The Efficiency of Maternal Transfer of Lead and Its Influence on Plasma IgE and Splenic Cellularity of Mice

doi:10.1093/toxsci/57.1.87

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Toxicological Sciences 57, 87-94 (2000)
Copyright © 2000 by the Society of Toxicology

Immunotoxicology

The Efficiency of Maternal Transfer of Lead and Its Influence on Plasma IgE and Splenic Cellularity of Mice

Jennifer E. Snyder, Nikolay M. Filipov, Patrick J. Parsons and David A. Lawrence¹

Wadsworth Center, New York State Department of Health, P.O. Box 509, Albany, New York 12201-0509

Exposure to the well known environmental toxicant lead is typicallyassessed by blood and/or bone levels and has been implicatedin the onset of a variety of diseases affecting multiple humansystems. However, there are conflicting data regarding the efficiencyof in utero versus lactational transfer of lead to offspring,and the immunomodulatory effects of lead in early life havenot been well defined. Pregnant BALB/c mice were exposed tolead acetate in their drinking water beginning at approximatelyday 15 of gestation, and cross-fostering of exposed/nonexposedlitters was performed at parturition. Significant increasesof blood lead levels of all exposed offspring were found at1 week of age with evidence for both transplacental and lactationaltransfer. Additionally, mice exposed to lead continuously beginningat approximately 6 days prior to birth showed significant decreasesin their blood lead levels 2 weeks after weaning, despite continuedexposure as adults. This result suggests maternal transfer oflead is more efficient than oral adult exposure and that substantiallead transfer occurs both transplacentally and lactationally.The incidence of childhood atopic responses including asthmahas risen considerably in recent years, particularly withinareas containing higher levels of environmental pollutants.Plasma IgE levels of 2-week-old neonates exposed to lead beforeand/or after birth were measured as an index of atopy. Neonatesexposed to lead transplacentally and/or lactationally had significantlyhigher plasma IgE levels, a biomarker of atopy, and lower splenicwhite blood cell numbers than age-matched controls. These resultsresemble the lag in immunocompetency and increase in serum IgEnoted in atopic children and suggest a role for environmentaltoxicants and non–allergen-specific immunology in theprevalence of atopy and asthma in children.

Key Words: lead; IgE; transplacental; lactational; neonate; allergy; immunomodulation.

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