Coregulator Function: A Key to Understanding Tissue Specificity of Selective Receptor Modulators

Ligands for the nuclear receptor superfamily control many aspects of biology, including development, reproduction, and homeostasis, through regulation of the transcriptional activity of their cognate receptors. Selective receptor modulators (SRMs) are receptor ligands that exhibit agonistic or antag...

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Bibliographic Details
Published in:Endocrine reviews 2004-02, Vol.25 (1), p.45-71
Main Authors: Smith, Carolyn L, O’Malley, Bert W
Format: Article
Language:English
Subjects:
Animals
Biological and medical sciences
Cell receptors
Cell structures and functions
Estrogen receptors
Estrogens
Feedback, Physiological
Fundamental and applied biological sciences. Psychology
Gene regulation
Homeostasis
Hormone receptors. Growth factor receptors. Cytokine receptors. Prostaglandin receptors
Humans
Ligands
Localization
Modulators
Molecular and cellular biology
Nuclear receptors
Organ Specificity
Receptor mechanisms
Receptors
Receptors, Cytoplasmic and Nuclear - metabolism
Receptors, Estrogen - metabolism
Receptors, Progesterone - metabolism
Selective Estrogen Receptor Modulators - metabolism
Tamoxifen - metabolism
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Summary:Ligands for the nuclear receptor superfamily control many aspects of biology, including development, reproduction, and homeostasis, through regulation of the transcriptional activity of their cognate receptors. Selective receptor modulators (SRMs) are receptor ligands that exhibit agonistic or antagonistic biocharacter in a cell- and tissue context-dependent manner. The prototypical SRM is tamoxifen, which as a selective estrogen receptor modulator, can activate or inhibit estrogen receptor action. SRM-induced alterations in the conformation of the ligand-binding domains of nuclear receptors influence their abilities to interact with other proteins, such as coactivators and corepressors. It has been postulated, therefore, that the relative balance of coactivator and corepressor expression within a given target cell determines the relative agonist vs. antagonist activity of SRMs. However, recent evidence reveals that the cellular environment also plays a critical role in determining SRM biocharacter. Cellular signaling influences the activity and subcellular localization of coactivators and corepressors as well as nuclear receptors, and this contributes to gene-, cell-, and tissue-specific responses to SRM ligands. Increased understanding of the effect of cellular environment on nuclear receptors and their coregulators has the potential to open the field of SRM discovery and research to many members of the nuclear receptor superfamily.
ISSN:0163-769X
1945-7189
DOI:10.1210/er.2003-0023