Department of Obstetrics and Gynaecology, Reproductive Biology Unit, Medical University of Vienna, Vienna, Austria.
Gynmed Clinic, Vienna, Austria.
Placenta. 2017 Sep;57:17-25. doi: 10.1016/j.placenta.2017.06.003. Epub 2017 Jun 6.
TGF-β superfamily members are thought to play a pivotal role in placental development and differentiation. However, their downstream effectors, the Smad transcription factors, have been poorly investigated in human trophoblasts.
Expression and localisation of the canonical TGF-β targets Smad2/3 and their regulators (Smad4 and Smad7) were investigated in first trimester placenta and purified cytotrophoblast (CTB) subtypes using immunofluorescence, western blotting and qPCR. Canonical and non-canonical activation was analysed in nuclear/cytoplasmic extracts of trophoblast subtypes as well as in tissue sections using antibodies against Smad2/3, phosphorylated either at the C-terminus (pSmad2C/3C) or in their linker regions (pSmad2L/3L). Smad phosphorylation was also examined in differentiating extravillous trophoblasts (EVTs) in the absence or presence of decidual stromal cell (DSC)-conditioned medium.
Smad2, Smad4 and Smad7 protein were uniformly expressed between 6th and 12th week placentae and the different isolated CTB subtypes. Activated pSmad2L was mainly detected in nuclei and cytoplasm of villous CTBs, whereas pSmad2C was absent from these cells. In contrast, pSmad2C could be detected in the cytoplasm of cell column trophoblasts and in the cytoplasm/nuclei of EVTs. Smad3 and its phosphorylated forms pSmad3C and pSmad3L specifically localised to EVT nuclei. During EVT differentiation autocrine activation of pSmad2C/3C and pSmad3L was observed. DSC-conditioned medium further increased Smad2/3 phosphorylation in EVTs.
The lack of pSmad2C in villous CTBs suggests that other mitogens than TGF-β could promote Smad2 linker phosphorylation under homeostatic conditions. Whereas autocrine signalling activates Smad2/3 in differentiating EVTs, paracrine factors contribute to Smad phosphorylation in these cells.
TGF-β 超家族成员被认为在胎盘发育和分化中发挥关键作用。然而,它们的下游效应子 Smad 转录因子在人类滋养细胞中的研究甚少。
使用免疫荧光、western blot 和 qPCR 研究了第一孕期胎盘和纯化的细胞滋养层(CTB)亚型中经典 TGF-β 靶标 Smad2/3 及其调节剂(Smad4 和 Smad7)的表达和定位。在滋养细胞亚型的核/细胞质提取物以及组织切片中分析了经典和非经典激活,使用针对 Smad2/3 的抗体,这些抗体在 C 末端(pSmad2C/3C)或连接区(pSmad2L/3L)处磷酸化。还在不存在或存在蜕膜基质细胞(DSC)条件培养基的情况下检查了分化的绒毛外滋养细胞(EVT)中的 Smad 磷酸化。
Smad2、Smad4 和 Smad7 蛋白在第 6 至 12 周胎盘和不同分离的 CTB 亚型中均匀表达。激活的 pSmad2L 主要在绒毛 CTB 的核和细胞质中检测到,而这些细胞中不存在 pSmad2C。相反,pSmad2C 可在细胞柱滋养细胞的细胞质中和 EVT 的细胞质/核中检测到。Smad3 及其磷酸化形式 pSmad3C 和 pSmad3L 特异性定位于 EVT 核。在 EVT 分化过程中,观察到 pSmad2C/3C 和 pSmad3L 的自分泌激活。DSC 条件培养基进一步增加了 EVT 中的 Smad2/3 磷酸化。
绒毛 CTB 中缺乏 pSmad2C 表明,在稳态条件下,除 TGF-β 以外的其他有丝分裂原可能促进 Smad2 连接区磷酸化。虽然自分泌信号激活分化中的 EVT 中的 Smad2/3,但旁分泌因子有助于这些细胞中的 Smad 磷酸化。
