Department of Zoology, Division of Biological Science, Graduate School of Science, Kyoto University, Kitashirakawa, Sakyo-ku, Kyoto 606-8502, Japan.
Proc Natl Acad Sci U S A. 2014 May 6;111(18):6660-5. doi: 10.1073/pnas.1316728111. Epub 2014 Apr 21.
In most organs of the body, epithelial tissues are supported by their own basement membrane and underlying stroma, the latter being regarded as a complex of amorphous cells, extracellular matrices, and soluble factors. We demonstrate here that an epithelial tube can serve as a component of stroma that supports the formation of epithelial cell sheet derived from a different origin. During development of the mesonephros in chicken embryos, the intermediate mesoderm (IMM), which contains the Wolffian duct (WD) and its associated tubules, is overlain by a sheet of epithelial cells derived from lateral plate (coelomic) mesoderm. We describe that in normal embryos, epitheliogenesis of IMM tubes and the adjacent coelomic cell sheet proceed in a coordinated manner. When the WD was surgically ablated, the overlying coelomic epithelium exhibited aberrant morphology accompanied by a punctated basement membrane. Furthermore, the WD-ablated coelomic epithelium became susceptible to latent external stress; electroporation of Rac1 resulted in epithelial-to-mesenchymal transitions (EMTs) within the coelomic epithelium. The distorted coelomic epithelium was rescued by implanting fibronectin-producing cells in place of the WD, suggesting that fibronectin provided by WD has an important role acting interepithelially. This notion was corroborated further by directly visualizing a translocation of EGFP-tagged fibronectin from fibronectin-producing to -receiving epithelia in vivo. Our findings provide a novel insight into interepithelial signaling that also might occur in adult tissues to protect against EMT and suggest a possible new target for anticancer therapeutic strategy.
在身体的大多数器官中,上皮组织由自身的基膜和下方的基质支撑,后者被认为是无定形细胞、细胞外基质和可溶性因子的复杂混合物。我们在这里证明,上皮管可以作为基质的一部分,支持来自不同来源的上皮细胞片的形成。在鸡胚胎中中肾的发育过程中,中胚层(IMM)包含沃弗氏管(WD)及其相关的小管,被来自侧板(体腔)中胚层的上皮细胞片覆盖。我们描述了在正常胚胎中,IMM 管和相邻体腔细胞片的上皮发生以协调的方式进行。当 WD 被手术切除时,覆盖的体腔上皮表现出异常形态,并伴有点状基膜。此外,WD 切除的体腔上皮易受潜在外部压力的影响;Rac1 的电穿孔导致体腔上皮内发生上皮-间充质转化(EMT)。将产生纤连蛋白的细胞植入 WD 所在的位置可以挽救变形的体腔上皮,这表明 WD 提供的纤连蛋白在细胞间发挥重要作用。这一观点通过直接观察体内 EGFP 标记的纤连蛋白从产生纤连蛋白的上皮到接受上皮的易位得到进一步证实。我们的发现提供了一个新的见解,即上皮间信号转导也可能发生在成人组织中,以防止 EMT,并为抗癌治疗策略提供了一个可能的新靶点。