Role of ER[alpha] in the Effect of Estradiol on Cancellous and Cortical Femoral Bone in Growing Female Mice

Estrogen receptor-[alpha] (ER[alpha]) acts primarily in the nucleus as a transcription factor involving two activation functions, AF1 and AF2, but it can also induce membrane-initiated steroid signaling (MISS) through the modulation of various kinase activities and/or secondary messenger levels. Pre...

Full description

Saved in:
Bibliographic Details
Published in:Endocrinology (Philadelphia) 2016-06, Vol.157 (6), p.2533-2544
Main Authors: Vinel, A, Hay, E, Valera, M C, Buscato, M, Adlanmerini, M, Guillaume, M, Cohen-Solal, M, Ohlsson, C, Lenfant, F, Arnal, J F, Fontaine, C
Format: Article
Language:English
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Estrogen receptor-[alpha] (ER[alpha]) acts primarily in the nucleus as a transcription factor involving two activation functions, AF1 and AF2, but it can also induce membrane-initiated steroid signaling (MISS) through the modulation of various kinase activities and/or secondary messenger levels. Previous work has demonstrated that nuclear ER[alpha] is required for the protective effect of the estrogen 17[beta]-estradiol (E2), whereas the selective activation of ER[alpha]MISS is sufficient to confer protection in cortical but not cancellous bone. The aim of this study was to define whether ER[alpha]MISS is necessary for the beneficial actions of chronic E2 exposure on bone. We used a mouse model in which ER[alpha] membrane localization had been abrogated due to a point mutation of the palmitoylation site of ER[alpha] (ER[alpha]-C451A). Alterations of the sex hormones in ER[alpha]-C451A precluded the interpretation of bone parameters that were thus analyzed on ovariectomized and supplemented or not with E2 (8 [mu]g/kg/d) to circumvent this bias. We found the beneficial action of E2 on femoral bone mineral density as well as in both cortical and cancellous bone was decreased in ER[alpha]-C451A mice compared with their wild-type littermates. Histological and biochemical approaches concurred with the results from bone marrow chimeras to demonstrate that ER[alpha]MISS signaling affects the osteoblast but not the osteoclast lineage in response to E2. Thus, in contrast to the uterine and endothelial effects of E2 that are specifically mediated by nuclear ER[alpha] and ER[alpha]MISS effects, respectively, bone protection is dependent on both, underlining the exquisite tissue-specific actions and interactions of membrane and nuclear ER[alpha].
ISSN:0013-7227
1945-7170
DOI:10.1210/en.2015-1994