Taira Yuki, Ikuta Yuya, Inamori Sachiko, Nunome Mitsuo, Nakano Mikiharu, Suzuki Takayuki, Matsuda Yoichi, Tsudzuki Masaoki, Teramoto Machiko, Iida Hideaki, Kondoh Hisato
Faculty of Life Sciences, Kyoto Sangyo University, Kyoto, Japan.
Avian Bioscience Research Center, Graduate School of Bioagricultural Sciences, Nagoya University, Nagoya, Japan.
Dev Dyn. 2020 Dec;249(12):1425-1439. doi: 10.1002/dvdy.222. Epub 2020 Aug 10.
Hedgehog signaling has various regulatory functions in tissue morphogenesis and differentiation. To investigate its involvement in anterior pituitary precursor development and the lens precursor potential for anterior pituitary precursors, we investigated Talpid mutant Japanese quail embryos, in which hedgehog signaling is defective.
Talpid mutants develop multiple pituitary precursor-like pouches of variable sizes from the oral ectoderm (OE). The ectopic pituitary pouches initially express the pituitary-associated transcription factor (TF) LHX3 similarly to Rathke's pouch, the genuine pituitary precursor. The pouches coexpress the TFs SOX2 and PAX6, a signature of lens developmental potential. Most Talpid mutant pituitary pouches downregulate LHX3 expression and activate the lens-essential TF PROX1, leading to the development of small lens tissue expressing α-, β-, and δ-crystallins. In contrast, mutant Rathke's pouches express a lower level of LHX3, which is primarily localized in the cytoplasm, and activate the lens developmental pathway.
Hedgehog signaling in normal embryos regulates the development of Rathke's pouch in two steps. First, by confining Rathke's pouch development in a low hedgehog signaling region of the OE. Second, by sustaining LHX3 activity to promote anterior pituitary development, while inhibiting ectopic lens development.
刺猬信号通路在组织形态发生和分化中具有多种调节功能。为了研究其在前脑垂体前体发育中的作用以及前脑垂体前体的晶状体前体潜能,我们研究了刺猬信号通路存在缺陷的塔尔皮德(Talpid)突变日本鹌鹑胚胎。
塔尔皮德突变体从口腔外胚层(OE)发育出多个大小不一的垂体前体样囊袋。异位垂体囊袋最初与真正的垂体前体拉特克囊一样表达垂体相关转录因子(TF)LHX3。这些囊袋共表达转录因子SOX2和PAX6,这是晶状体发育潜能的标志。大多数塔尔皮德突变体垂体囊袋下调LHX3表达并激活晶状体必需转录因子PROX1,导致表达α-、β-和δ-晶状体蛋白的小晶状体组织发育。相比之下,突变的拉特克囊表达较低水平的LHX3,其主要定位于细胞质中,并激活晶状体发育途径。
正常胚胎中的刺猬信号通路分两步调节拉特克囊的发育。首先,通过将拉特克囊的发育限制在OE的低刺猬信号区域。其次,通过维持LHX3活性来促进前脑垂体发育,同时抑制异位晶状体发育。
