【胚胎着床机制研究】。

Nihon Sanka Fujinka Gakkai zasshi Pub Date : 1996-08-01
T Tominaga
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引用次数: 0

摘要

着床是一个复杂的过程,胚胎和子宫内膜之间通过局部信号交换,包括许多细胞因子和生长因子,以及细胞-细胞和细胞-基质的直接接触来同步和相互作用。然而,对人体植入早期事件的研究仍处于起步阶段。本报告包括我们尝试用细胞生物学方法研究人类早期植入过程机制的结果,包括体外实验植入模型的建立。1. 人妊娠早期滋养细胞在混合培养中表现出活跃的细胞运动、活跃的内吞作用和对子宫内膜单层细胞的侵袭。滋养细胞的侵袭后来被转化的子宫内膜细胞阻止,类似于体内的蜕膜细胞。这些结果似乎表明了滋养细胞和子宫内膜细胞在着床过程中的相互作用。2. 用离体子宫内膜上皮细胞在基底膜基质(Matrigel)上改造成兔着床前囊胚和子宫内膜上皮共培养系统,模拟兔体内着床过程。该共培养体系可提供有用的实验植入模型。3.从正常早孕的绒毛膜组织中建立了人滋养细胞系。这些细胞具有细胞滋养细胞样形态和内分泌功能。在基质上培养时,它们形成了与体内相似的绒毛结构,并观察到基质的入侵。这表明细胞外基质可能影响着床部位浸润滋养细胞的形态和功能。4. 人子宫内膜上皮单细胞在基质上培养。通过分离细胞的迁移和增殖,证实了腺体重建后的上皮形成与体内结构非常相似。雌激素促进了腺体的高度,血小板来源的生长因子上调了上皮的起始。该系统揭示了细胞外基质在体内调控子宫内膜上皮的形态发生,是子宫内膜上皮实验植入模型中必不可少的底物。5. 子宫内膜上皮细胞在基质上平行培养,体外受精。在之前的周期中,在Matrigel上进行子宫内膜培养,并在IVF治疗周期的第1天将患者的血清加入到自己的培养中。在妊娠失败的患者中,对改造后的上皮进行评估,发现其形态明显不适合植入。该系统可为评价子宫内膜容受性和子宫内膜畸变的治疗方式提供有用的方法。6. 研究了子宫内膜细胞外基质成分的循环变化。免疫组织化学法测定ⅰ、ⅲ、ⅳ、V型胶原蛋白。除V型胶原外,其余胶原的相对水平均在分泌前期下降。在啮齿类动物中,不仅胶原蛋白水平下降,而且层粘连蛋白和纤维连接蛋白水平也在分泌早期下降。这些变化可能促进滋养细胞侵袭子宫内膜。发现分布于肌层表面的V型胶原由α 1亚基2 α 2组成,α 1亚基底物抑制滋养细胞生长。肌层表面的V型胶原可能具有阻断滋养细胞侵袭的作用。7. HGF(肝细胞生长因子)mRNA在月经期和分泌期在子宫内膜中明显表达,其受体在子宫内膜上皮细胞和蜕膜细胞中表达。在分泌后期,血浆HGF水平与子宫内膜超声厚度呈正相关。重组HGF促进了子宫内膜上皮细胞和蜕膜细胞的增殖,上调了基质细胞子宫内膜上皮的起始。
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[Studies on the mechanism of embryo implantation].

Implantation is a complex process accomplished by synchronization and interactions between embryo and endometrium by local exchange of signals including a number of cytokines and growth factors and direct cell-cell and cell-matrix contact. However, the research in early events of human implantation is still in its infancy. This presentation comprises the results of our attempts to investigate the mechanisms of human implantation process in its early stage by cell-biological method, including establishment of experimental implantation model in vitro. 1. Human trophoblast of early stage of gestation showed active cell locomotion, active endocytosis, and invasion of endometrial cell monolayer in mixed cultures. Trophoblast invasion was later arrested by transformed endometrial cells similar to decidual cells in vivo. These results appeared to indicate the interactions between trophoblast and endometrial cells in implantation. 2. Coculture system of rabbit preimplantation blastocyst and endometrial epithelium reformed from isolated endometrial epithelial cells on basement membrane matrix (Matrigel) simulated the in vivo rabbit implantation processes. This coculture system may provide a useful experimental implantation model. 3. A human trophoblast cell line was established from chorionic tissues of normal early pregnancy. These cells were cytotrophoblast-like morphology and endocrine functions. They formed the villous structures similar to those in vivo in culture on Matrigel and invasion of Matrigel was observed. These indicated the extracellular matrix may affect the morphology and function of invading trophoblast in implantation site. 4. Human endometrial epithelial single cells were cultured on Matrigel. Reconstruction of gland followed by epithelium formation quite similar to in vivo structures by migration and proliferation of isolated cells was demonstrated. Height of gland was promoted by estrogen and initiation of epithelization was upregulated by platelet-derived growth factors. This system revealed the extracellular matrix regulated morphogenesis of endometrial epithelium in vivo and is an essential substrate in experimental implantation model of endometrial epithelium. 5. Parallel cultures of endometrial epithelial cells on Matrigel were carried out with the IVF. ET patients to evaluate the endometrial morphology at time of ET. Endometrial cultures were initiated in previous cycles on Matrigel and the sera of patients were added to her own cultures from 1st day of IVF treatment cycle. Evaluation of reformed epithelium revealed the apparently unsuitable morphology for implantation in group of patients who eventually failed in pregnancy. This system may provide a useful measures in evaluation of endometrial receptivity and modality of treatment for endometrial aberrations. 6. Cyclic changes of extracellular matrix components in endometrium were investigated. Collagen I, III, IV, V were immunohistochemically estimated. Relative levels of all types of collagen except for collagen V declined at early secretory phase. In rodents, not only collagen but also laminin and fibronectin levels declined at early secretory phase. These changes may facilitate trophoblast invasion of endometrium. Collagen V distributed in myometrial surface was found to consist of subunit (alpha 1)2 alpha 2 and trophoblast growth was inhibited on substrate of alpha 1 subunit. Collagen V in myometrial surface may have a role in blocking trophoblast invasion. 7. HGF (hepatocyte growth factor) mRNA was demonstrated to be expressed during menstruation and secretory phase in endometrium distinctly and its receptor in endometrial epithelial cells and decidual cells. Positive correlation between plasma HGF levels and ultrasonographic thickness of endometrium was observed at late secretory phase. Recombinant HGF promoted proliferation of endometrial epithelial cells and decidual cells and upregulated initiation of endometrial epithelization of Matrigel.

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