Bhavnani Bhagu R, Tam Shui-Pang, Lu Xiaofeng
Department of Obstetrics and Gynecology, Institute of Medical Sciences, University of Toronto, and The Keenan Research Center of Li Ka Shing Knowledge Institute, St. Michael's Hospital, Toronto, Ontario, Canada.
Endocrinology. 2008 Oct;149(10):4857-70. doi: 10.1210/en.2008-0304. Epub 2008 Jul 3.
The human estrogen receptors (ERs) alpha and beta interact with 17beta-estradiol (17beta-E2), estrone, 17alpha-estradiol, and the ring B unsaturated estrogens, equilin, 17beta-dihydroequilin, 17alpha-dihydroequilin, equilenin, 17beta-dihydroequilenin, 17alpha-dihydroequilenin, Delta8-estrone, and Delta8, 17beta-E2 with varying affinities. In comparison to 17beta-E2, the relative binding affinities of most ring B unsaturated estrogens were 2- to 8-fold lower for ERalpha and ERbeta, however, some of these unique estrogens had two to four times greater affinity for ERbeta than ERalpha. The transcriptional activity of these estrogens in HepG2 cells transfected with ERalpha or ERbeta, or both, and the secreted-alkaline phosphatase gene showed that all estrogens were functionally active. 17beta-E2 induced the activity of secreted-alkaline phosphatase by ERalpha to a level higher than any other estrogen. Activity of other estrogens was 12-17% that of 17beta-E2. In contrast, 17beta-E2 stimulated the activity of ERbeta to a 5-fold lower level than that with ERalpha, whereas the activity of other estrogens was 66-290% that of 17beta-E2, with equilenin being the most active. The presence of both ER subtypes did not alter the functional activity of 17beta-E2, although it further enhanced the activity of 17beta-dihydroequilin (200%), 17beta-dihydroequilenin (160%), and Delta8, 17beta-E2 (130%). Except for 17beta-E2, no correlation was observed between the functional activities and their binding affinities for ER. In conclusion, our results show that the effects of ring B unsaturated estrogens are mainly mediated via ERbeta and that the presence of both ER subtypes further enhances their activity. It is now possible to develop hormone replacement therapy using selective ring B unsaturated estrogens for target tissues where ERbeta is the predominant ER.
人类雌激素受体α和β与17β - 雌二醇(17β - E2)、雌酮、17α - 雌二醇以及B环不饱和雌激素(马萘雌酮、17β - 二氢马萘雌酮、17α - 二氢马萘雌酮、马萘雌甾酮、17β - 二氢马萘雌甾酮、17α - 二氢马萘雌甾酮、δ8 - 雌酮以及δ8,17β - E2)以不同亲和力相互作用。与17β - E2相比,大多数B环不饱和雌激素对雌激素受体α和β的相对结合亲和力低2至8倍,然而,其中一些独特的雌激素对雌激素受体β的亲和力比对雌激素受体α大两到四倍。这些雌激素在转染了雌激素受体α或β或两者的HepG2细胞中的转录活性以及分泌性碱性磷酸酶基因表明,所有雌激素都具有功能活性。17β - E2诱导雌激素受体α介导的分泌性碱性磷酸酶活性达到高于任何其他雌激素的水平。其他雌激素的活性为17β - E2的12 - 17%。相比之下,17β - E2刺激雌激素受体β的活性比刺激雌激素受体α的活性低5倍,而其他雌激素的活性为17β - E2的66 - 290%,其中马萘雌甾酮活性最高。两种雌激素受体亚型的存在并未改变17β - E2的功能活性,尽管它进一步增强了17β - 二氢马萘雌酮(200%)、17β - 二氢马萘雌甾酮(160%)和δ8,17β - E2(130%)的活性。除了17β - E2外,未观察到功能活性与其对雌激素受体的结合亲和力之间存在相关性。总之,我们的结果表明,B环不饱和雌激素的作用主要通过雌激素受体β介导,并且两种雌激素受体亚型的存在进一步增强了它们的活性。现在有可能开发使用选择性B环不饱和雌激素的激素替代疗法,用于以雌激素受体β为主要雌激素受体的靶组织。
