Obesogens

Abstract

The environmental obesogen hypothesis postulates chemical pollutants that are able to promote obesity by altering homeostatic metabolic set-points, disrupting appetite controls, perturbing lipid homeostasis to promote adipocyte hypertrophy, or stimulating adipogenic pathways that enhance adipocyte hyperplasia during development or in adults. This review focuses on recent experimental advances for candidate obesogens that target nuclear hormone receptors when a direct link between exposure, modulation of transcriptional networks and adipogenic phenotypes can be rationalized. Various endocrine disrupting chemicals can disrupt hormonal signaling relevant to adipose tissue biology. In this review, progress on one identified obesogen, the organotin tributyltin, will be outlined to highlight principles and novel insights into its high-affinity nuclear hormone receptor-mediated mechanism, its effects on adipocyte biology, its potential to promote long-term obesogenic changes and its epidemiological relevance. When appropriate, important results for other suspected obesogenic ligands, including bisphenol A, phthalates, polybrominated diphenyl ethers and perfluoro-compounds, will highlight corroborating principles. These examples serve to provide perspective on the potential harm that man-made obesogenic pollutants pose to human health, focus attention on areas in which knowledge remains inadequate and prompt a re-evaluation of the causative risk factors driving the current changes in obesity rates.