Membrane-initiated actions of estradiol that regulate reproduction, energy balance and body temperature

Martin J. Kelly; Oline K. Rønnekleiv

doi:10.1016/j.yfrne.2012.07.002

Membrane-initiated actions of estradiol that regulate reproduction, energy balance and body temperature

Martin J. Kelly, Oline K. Rønnekleiv

Research output: Contribution to journal › Review article › peer-review

28 Scopus citations

Abstract

It is well known that many of the actions of estrogens in the central nervous system are mediated via intracellular receptor/transcription factors that interact with steroid response elements on target genes. However, there now exists compelling evidence for membrane estrogen receptors in hypothalamic and other brain neurons. But, it is not well understood how estrogens signal via membrane receptors, and how these signals impact not only membrane excitability but also gene transcription in neurons. Indeed, it has been known for sometime that estrogens can rapidly alter neuronal activity within seconds, indicating that some cellular effects can occur via membrane delimited events. In addition, estrogens can affect second messenger systems including calcium mobilization and a plethora of kinases to alter cell signaling. Therefore, this review will consider our current knowledge of rapid membrane-initiated and intracellular signaling by estrogens in the hypothalamus, the nature of receptors involved and how they contribute to homeostatic functions.

Original language	English (US)
Pages (from-to)	376-387
Number of pages	12
Journal	Frontiers in Neuroendocrinology
Volume	33
Issue number	4
DOIs	https://doi.org/10.1016/j.yfrne.2012.07.002
State	Published - Oct 2012

Keywords

ERα
ERβ
GABA receptor
GIRK channels
GnRH
Gαq-mER
PKA
PKC
POMC
μ-Opioid receptor

ASJC Scopus subject areas

Endocrine and Autonomic Systems

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10.1016/j.yfrne.2012.07.002

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title = "Membrane-initiated actions of estradiol that regulate reproduction, energy balance and body temperature",

abstract = "It is well known that many of the actions of estrogens in the central nervous system are mediated via intracellular receptor/transcription factors that interact with steroid response elements on target genes. However, there now exists compelling evidence for membrane estrogen receptors in hypothalamic and other brain neurons. But, it is not well understood how estrogens signal via membrane receptors, and how these signals impact not only membrane excitability but also gene transcription in neurons. Indeed, it has been known for sometime that estrogens can rapidly alter neuronal activity within seconds, indicating that some cellular effects can occur via membrane delimited events. In addition, estrogens can affect second messenger systems including calcium mobilization and a plethora of kinases to alter cell signaling. Therefore, this review will consider our current knowledge of rapid membrane-initiated and intracellular signaling by estrogens in the hypothalamus, the nature of receptors involved and how they contribute to homeostatic functions.",

keywords = "ERα, ERβ, GABA receptor, GIRK channels, GnRH, Gαq-mER, PKA, PKC, POMC, μ-Opioid receptor",

author = "Kelly, {Martin J.} and R{\o}nnekleiv, {Oline K.}",

note = "Funding Information: The authors thank members of their laboratories who contributed to the work described herein, especially Drs. Yuan Fang, Anna Malyala, Jian Qiu, Troy A. Roepke and Chunguang Zhang and Ms. Martha A. Bosch. Also, special thanks to Ms. Martha A. Bosch for her skilled assistance with the illustrations and manuscript preparation. Research reported in this publication was supported by National Institutes Health Grants NS 38809, NS 43330 and DK 68098. The content is solely the responsibility of the authors and does not necessarily represent the official view of the National Institutes of Health.",

year = "2012",

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doi = "10.1016/j.yfrne.2012.07.002",

language = "English (US)",

volume = "33",

pages = "376--387",

journal = "Frontiers in Neuroendocrinology",

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PY - 2012/10

Y1 - 2012/10

N2 - It is well known that many of the actions of estrogens in the central nervous system are mediated via intracellular receptor/transcription factors that interact with steroid response elements on target genes. However, there now exists compelling evidence for membrane estrogen receptors in hypothalamic and other brain neurons. But, it is not well understood how estrogens signal via membrane receptors, and how these signals impact not only membrane excitability but also gene transcription in neurons. Indeed, it has been known for sometime that estrogens can rapidly alter neuronal activity within seconds, indicating that some cellular effects can occur via membrane delimited events. In addition, estrogens can affect second messenger systems including calcium mobilization and a plethora of kinases to alter cell signaling. Therefore, this review will consider our current knowledge of rapid membrane-initiated and intracellular signaling by estrogens in the hypothalamus, the nature of receptors involved and how they contribute to homeostatic functions.

AB - It is well known that many of the actions of estrogens in the central nervous system are mediated via intracellular receptor/transcription factors that interact with steroid response elements on target genes. However, there now exists compelling evidence for membrane estrogen receptors in hypothalamic and other brain neurons. But, it is not well understood how estrogens signal via membrane receptors, and how these signals impact not only membrane excitability but also gene transcription in neurons. Indeed, it has been known for sometime that estrogens can rapidly alter neuronal activity within seconds, indicating that some cellular effects can occur via membrane delimited events. In addition, estrogens can affect second messenger systems including calcium mobilization and a plethora of kinases to alter cell signaling. Therefore, this review will consider our current knowledge of rapid membrane-initiated and intracellular signaling by estrogens in the hypothalamus, the nature of receptors involved and how they contribute to homeostatic functions.

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KW - ERβ

KW - GABA receptor

KW - GIRK channels

KW - GnRH

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KW - POMC

KW - μ-Opioid receptor

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Membrane-initiated actions of estradiol that regulate reproduction, energy balance and body temperature

Abstract

Keywords

ASJC Scopus subject areas

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