Saif Z, Hodyl N A, Hobbs E, Tuck A R, Butler M S, Osei-Kumah A, Clifton V L
Robinson Institute, University of Adelaide, Adelaide, SA, Australia.
Robinson Institute, University of Adelaide, Adelaide, SA, Australia.
Placenta. 2014 Apr;35(4):260-8. doi: 10.1016/j.placenta.2014.01.012. Epub 2014 Feb 12.
We have previously identified sex-specific differences in the fetal-placental response to cortisol. Our recent studies suggest that this differential response to cortisol is driven by differences in glucocorticoid receptor (GR) protein function rather than through changes in gene transcription or protein expression.
This study was designed to define whether the human placenta expresses different isoforms of the GR and whether expression was altered by fetal sex and maternal asthma. Asthma and non-asthma pregnant women were prospectively recruited at their first antenatal visit and placentae collected at delivery. Placental GR expression was examined in relation to maternal asthma, fetal sex and birthweight.
Twelve specific bands for the GR were identified at molecular weights of 94, 91, 81, 74, 69, 68, 65, 60, 55, 50, 48 and 38 kDa. The 12 isoforms were localised to the placental trophoblast and expression varied in relation to cellular location in either the cytoplasm or nucleus, fetal sex, fetal size and the presence and absence of maternal asthma.
This is the first study to identify the presence of several protein isoforms of the GR in the human placenta. The data suggest glucocorticoid resistance observed in male placentae may be mediated through increased GRβ, GR A and GR P localisation to the nucleus. While female placentae may be more sensitive to cortisol in the presence of maternal asthma through a decrease in GRβ and an enhancement GRα activity via an interaction with GRα D3 and GRα C.
我们之前已经确定了胎儿 - 胎盘对皮质醇反应的性别特异性差异。我们最近的研究表明,这种对皮质醇的差异反应是由糖皮质激素受体(GR)蛋白功能的差异驱动的,而不是通过基因转录或蛋白表达的变化。
本研究旨在确定人类胎盘是否表达不同的GR亚型,以及其表达是否因胎儿性别和母亲哮喘而改变。在首次产前检查时前瞻性招募哮喘和非哮喘孕妇,并在分娩时收集胎盘。检查胎盘GR表达与母亲哮喘、胎儿性别和出生体重的关系。
在分子量为94、91、81、74、69、68、65、60、55、50、48和38 kDa处鉴定出12条GR特异性条带。这12种亚型定位于胎盘滋养层,其表达因细胞在细胞质或细胞核中的位置、胎儿性别、胎儿大小以及母亲哮喘的有无而有所不同。
这是第一项鉴定人类胎盘中存在多种GR蛋白亚型的研究。数据表明,在男性胎盘中观察到的糖皮质激素抵抗可能是通过增加GRβ、GR A和GR P在细胞核中的定位介导 的。而在母亲哮喘存在的情况下,女性胎盘可能通过GRβ的减少以及通过与GRα D3和GRα C相互作用增强GRα活性而对皮质醇更敏感。
