Zembrzycki Andreas, Perez-Garcia Carlos G, Wang Chia-Fang, Chou Shen-Ju, O'Leary Dennis D M
Molecular Neurobiology Laboratory, The Salk Institute for Biological Studies, La Jolla, CA 92037; and.
Institute of Cellular and Organismic Biology, Academia Sinica, Taipei, 115, Taiwan.
Proc Natl Acad Sci U S A. 2015 May 26;112(21):6736-41. doi: 10.1073/pnas.1424440112. Epub 2015 May 13.
Current knowledge suggests that cortical sensory area identity is controlled by transcription factors (TFs) that specify area features in progenitor cells and subsequently their progeny in a one-step process. However, how neurons acquire and maintain these features is unclear. We have used conditional inactivation restricted to postmitotic cortical neurons in mice to investigate the role of the TF LIM homeobox 2 (Lhx2) in this process and report that in conditional mutant cortices area patterning is normal in progenitors but strongly affected in cortical plate (CP) neurons. We show that Lhx2 controls neocortical area patterning by regulating downstream genetic and epigenetic regulators that drive the acquisition of molecular properties in CP neurons. Our results question a strict hierarchy in which progenitors dominate area identity, suggesting a novel and more comprehensive two-step model of area patterning: In progenitors, patterning TFs prespecify sensory area blueprints. Sequentially, sustained function of alignment TFs, including Lhx2, is essential to maintain and to translate the blueprints into functional sensory area properties in cortical neurons postmitotically. Our results reemphasize critical roles for Lhx2 that acts as one of the terminal selector genes in controlling principal properties of neurons.
目前的知识表明,皮质感觉区的特性由转录因子(TFs)控制,这些转录因子在祖细胞中指定区域特征,并随后在一步过程中指定其后代的区域特征。然而,神经元如何获得并维持这些特征尚不清楚。我们利用条件性失活技术,该技术仅限于小鼠有丝分裂后的皮质神经元,以研究转录因子LIM同源框2(Lhx2)在此过程中的作用,并报告在条件性突变皮质中,祖细胞的区域模式正常,但皮质板(CP)神经元受到强烈影响。我们表明,Lhx2通过调节下游基因和表观遗传调节因子来控制新皮质区域模式,这些调节因子驱动CP神经元中分子特性的获得。我们的结果对祖细胞主导区域特性的严格层级关系提出了质疑,这表明了一种新颖且更全面的区域模式两步模型:在祖细胞中,模式转录因子预先指定感觉区蓝图。随后,包括Lhx2在内的排列转录因子的持续功能对于在有丝分裂后维持蓝图并将其转化为皮质神经元中的功能性感觉区特性至关重要。我们的结果再次强调了Lhx2作为控制神经元主要特性的终端选择基因之一的关键作用。