Frontiers in Medicinal Chemistry

Volume: 2

Understanding the Molecular Mechanism of Action of Estrogen Receptor Modulators

Author(s): Mary J. Meegan and David G. Lloyd

Pp: 183-231 (49)

DOI: 10.2174/978160805205910502010183

* (Excluding Mailing and Handling)

Abstract

Estrogen receptor modulators are recognised as playing a central role in the regulation of many endocrine functions. In recent years, the discovery of many new members of this class of ligand together with the acquisition of detailed knowledge concerning the structure and molecular mechanism of action of this protein continues to attract widespread interest.

This work details recent advances in the science of estrogen receptor (ER) modulation, with emphasis on the discovery of novel ligands for the ER ligand binding domain (LBD) and summarises the major developments in this area of selective estrogen receptor modulators (SERMs), pure antiestrogens, and related ER modulating ligands in the period 1998-2004. A detailed examination of structural studies of the ERs is presented with analysis of the impact of such works on contemporary ligand design and the molecular pharmacology of the ER. The various classes of ER modulators are discussed on the basis of stuctural similarities including selective estrogen receptor modulators (SERMs) and 'pure' nonsteroidal antiestrogens. Additionally we review the emergence of a novel selective class of modulator - which we have termed the selective estrogen receptor subtype modulators (SERSMs) and, in a departure from LBD strategies we examine the discovery of novel peptide inhibitors of the ER which inhibit transcriptional activiation of agonist liganded receptor through interaction with coactivator recruitment proteins, and offer unique insight to the mechanism of action of all classes of ER modulators. Through examination of patent and classical literature we present a thorough and informative cross-section of the contemporary state of the art in this exciting field of pharmaceutical research.

Related Journals
Related Books
© 2024 Bentham Science Publishers | Privacy Policy