Acute disruption of select steroid receptor coactivators prevents reproductive behavior in rats and unmasks genetic adaptation in knockout mice.

Apostolakis EM; Ramamurphy M; Zhou DOnate SOMalley BW

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Acute disruption of select steroid receptor coactivators prevents reproductive behavior in rats and unmasks genetic adaptation in knockout mice.

机译：Acute disruption of select steroid receptor coactivators prevents reproductive behavior in rats and unmasks genetic adaptation in knockout mice.

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Estrogen (E) and progesterone exert profound influence on development and reproduction. In vitro, steroid receptor coactivators (SRCs) are nuclear proteins that interact with DNA-bound steroid receptors to potentiate their transcriptional efficiency. We examined the effects of antisense oligonucleotides to SRC-1, SRC-2, and SRC-3 on female sexual behavior and steroid receptor-mediated transcription. Rat (r) SRC-1, rSRC-2, and rSRC-3 genes were cloned. Our results reveal a significant inhibitory effect by antisense (AS) to SRC-1 and SRC-2, but not SRC-3, on hormone-induced reproductive behavior. Importantly, sexual behavior was attenuated through estrogen receptor alpha (ERalpha)-dependent, rather than progesterone receptor (PR)-dependent, transcription, as E failed to induce the synthesis of PR content in the medial basal hypothalamus, and immunoreactive PR in the ventromedial nucleus were depleted in tissue from rSRC-1-AS- and rSRC-2-AS-treated, but not rSRC-3-AS-treated, rats primed with E. Consistent with interruption of ERalpha-induced transcription, high dose of E and epidermal growth factor alone failed to induce sexual behavior in females treated with either rSRC-1-AS or SRC-2-AS. Immunoreactive SRC-1 and SRC-2, but not SRC-3, proteins were abundant in the ventromedial nucleus, thus demonstrating that the biological activities of hypothalamic steroid receptors are selectively regulated by regional distribution of specific SRCs. As SRC-1 knockout mice have only a slight loss in reproductive function, the possibility that genetic adaptation occurs during development was tested. Mouse (m) SRC-1-AS suppressed lordosis in wild-type, but not SRC-1, knockout mice, whereas mSRC-2-AS suppressed behavior in both genotypes. mSRC-3-AS had no effect in either genotype, and SRC-3 knockout mice exhibited full receptivity. Collectively, the findings clearly implicate dual regulation of ERalpha-dependent function by SRC-1 and SRC-2 in the intact female brain. In the genetic, but not acute, absence of SRC-1, up-regulation of SRC-2 serves as a critical adaptive mechanism during female development.

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来源
《Molecular Endocrinology》 |2002年第7期|1511-1523|共13页
作者
Apostolakis EM; Ramamurphy M; Zhou DOnate SOMalley BW;
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作者单位

Department of Molecular and Cell Biology, Baylor College of Medicine (E.M.A., B.W.O.), Houston, Texas 77030.;

ortnet.ne.jp;

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原文格式 PDF
正文语种英语
中图分类内分泌腺疾病及代谢病;内分泌生理学;
关键词
steroid receptor coactivator 1; SRC-2; Steroids; Laboratory mice; 甾类;

Acute disruption of select steroid receptor coactivators prevents reproductive behavior in rats and unmasks genetic adaptation in knockout mice.

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