Department of Obstetrics and Gynecology, University of California, Los Angeles, California, USA.
Stem Cells. 2013 Apr;31(4):808-22. doi: 10.1002/stem.1337.
Synchronous with massive shifts in reproductive hormones, the uterus and its lining the endometrium expand to accommodate a growing fetus during pregnancy. In the absence of an embryo the endometrium, composed of epithelium and stroma, undergoes numerous hormonally regulated cycles of breakdown and regeneration. The hormonally mediated regenerative capacity of the endometrium suggests that signals that govern the growth of endometrial progenitors must be regulated by estrogen and progesterone. Here, we report an antigenic profile for isolation of mouse endometrial epithelial progenitors. These cells are EpCAM(+) CD44(+) ITGA6(hi) Thy1(-) PECAM1(-) PTPRC(-) Ter119(-), comprise a minor subpopulation of total endometrial epithelia and possess a gene expression profile that is unique and different from other cells of the endometrium. The epithelial progenitors of the endometrium could regenerate in vivo, undergo multilineage differentiation and proliferate. We show that the number of endometrial epithelial progenitors is regulated by reproductive hormones. Coadministration of estrogen and progesterone dramatically expanded the endometrial epithelial progenitor cell pool. This effect was not observed when estrogen or progesterone was administered alone. Despite the remarkable sensitivity to hormonal signals, endometrial epithelial progenitors do not express estrogen or progesterone receptors. Therefore, their hormonal regulation must be mediated through paracrine signals resulting from binding of steroid hormones to the progenitor cell niche. Discovery of signaling defects in endometrial epithelial progenitors or their niche can lead to development of better therapies in diseases of the endometrium.
随着生殖激素的大规模变化,子宫及其内膜在怀孕期间会扩张以容纳不断成长的胎儿。如果没有胚胎,由上皮和基质组成的子宫内膜会经历无数个受激素调节的分解和再生周期。子宫内膜的激素介导的再生能力表明,控制子宫内膜祖细胞生长的信号必须受到雌激素和孕激素的调节。在这里,我们报告了一种用于分离小鼠子宫内膜上皮祖细胞的抗原特征。这些细胞是 EpCAM(+) CD44(+) ITGA6(hi) Thy1(-) PECAM1(-) PTPRC(-) Ter119(-),构成了总子宫内膜上皮的一小部分亚群,具有独特且不同于子宫内膜其他细胞的基因表达谱。子宫内膜的上皮祖细胞可以在体内再生,进行多谱系分化和增殖。我们表明,生殖激素调节子宫内膜上皮祖细胞的数量。雌激素和孕激素的联合给药显著扩大了子宫内膜上皮祖细胞池。单独给予雌激素或孕激素时,未观察到这种效果。尽管对激素信号具有显著的敏感性,但子宫内膜上皮祖细胞不表达雌激素或孕激素受体。因此,它们的激素调节必须通过类固醇激素与祖细胞龛结合产生的旁分泌信号来介导。发现子宫内膜上皮祖细胞或其龛位的信号缺陷可导致子宫内膜疾病的治疗方法得到改善。