[Differentiation of extravillous trophoblast during normal pregnancy].

Nihon Sanka Fujinka Gakkai zasshi Pub Date : 1996-05-01
M Sasagawa, S Shibuya, M Endo, S Honma, T Takahashi
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Abstract

The implantation site in 25 pregnant uteri was studied morphologically and immunohistochemically to clarify the developmental process of extravillous trophoblasts (EVTs). 1. Dense trophoblastic invasion of the decidua was observed. Multinuclear trophoblasts appeared in the deciduo-muscular junction from the 10th week. Trophoblasts infiltrated decidual vessel walls, where extensive perivascular degeneration existed. EVTs may be indispensable for construction of the placenta. 2. In villous trophoblasts (VTs) the location of hCG and hPL was limited to multinuclear cells, whereas in EVTs hCG was present in a few mononuclear cells and hPL was observed in most mononuclear and multinuclear cells. The immunoreactivity of trophoblast-related monoclonal antibodies also differed: neither anti-Tropl (reactive with cytotrophoblasts (CTs)) nor NDOG1 (reactive with syncytiotrophoblasts (STs)) was reactive with EVTs. 3. The absence of hCG and hPL in mononuclear trophoblasts of the cell column indicates that EVTs differentiate after invading the decidua. Kurman et al. proposed the term intermediate trophoblast, indicating cells in transition from CTs to STs and EVTs, and this is based on the concept that the developmental processes of EVTs and VTs are identical. But the results of this study suggested an independent developmental process for EVTs and therefore it seemed that the term intermediate trophoblast should not be employed for EVTs.

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[正常妊娠期间胞外滋养细胞的分化]。
采用形态学和免疫组织化学方法对25例妊娠子宫着床部位进行了研究,以阐明卵外滋养细胞(EVTs)的发育过程。1. 可见浓密的滋养层浸润蜕膜。从第10周开始,蜕膜-肌交界处出现多核滋养细胞。滋养细胞浸润到各个血管壁,存在广泛的血管周围变性。evt对于胎盘的形成可能是不可缺少的。2. 绒毛滋养细胞中hCG和hPL仅存在于多核细胞中,而绒毛滋养细胞中hCG存在于少数单核细胞中,hPL存在于大多数单核和多核细胞中。滋养层细胞相关单克隆抗体的免疫反应性也存在差异:抗tropl(与细胞滋养层细胞反应)和NDOG1(与合胞滋养层细胞反应)均与evt无反应。3.细胞柱单核滋养细胞中hCG和hPL的缺失表明evt在侵入蜕膜后分化。Kurman等人提出了中间滋养层这一术语,表示从ct向STs和evt过渡的细胞,这是基于evt和VTs的发育过程相同的概念。但本研究的结果表明,evt有一个独立的发育过程,因此,中间滋养细胞一词似乎不应用于evt。
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