New insights into the classical and non-classical actions of estrogen: Evidence from estrogen receptor knock-out and knock-in mice

Estrogen receptor alpha (ER alpha) mediates estrogen (E2) actions in the brain and is critical for normal reproductive function and behavior. In the classical pathway, ER alpha binds to estrogen response elements (EREs) to regulate gene transcription. ER alpha can also participate in several non-classical pathways, including ERE-independent gene transcription via protein-protein interactions with transcription factors and rapid, non-genotropic pathways. To distinguish between ERE-dependent and ERE-independent mechanisms of E2 action in vivo, we have created ER alpha null mice that possess an ER knock-in Mutation (E207A/G208A; "AA"), in which the mutant ER alpha cannot bind to DNA but retains activity in ERE-independent pathways (ER alpha(-/AA) mice). Understanding the molecular mechanisms of ER alpha action will be helpful in developing pharmacological therapies that differentiate between ERE-dependent and ERE-independent processes. This review focuses on how the ER alpha(-/AA) model has contributed to our knowledge of ER alpha signaling mechanisms in estrogen regulation of the reproductive axis and sexual behavior. (C) 2008 Elsevier Ireland Ltd. All rights reserved.