRs on NGAL in e-waste related people, but not on the general population. Overall, this study suggests long-term chronic exposure to NFRs can induce oxidative stress and renal injury in humans but the pathogenesis mode may be scenario-specific.

Keywords: E-waste dismantling; Mediating effect analysis; Nitrogenous flame retardants; Oxidative stress; Renal injury.

MeSH terms

  • Biomarkers / urine
  • China
  • Electronic Waste* / adverse effects
  • Electronic Waste* / analysis
  • Flame Retardants* / toxicity
  • Humans
  • Kidney
  • Lipocalin-2
  • Oxidative Stress

Substances

  • Flame Retardants
  • Lipocalin-2
  • Biomarkers