The Modulation of Androgen Signaling by Steroid Hormones and Mechanical Tension: A Novel Pathway of Labor Initiation

The Modulation of Androgen Signaling by Steroid Hormones and Mechanical Tension: A Novel Pathway of Labor Initiation

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We investigated the gestational expression of androgen receptor (AR) and defined its regulation and that of its co-repressors, PSF and p54nrb, by steroid hormones and myometrial stretch in vivo in pregnant and non-pregnant rats. Our data demonstrate that, 1) myometrial AR expression decreases prior...

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Bibliographic Details
Main Author: Li, Yunqing
Other Authors: Lye, Stephen J.
Language:en_ca
Published: 2011
Subjects:
Androgen Receptor
Myometrium
PSF
p54nrb
Nuclear Co-repressor
Steroid Hormone Signaling
Mechanical Stretch
Contraction-associated Proteins
0719
Online Access:http://hdl.handle.net/1807/31321
id ndltd-LACETR-oai-collectionscanada.gc.ca-OTU.1807-31321
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spelling ndltd-LACETR-oai-collectionscanada.gc.ca-OTU.1807-313212013-11-02T03:43:49ZThe Modulation of Androgen Signaling by Steroid Hormones and Mechanical Tension: A Novel Pathway of Labor InitiationLi, YunqingAndrogen ReceptorMyometriumPSFp54nrbNuclear Co-repressorSteroid Hormone SignalingMechanical StretchContraction-associated Proteins0719We investigated the gestational expression of androgen receptor (AR) and defined its regulation and that of its co-repressors, PSF and p54nrb, by steroid hormones and myometrial stretch in vivo in pregnant and non-pregnant rats. Our data demonstrate that, 1) myometrial AR expression decreases prior to term; 2) AR expression is up-regulated by MPA treatment and down-regulated by mechanical stretch; (3) myometrial PSF protein expression is down-regulated by estrogen signaling and by mechanical stretch, and up-regulated by androgen signaling; (4) while myometrial PSF mRNA expression is also down-regulated by stretch, the regulation by estrogen and P4 on PSF mRNA appear to be opposite to the effects on PSF protein. We conclude that the decreased androgen signaling in late pregnancy (as a result of decreased AR and PSF expression mediated by hormonal and mechanical signals) may contribute to the mechanisms leading to labor initiation.Lye, Stephen J.2011-112011-12-14T19:06:39ZNO_RESTRICTION2011-12-14T19:06:39Z2011-12-14Thesishttp://hdl.handle.net/1807/31321en_ca
collection NDLTD
language en_ca
sources NDLTD
topic Androgen Receptor
Myometrium
PSF
p54nrb
Nuclear Co-repressor
Steroid Hormone Signaling
Mechanical Stretch
Contraction-associated Proteins
0719
spellingShingle Androgen Receptor
Myometrium
PSF
p54nrb
Nuclear Co-repressor
Steroid Hormone Signaling
Mechanical Stretch
Contraction-associated Proteins
0719
Li, Yunqing
The Modulation of Androgen Signaling by Steroid Hormones and Mechanical Tension: A Novel Pathway of Labor Initiation
description We investigated the gestational expression of androgen receptor (AR) and defined its regulation and that of its co-repressors, PSF and p54nrb, by steroid hormones and myometrial stretch in vivo in pregnant and non-pregnant rats. Our data demonstrate that, 1) myometrial AR expression decreases prior to term; 2) AR expression is up-regulated by MPA treatment and down-regulated by mechanical stretch; (3) myometrial PSF protein expression is down-regulated by estrogen signaling and by mechanical stretch, and up-regulated by androgen signaling; (4) while myometrial PSF mRNA expression is also down-regulated by stretch, the regulation by estrogen and P4 on PSF mRNA appear to be opposite to the effects on PSF protein. We conclude that the decreased androgen signaling in late pregnancy (as a result of decreased AR and PSF expression mediated by hormonal and mechanical signals) may contribute to the mechanisms leading to labor initiation.
author2 Lye, Stephen J.
author_facet Lye, Stephen J.
Li, Yunqing
author Li, Yunqing
author_sort Li, Yunqing
title The Modulation of Androgen Signaling by Steroid Hormones and Mechanical Tension: A Novel Pathway of Labor Initiation
title_short The Modulation of Androgen Signaling by Steroid Hormones and Mechanical Tension: A Novel Pathway of Labor Initiation
title_full The Modulation of Androgen Signaling by Steroid Hormones and Mechanical Tension: A Novel Pathway of Labor Initiation
title_fullStr The Modulation of Androgen Signaling by Steroid Hormones and Mechanical Tension: A Novel Pathway of Labor Initiation
title_full_unstemmed The Modulation of Androgen Signaling by Steroid Hormones and Mechanical Tension: A Novel Pathway of Labor Initiation
title_sort modulation of androgen signaling by steroid hormones and mechanical tension: a novel pathway of labor initiation
publishDate 2011
url http://hdl.handle.net/1807/31321
work_keys_str_mv AT liyunqing themodulationofandrogensignalingbysteroidhormonesandmechanicaltensionanovelpathwayoflaborinitiation
AT liyunqing modulationofandrogensignalingbysteroidhormonesandmechanicaltensionanovelpathwayoflaborinitiation
_version_ 1716612861490364416

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