Johnson Aaron N, Burnett Lindsey A, Sellin Julia, Paululat Achim, Newfeld Stuart J
School of Life Sciences, Arizona State University, Tempe, Arizona 85287-4501, USA.
Genetics. 2007 Jul;176(3):1609-24. doi: 10.1534/genetics.107.073569. Epub 2007 May 16.
During germ-band extension, Decapentaplegic (Dpp) signals from the dorsal ectoderm to maintain Tinman (Tin) expression in the underlying mesoderm. This signal specifies the cardiac field, and homologous genes (BMP2/4 and Nkx2.5) perform this function in mammals. We showed previously that a second Dpp signal from the dorsal ectoderm restricts the number of pericardial cells expressing the transcription factor Zfh1. Here we report that, via Zfh1, the second Dpp signal restricts the number of Odd-skipped-expressing and the number of Tin-expressing pericardial cells. Dpp also represses Tin expression independently of Zfh1, implicating a feed-forward mechanism in the regulation of Tin pericardial cell number. In the adjacent dorsal muscles, Dpp has the opposite effect. Dpp maintains Krüppel and Even-skipped expression required for muscle development. Our data show that Dpp refines the cardiac field by limiting the number of pericardial cells. This maintains the boundary between pericardial and dorsal muscle cells and defines the size of the heart. In the absence of the second Dpp signal, pericardial cells overgrow and this significantly reduces larval cardiac output. Our study suggests the existence of a second round of BMP signaling in mammalian heart development and that perhaps defects in this signal play a role in congenital heart defects.
在胚带延伸过程中,来自背侧外胚层的Decapentaplegic(Dpp)信号维持其下方中胚层中Tinman(Tin)的表达。该信号确定心脏区域,同源基因(BMP2/4和Nkx2.5)在哺乳动物中执行此功能。我们先前表明,来自背侧外胚层的第二个Dpp信号限制了表达转录因子Zfh1的心包细胞数量。在此我们报告,通过Zfh1,第二个Dpp信号限制了表达Odd-skipped的心包细胞数量以及表达Tin的心包细胞数量。Dpp还独立于Zfh1抑制Tin的表达,这暗示了一种前馈机制参与Tin心包细胞数量的调节。在相邻的背侧肌肉中,Dpp具有相反的作用。Dpp维持肌肉发育所需的Krüppel和Even-skipped的表达。我们的数据表明,Dpp通过限制心包细胞数量来细化心脏区域。这维持了心包细胞和背侧肌肉细胞之间的边界并确定了心脏的大小。在没有第二个Dpp信号的情况下,心包细胞过度生长,这显著降低了幼虫的心输出量。我们的研究表明在哺乳动物心脏发育中存在第二轮BMP信号传导,并且该信号的缺陷可能在先天性心脏缺陷中起作用。