Abstract

Elevated lead (Pb) exposures preferentially impact low socioeconomic status (SES) populations, the same groups thought to sustain the highest levels of environmental stress. As co-occurring risk factors, therefore, Pb and stress could interact, a possibility further supported by the fact that both act on mesocorticolimbic dopamine systems of the brain. We recently demonstrated in rats that maternal Pb exposure could permanently increase basal corticosterone levels of offspring consistent with altered hypothalamic pituitary adrenal (HPA) axis function. The current study was thus designed to test the hypothesis that stress responsivity of offspring should likewise be altered, with the outcome differing in response to Pb, stress or Pb + stress. The impact of intermittent variable stress challenges (restraint, novelty, cold) on behavior sensitive to Pb exposure (fixed interval (FI) schedule-controlled responding) and on stress-induced corticosterone changes were evaluated in adult female offspring of dams that had been exposed to Pb (150 ppm) in drinking water from 2 months prior to breeding through lactation with or without maternal restraint stress on days 16 and 17 of gestation. This design yielded four treatment groups: (NS/0, no maternal Pb, no maternal stress; S/0, no maternal Pb, maternal stress; NS/150, maternal Pb, no maternal stress; and S/150, maternal Pb exposure and maternal stress). While maternal Pb alone and stress alone each altered components of stress responsivity, the greatest number of effects was seen in response to Pb + stress. This included alterations in FI performance following both restraint and cold stress and in the corticosterone response to cold stress. Collectively, these studies reveal that maternal Pb exposure alone can permanently alter stress responsivity and that the profile of effects produced by maternal Pb differ from those produced by maternal Pb in conjunction with stress, findings which have both mechanistic and risk assessment significance.

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