Early Environments, Glucocorticoid Receptors, and Behavioral Epigenetics

In 1985, a brief report published in Behavioral Neuroscience established the link between neonatal handling and concentrations of hippocampal glucocorticoid receptors (GR) in the adult rat, suggesting a neurobiological basis for the attenuated stress reactivity observed in handled versus nonhandled offspring. To celebrate the 30th anniversary of Behavioral Neuroscience, this article explores the research that preceded and followed from this brief but significant publication. Changes in hippocampal GR induced by handling were determined to be the outcome of a cascade of cellular and molecular events involving thyroid hormones, serotonin turnover, and transcription factor binding to the Nr3c1 gene, leading to increased GR mRNA and protein. Though many hypotheses were proposed for the "handling effect," the role of handling-induced changes in maternal care, particularly pup licking/grooming (LG), generated a productive scientific framework for understanding the handling phenomenon. Indeed, LG has since been demonstrated to alter GR levels through the signaling pathways described for handling. Moreover, epigenetic mechanisms have been discovered to play a critical role in the effects of early life experience and particularly in the regulation of Nr3c1. Overall, the research avenues that have evolved from the initial finding of handling-induced changes in GR have broad applications to our understanding of plasticity, resilience, and the transmission of traits across generations.