Neurobiology of Disease (May 2010)

Occupational exposure to PCBs reduces striatal dopamine transporter densities only in women: A β-CIT imaging study

  • Richard F. Seegal,
  • Kenneth L. Marek,
  • John P. Seibyl,
  • Danna L. Jennings,
  • Eric S. Molho,
  • Donald S. Higgins,
  • Stewart A. Factor,
  • Edward F. Fitzgerald,
  • Elaine A. Hills,
  • Susan A. Korrick,
  • Mary S. Wolff,
  • Richard F. Haase,
  • Andrew C. Todd,
  • Patrick Parsons,
  • Robert J. McCaffrey

Journal volume & issue
Vol. 38, no. 2
pp. 219 – 225

Abstract

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We hypothesize that occupational exposure to PCBs is associated with a reduction in central dopamine (DA) similar to changes previously seen in PCB exposed adult non-human primates. To test that hypothesis, we used [123I]β-CIT SPECT imaging to estimate basal ganglia DA transporter density in former capacitor workers. Women, but not men, showed an inverse relationship between lipid-adjusted total serum PCB concentrations and DA transporter densities in the absence of differences in serum PCB concentrations. These sex differences may reflect age-related reductions in the levels of gonadal hormones since these hormones have been shown experimentally to alter response to DA neurotoxicants. These findings may aid in better understanding the roles that sex and age play in modifying central DA function following exposure, not only to PCBs, but also to other DA neurotoxicants as well as further elucidating the role of gonadal hormones in influencing the initiation and/or progression of neurodegenerative disorders.

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