Lacomme Marine, Medevielle François, Bourbon Henri-Marc, Thierion Elodie, Kleinjan Dirk-Jan, Roussat Mélanie, Pituello Fabienne, Bel-Vialar Sophie
Centre de Biologie du Développement (CBD), Centre de Biologie Intégrative (CBI), Université de Toulouse, CNRS, UPS, France; Cellular Neurobiology Research Unit, Institut de recherches cliniques de Montréal (IRCM), Montreal, Québec, Canada.
Centre de Biologie du Développement (CBD), Centre de Biologie Intégrative (CBI), Université de Toulouse, CNRS, UPS, France.
Dev Biol. 2018 Apr 15;436(2):94-107. doi: 10.1016/j.ydbio.2018.02.015. Epub 2018 Feb 25.
Proper embryonic development relies on a tight control of spatial and temporal gene expression profiles in a highly regulated manner. One good example is the ON/OFF switching of the transcription factor PAX6 that governs important steps of neurogenesis. In the neural tube PAX6 expression is initiated in neural progenitors through the positive action of retinoic acid signaling and downregulated in neuronal precursors by the bHLH transcription factor NEUROG2. How these two regulatory inputs are integrated at the molecular level to properly fine tune temporal PAX6 expression is not known. In this study we identified and characterized a 940-bp long distal cis-regulatory module (CRM), located far away from the PAX6 transcription unit and which conveys positive input from RA signaling pathway and indirect repressive signal(s) from NEUROG2. These opposing regulatory signals are integrated through HOMZ, a 94 bp core region within E940 which is evolutionarily conserved in distant organisms such as the zebrafish. We show that within HOMZ, NEUROG2 and RA exert their opposite temporal activities through a short 60 bp region containing a functional RA-responsive element (RARE). We propose a model in which retinoic acid receptors (RARs) and NEUROG2 repressive target(s) compete on the same DNA motif to fine tune temporal PAX6 expression during the course of spinal neurogenesis.
正常的胚胎发育依赖于以高度调控的方式对空间和时间基因表达谱进行严格控制。一个很好的例子是转录因子PAX6的开启/关闭切换,它控制着神经发生的重要步骤。在神经管中,PAX6的表达通过视黄酸信号的正向作用在神经祖细胞中起始,并在神经元前体中被bHLH转录因子NEUROG2下调。目前尚不清楚这两种调控输入如何在分子水平上整合以精确调节PAX6的时间表达。在本研究中,我们鉴定并表征了一个940bp长的远端顺式调控模块(CRM),它位于远离PAX6转录单元的位置,传递来自视黄酸信号通路的正向输入和来自NEUROG2的间接抑制信号。这些相反的调控信号通过HOMZ整合,HOMZ是E940内一个94bp的核心区域,在斑马鱼等远缘生物中具有进化保守性。我们表明,在HOMZ内,NEUROG2和视黄酸通过一个包含功能性视黄酸反应元件(RARE)的60bp短区域发挥其相反的时间活性。我们提出了一个模型,其中视黄酸受体(RARs)和NEUROG2的抑制靶点在相同的DNA基序上竞争,以在脊髓神经发生过程中精确调节PAX6的时间表达。
