Dhomen Nathalie S, Balaggan Kam S, Pearson Rachael A, Bainbridge James W, Levine Edward M, Ali Robin R, Sowden Jane C
Developmental Biology Unit, Institute of Child Health, London, UK.
Invest Ophthalmol Vis Sci. 2006 Jan;47(1):386-96. doi: 10.1167/iovs.05-0428.
Mutation of the Chx10 homeobox gene in mice and humans causes congenital blindness and microphthalmia (small eyes). This study used Chx10-/- (ocular retardation) mice to investigate how lack of Chx10 affects progenitor/stem cell behavior in the retina and ciliary epithelium (CE).
The distribution of mitotic retinal progenitor cells (RPCs) during embryonic development was analyzed using phosphohistone 3 (H3)-labeling. DNA flow cytometry was used to measure DNA content. The distribution and phenotype of dividing cells in the postnatal retina and CE was analyzed by incorporation of the thymidine analogue BrdU and immunohistochemistry.
The Chx10-/- embryonic retina maintained a constantly sized population of mitotic RPCs during development, causing the mitotic index to increase markedly over time compared with the wild type. Also, the proportion of cells in the G1 phase of the cell cycle was increased compared with the wild type. Of interest, division of RPC-like cells with neurogenic properties persisted in the adult Chx10-/- retina. Colabeling for BrdU and the neural progenitor marker nestin or the neuronal markers beta3-tubulin, syntaxin, and VC1.1 showed that new amacrine-like neurons developed in the adult central retina. By contrast, cells with these characteristics were not observed in the mature wild-type retina. In the mature CE, BrdU-positive cells were observed in both wild-type and Chx10-/- mice. However, neurogenesis from this cell population was not evident.
Without Chx10, proliferative expansion of the embryonic RPC pool is markedly reduced. In the adult retina, lack of Chx10 results in a population of dividing neural progenitor cells that persist and produce new neurons in the central retina.
小鼠和人类的Chx10同源框基因突变会导致先天性失明和小眼症(眼睛小)。本研究利用Chx10基因敲除(小眼症)小鼠来探究Chx10的缺失如何影响视网膜和睫状体上皮(CE)中祖细胞/干细胞的行为。
使用磷酸化组蛋白H3标记分析胚胎发育过程中有丝分裂视网膜祖细胞(RPC)的分布。采用DNA流式细胞术测量DNA含量。通过掺入胸腺嘧啶类似物BrdU和免疫组织化学分析出生后视网膜和CE中分裂细胞的分布和表型。
Chx10基因敲除胚胎视网膜在发育过程中维持了有丝分裂RPC的恒定数量,导致有丝分裂指数随时间推移相比野生型显著增加。此外,与野生型相比,细胞周期G1期的细胞比例增加。有趣的是,具有神经源性特性的RPC样细胞的分裂在成年Chx10基因敲除视网膜中持续存在。BrdU与神经祖细胞标志物巢蛋白或神经元标志物β3微管蛋白、突触融合蛋白和VC1.1的共标记显示,成年中央视网膜中出现了新的无长突细胞样神经元。相比之下,在成熟的野生型视网膜中未观察到具有这些特征的细胞。在成熟的CE中,野生型和Chx10基因敲除小鼠均观察到BrdU阳性细胞。然而,该细胞群体的神经发生并不明显。
没有Chx10,胚胎RPC池的增殖扩张会显著减少。在成年视网膜中,Chx10的缺失导致一群持续分裂的神经祖细胞在中央视网膜中产生新的神经元。