Department of Anatomy and Cell Biology, University of Kansas Medical Center, Kansas City, KS 66160, USA.
Dev Biol. 2012 Mar 15;363(2):348-61. doi: 10.1016/j.ydbio.2011.12.036. Epub 2012 Jan 4.
Endocardial cells play a critical role in cardiac development and function, forming the innermost layer of the early (tubular) heart, separated from the myocardium by extracellular matrix (ECM). However, knowledge is limited regarding the interactions of cardiac progenitors and surrounding ECM during dramatic tissue rearrangements and concomitant cellular repositioning events that underlie endocardial morphogenesis. By analyzing the movements of immunolabeled ECM components (fibronectin, fibrillin-2) and TIE1 positive endocardial progenitors in time-lapse recordings of quail embryonic development, we demonstrate that the transformation of the primary heart field within the anterior lateral plate mesoderm (LPM) into a tubular heart involves the precise co-movement of primordial endocardial cells with the surrounding ECM. Thus, the ECM of the tubular heart contains filaments that were associated with the anterior LPM at earlier developmental stages. Moreover, endocardial cells exhibit surprisingly little directed active motility, that is, sustained directed movements relative to the surrounding ECM microenvironment. These findings point to the importance of large-scale tissue movements that convect cells to the appropriate positions during cardiac organogenesis.
心内膜细胞在心脏发育和功能中起着关键作用,形成早期(管状)心脏的最内层,与心肌通过细胞外基质 (ECM) 隔开。然而,在心脏形态发生过程中,在剧烈的组织重排和伴随的细胞重新定位事件中,心脏祖细胞和周围 ECM 的相互作用的知识是有限的。通过分析免疫标记 ECM 成分(纤连蛋白、原纤维蛋白-2)和 TIE1 阳性心内膜祖细胞在鹌鹑胚胎发育的延时记录中的运动,我们证明了前侧板中胚层 (LPM) 内原始心脏区域向管状心脏的转化涉及原始心内膜细胞与周围 ECM 的精确共运动。因此,管状心脏的 ECM 包含与早期发育阶段前 LPM 相关的纤维。此外,心内膜细胞表现出惊人的小的定向主动运动,即相对于周围 ECM 微环境的持续定向运动。这些发现表明在心脏器官发生过程中,大规模组织运动将细胞输送到适当位置的重要性。
