Reviews

Obesogens, stem cells and the maternal programming of obesity. Blumberg presents a review of an environmental obesogen model in which chemicals which stimulate adipogenesis and fat storage may alter adipose tissue homeostasis. The authors review the potential for environmental exposure and the mechanisms, including PPARγ signaling, by which organotins may program the development of obesity.

Cancer as development gone awry: the case for bisphenol-A as a carcinogen. In this review, Sonnenschein et al. examine the impact of xenoestrogens on the development of neoplasms, utilizing studies from animal models and human epidemiologic data. The authors compare the current studies to the unfortunate experience with the use of maternal DES during the 1950's and 1960's to prevent spontaneous abortion. The results provided insight into the possible contribution of xenoestrogens to the increased incidence of breast cancer over the past 50 years.

Original Articles

Effects of early low-level lead exposure on human brain structure, organization and functions. Cecil utilizes the results of the Cincinnati “Lead Study,” in which infants from a birth cohort underwent MRI examinations through six years of age. Higher mean childhood blood lead levels are associated with structural, organizational, and functional changes in the brain, emphasizing the adverse consequences of both pregnancy and childhood lead exposure.

The ovarian dysgenesis syndrome. Louis et al. present a paradigm in which environmental exposures, particularly endocrine disrupting chemicals, may be associated with alterations in ovarian structure and function, ultimately manifest as gynecologic disorders or diseases. The authors emphasize the “exposome” paradigm, as the assessment of the impact of exposures during critical windows of development, as a complement to genomic and epigenetic research.

Choice of animal feed can alter fetal steroid levels and mask developmental effects of endocrine disrupting chemicals. Ruhlen et al. expose in utero mice to maternal diets containing low and high doses of DES, which significantly increase fetal serum estradiol at low dose but reduce serum estradiol at the high dose. In utero DES exposure effects on female onset of puberty and male sperm production are dependent upon the background soy-based Purina diet, emphasizing the potential interaction of environmental toxigens and underlying diets.

Developmental basis of disease: environmental impacts. Collman describes the biologic and epidemiologic issues pertinent to research on developmental impacts of environmental exposures. The author examines the public health implications of both research, communication, and public information of the impact of the developmental effects of environmental chemicals.

Original Articles

The impact of maternal cortisol concentrations on child elasticity. Rondó et al. examine 130 pregnant women and their children at 5–7 years of age, comparing maternal salivary cortisol concentration with offspring elasticity at the radial artery. The finding that exposure to higher glucocorticoid concentrations during the prenatal period is associated with lower arterial elasticity, suggests that excess glucocorticoids may be associated with offspring cardiovascular disease.

A maternal high fat diet in rat pregnancy reduces growth to the fetus and the placental junctional zone but not placental labyrinth zone growth. Mark et al. demonstrate that maternal high fat diet results in a reduction in male and female fetal weights and the weights of the junctional zone of the rat placenta. As many of the placental derive endocrine signals originate from the junctional zone, these findings emphasize the potential effect of maternal diet on fetal and placental endocrine homeostasis.