Bussen Markus, Petry Marianne, Schuster-Gossler Karin, Leitges Michael, Gossler Achim, Kispert Andreas
Institut für Molekularbiologie, Medizinische Hochschule Hannover, 30625 Hannover, Germany.
Genes Dev. 2004 May 15;18(10):1209-21. doi: 10.1101/gad.300104.
The compartmentalization of somites along their anterior-posterior (AP) axis is pivotal to the segmental organization of the vertebrate axial skeleton and the peripheral nervous system. Anterior and posterior somite halves contribute to different vertebral elements. They are also characterized by different proliferation rates and properties with respect to neural crest cell migration and spinal nerve passage. AP-somite polarity is generated in the anterior presomitic mesoderm by Mesp2 and Delta/Notch signaling. Here, we demonstrate that maintenance of AP-somite polarity is mediated by the T-box transcription factor Tbx18. Mice deficient for Tbx18 show expansion of pedicles with transverse processes and proximal ribs, elements derived from the posterior lateral sclerotome. AP-somite polarity is established in Tbx18 mutant embryos but is not maintained. During somite maturation, posterior somite compartments expand most likely because of posterior cells invading the anterior somite half. In the anterior lateral sclerotome, Tbx18 acts as an antiapoptotic factor. Ectopic expression experiments suggest that Tbx18 can promote anterior at the expense of posterior somite compartments. In summary, Tbx18 appears to act downstream of Mesp2 and Delta/Notch signaling to maintain the separation of anterior and posterior somite compartments.
体节沿其前后轴的分区对于脊椎动物轴向骨骼和周围神经系统的节段性组织至关重要。体节的前半部分和后半部分分别形成不同的椎骨成分。它们在神经嵴细胞迁移和脊神经通过方面也具有不同的增殖速率和特性。前后体节极性由Mesp2和Delta/Notch信号在前体节中胚层产生。在此,我们证明前后体节极性的维持由T盒转录因子Tbx18介导。Tbx18基因缺陷的小鼠表现出椎弓根与横突和近端肋骨的扩展,这些结构源自后外侧生骨节。前后体节极性在Tbx18突变胚胎中得以建立,但无法维持。在体节成熟过程中,后体节部分最有可能由于后体细胞侵入前体节的一半而扩展。在前外侧生骨节中,Tbx18作为一种抗凋亡因子发挥作用。异位表达实验表明,Tbx18可以以前体节部分为代价促进后体节部分的发育。总之,Tbx18似乎在Mesp2和Delta/Notch信号下游发挥作用,以维持前后体节部分的分离。