Ishimura A, Maeda R, Takeda M, Kikkawa M, Daar I O, Maéno M
Department of Biology, Faculty of Science, Niigata University, Japan.
Dev Growth Differ. 2000 Aug;42(4):307-16. doi: 10.1046/j.1440-169x.2000.00514.x.
The msx homeodomain protein is a downstream transcription factor of the bone morphogenetic protein (BMP)-4 signal and a key regulator for neural tissue differentiation. Xmsx-1 antagonizes the dorsal expression of noggin and cerberus, as revealed by in situ hybridization and reverse transcription-polymerase chain reaction assays. In animal cap explants, Xmsx-1 and BMP-4 inhibit the neural tissue differentiation induced by noggin or cerberus. A loss-of-function study using the Xmsx-1/VP-16 fusion construct indicated that neural tissue formation was directly induced by the injection of fusion ribonucleic acid, although the expression of neural cell adhesion molecule (N-CAM) in the cap was less than that in the cap injected with tBR or noggin. In contrast to the single cap assay, unexpectedly, both BMP-4 and Xmsx-1 failed to inhibit neurulation in the ectodermal explants to which the organizer mesoderm was attached. The results of cell-lineage tracing experiments indicated that the neural cells were differentiated from the animal pole tissue where the excess RNA of either BMP-4 or Xmsx-1 was injected, whereas notochord was differentiated from the organizer mesoderm. Neural tissue differentiated from BMP-4-injected ectodermal cells strongly expressed posterior neural markers, such as hoxB9 and krox20, suggesting that the posterior neural cells differentiated regardless of the existence of the BMP signal. The introduction of a dominant-negative form of the fibroblast growth factor (FGF) receptor (XFD) into the ectodermal cells drastically reduced the expression of pan and posterior neural markers (N-CAM and hoxB-9) if co-injected with BMP-4 RNA, although XFD alone at the same dose did not shut down the expression of N-CAM in the combination explants. Therefore, it is proposed that an FGF-related molecule was involved in the direct induction of posterior neural tissue in the inducing signals from the organizer mesoderm in vivo.
Msx同源结构域蛋白是骨形态发生蛋白(BMP)-4信号的下游转录因子,也是神经组织分化的关键调节因子。原位杂交和逆转录-聚合酶链反应分析显示,Xmsx-1拮抗noggin和cerberus的背侧表达。在动物帽外植体中,Xmsx-1和BMP-4抑制由noggin或cerberus诱导的神经组织分化。使用Xmsx-1/VP-16融合构建体的功能丧失研究表明,尽管帽中神经细胞粘附分子(N-CAM)的表达低于注射tBR或noggin的帽,但融合核糖核酸的注射直接诱导了神经组织的形成。与单帽试验相反,出乎意料的是,BMP-4和Xmsx-1均未能抑制与组织者中胚层相连的外胚层外植体中的神经胚形成。细胞谱系追踪实验结果表明,神经细胞是从注射了BMP-4或Xmsx-1过量RNA的动物极组织分化而来的,而脊索是从组织者中胚层分化而来的。从注射了BMP-4的外胚层细胞分化而来的神经组织强烈表达后部神经标记物,如hoxB9和krox20,这表明后部神经细胞的分化与BMP信号的存在无关。如果与BMP-4 RNA共同注射,将成纤维细胞生长因子(FGF)受体(XFD)的显性负性形式引入外胚层细胞会显著降低泛神经和后部神经标记物(N-CAM和hoxB-9)的表达,尽管相同剂量的单独XFD不会关闭联合外植体中N-CAM的表达。因此,有人提出,一种FGF相关分子参与了体内组织者中胚层诱导信号中后部神经组织的直接诱导。
