Salero Enrique, Hatten Mary E
Laboratory of Developmental Neurobiology, The Rockefeller University, 1230 York Avenue, New York, NY 10021-6399, USA.
Proc Natl Acad Sci U S A. 2007 Feb 20;104(8):2997-3002. doi: 10.1073/pnas.0610879104. Epub 2007 Feb 9.
The neuronal circuits of the cerebellar cortex are essential for motor and sensory learning, associative memory formation, and the vestibular ocular reflex. In children and young adults, tumors of the granule cell, the medulloblastomas, represent 40% of brain tumors. We report the differentiation of E14 ES cells into mature granule neurons by sequential treatment with secreted factors (WNT1, FGF8, and RA) that initiate patterning in the cerebellar region of the neural tube, bone morphogenic proteins (BMP6/7 and GDF7) that induce early granule cell progenitor markers (MATH1, MEIS1, ZIC1), mitogens (SHH, JAG1) that control proliferation and induce additional granule cell markers (Cyclin D2, PAX2/6), and culture in glial-conditioned medium to induce markers of mature granule neurons (GABAalpha(6)r), including ZIC2, a unique marker for granule neurons. Differentiated ES cells formed classic "T-shaped" granule cell axons in vitro, and implantation of differentiated Pde1c-Egfp-BAC transgenic ES cells into the external granule cell layer of neonatal mice resulted in the extension of parallel fibers, migration across the molecular layer, incorporation into the internal granule cell layer, and extension of short dendrites, typical of young granule cells forming synaptic connections with afferent mossy fibers. These results underscore the utility of treating ES cells with local, inductive signals that regulate CNS neuronal development in vivo as a strategy for cell replacement therapy of defined neuronal populations.
小脑皮质的神经回路对于运动和感觉学习、联合记忆形成以及前庭眼反射至关重要。在儿童和年轻成年人中,颗粒细胞瘤(即髓母细胞瘤)占脑肿瘤的40%。我们报告了通过依次用分泌因子(WNT1、FGF8和RA)处理,使E14胚胎干细胞分化为成熟颗粒神经元,这些分泌因子启动神经管小脑区域的模式形成;用骨形态发生蛋白(BMP6/7和GDF7)处理,诱导早期颗粒细胞祖细胞标志物(MATH1、MEIS1、ZIC1);用有丝分裂原(SHH、JAG1)处理,控制增殖并诱导其他颗粒细胞标志物(细胞周期蛋白D2、PAX2/6);然后在胶质细胞条件培养基中培养,以诱导成熟颗粒神经元的标志物(GABAα(6)r),包括颗粒神经元的独特标志物ZIC2。分化的胚胎干细胞在体外形成了经典的“T形”颗粒细胞轴突,将分化的Pde1c-Egfp-BAC转基因胚胎干细胞植入新生小鼠的外颗粒细胞层,导致平行纤维延伸、穿过分子层迁移、并入内颗粒细胞层,并延伸出短树突,这是年轻颗粒细胞与传入苔藓纤维形成突触连接的典型特征。这些结果强调了用调节体内中枢神经系统神经元发育的局部诱导信号处理胚胎干细胞作为特定神经元群体细胞替代疗法策略的实用性。