Nkx-2.5 gene induction in mice is mediated by a Smad consensus regulatory region

In the forming vertebrate heart, bone morphogenetic protein signaling induces expression of the early cardiac regulatory gene nkx-2.5. A similar regulatory interaction has been defined in Drosophila embryos where Dpp signaling mediated by the Smad homologues Mad and Medea directly regulates early cardiac expression of tinman. A conserved cluster of Smad consensus binding sequences was identified in early cardiac regulatory sequences of the mouse nkx-2.5 gene. The importance of the nkx-2.5 Smad consensus region in early cardiac gene expression was examined in transgenic mice and in cultured mouse embryos. In transgenic mice, deletion of the Smad consensus region delays induction of embryonic DeltaSmadnkx-2.5/lacZ gene expression during early heart formation. Induction of DeltaSmadnkx-2.5/lacZ expression is also delayed in the outflow tract myocardium and visceral mesoderm. Targeted mutation of the three Smad consensus sequences inhibited nkx-2.5/lacZ expression in the cardiac crescent, demonstrating a specific requirement for the Smad consensus sites in early cardiac gene induction. Cultured DeltaSmadnkx-2.5/lacZ transgenic mouse embryos also exhibit delayed induction of transgene expression. In the four-chambered heart, deletion of the Smad consensus region resulted in expanded DeltaSmadnkx-2.5/lacZ transgene expression. Thus, the nkx-2.5 Smad consensus region can have positive or negative regulatory function, depending on the developmental context and cellular environment.     

hhlim促进DMSO诱导的P19细胞向心肌分化

为了确定hhlim是否参与胚胎期的心肌分化和发育过程,用可表达hhlim蛋白和hhlim反义RNA的真核表达质粒转染P19胚胎干细胞,经G418筛选得到稳定表达hhlim和hhlim反义RNA的P19细胞克隆后,观察hhlim对P19细胞向心肌分化和发育的影响.结果显示,Nkx2.5和GATA-4在未被外源性hhlim基因转染的P19细胞中不表达.DMSO刺激细胞2天后,GATA-4开始表达,3天后Nkx2.5的表达活性显著升高.hhlim的过表达不但有利于P19细胞的存活和生长,而且还可以使Nkx2.5和GATA-4的表达比对照细胞提前1天.反义hhlim细胞株被DMSO诱导5天后,细胞仍呈集落化生长.同时,Nkx2.5和GATA-4开始表达的时间明显延滞.结果表明,hhlim能促进P19细胞向心肌细胞分化,其作用是通过促进转录因子GATA-4和Nkx2.5的表达而实现的.     

Expression of sumoylation deficient Nkx2.5 mutant in Nkx2.5 haploinsufficient mice leads to congenital heart defects

Nkx2.5 is a cardiac specific homeobox gene critical for normal heart development. We previously identified Nkx2.5 as a target of sumoylation, a posttranslational modification implicated in a variety of cellular activities. Sumoylation enhanced Nkx2.5 activity via covalent attachment to the lysine residue 51, the primary SUMO acceptor site. However, how sumoylation regulates the activity of Nkx2.5 in vivo remains unknown. We generated transgenic mice overexpressing sumoylation deficient mutant K51R (conversion of lysine 51 to arginine) specifically in mouse hearts under the control of cardiac α-myosin heavy chain (α-MHC) promoter (K51R-Tg). Expression of the Nkx2.5 mutant transgene in the wild type murine hearts did not result in any overt cardiac phenotype. However, in the presence of Nkx2.5 haploinsufficiency, cardiomyocyte-specific expression of the Nkx2.5 K51R mutant led to congenital heart diseases (CHDs), accompanied with decreased cardiomyocyte proliferation. Also, a number of human CHDs-associated Nkx2.5 mutants exhibited aberrant sumoylation. Our work demonstrates that altered sumoylation status may underlie the development of human CHDs associated with Nkx2.5 mutants.     

Up-regulation of natriuretic peptides in the ventricle of Csx/Nkx2-5 transgenic mice

A cardiac homeobox-containing gene Csx/Nkx2-5, which is essential for cardiac development, is abundantly expressed in the adult heart as well as in the heart primordia. Targeted disruption of this gene results in embryonic lethality due to abnormal heart morphogenesis. To elucidate the role of Csx/Nkx2-5 in the adult heart, we generated transgenic mice which overexpress human Csx/Nkx2-5. The transgene was expressed abundantly in the heart and the skeletal muscle. mRNA levels of several cardiac genes including natriuretic peptides, CARP, MLC2v, and endogenous Csx/Nkx2-5 were increased in the ventricle of the transgenic mice. Electron microscopic analysis revealed that the ventricular myocardium of the transgenic mice had many secretory granules, which disappeared after administration of vasopressin. These results suggest that Csx/Nkx2-5 regulates many cardiac genes and induces formation of secretory granules in the adult ventricle.