Yablonka-Reuveni Z, Christ B, Benson J M
Department of Biological Structure, School of Medicine, University of Washington, Seattle 98195, USA.
Anat Embryol (Berl). 1998 Jun;197(6):421-37. doi: 10.1007/s004290050154.
Whereas the understanding of the mechanisms underlying skeletal and cardiac muscle development has been increased dramatically in recent years, the understanding of smooth muscle development is still in its infancy. This paper summarizes studies on the ontogeny of chicken smooth muscle cells in the wall of the aorta and aortic arch-derived arteries. Employing immunocytochemistry with antibodies against smooth muscle contractile and extracellular matrix proteins we trace smooth muscle cell patterning from early development throughout adulthood. Comparing late stage embryos to young and adult chickens we demonstrate, for all the stages analyzed, that the cells in the media of aortic arch-derived arteries and of the thoracic aorta are organized in alternating lamellae. The lamellar cells, but not the interlamellar cells, express smooth muscle specific contractile proteins and are surrounded by basement membrane proteins. This smooth muscle cell organization of lamellar and interlamellar cells is fully acquired by embryonic day 11 (ED 11). We further show that, during earlier stages of embryogenesis (ED3 through ED7), cells expressing smooth muscle proteins appear only in the peri-endothelial region of the aortic and aortic arch wall and are organized as a narrow band of cells that does not demonstrate the lamellar-interlamellar pattern. On ED9, infrequent cells organized in lamellar-interlamellar organization can be detected and their frequency increases by ED10. In addition to changes in cell organization, we show that there is a characteristic sequence of contractile and extracellular matrix protein expression during development of the aortic wall. At ED3 the peri-endothelial band of differentiated smooth muscle cells is already positive for smooth muscle alpha actin (alphaSM-actin) and fibronectin. By the next embryonic day the peri-endothelial cell layer is also positive for smooth muscle myosin light chain kinase (SM-MLCK). Subsequently, by ED5 this peri-endothelial band of differentiated smooth muscle cells is positive for alphaSM-actin, SM-MLCK, SM-calponin, fibronectin, and collagen type IV. However, laminin and desmin (characteristic basement membrane and contractile proteins of smooth muscle) are first seen only at the onset of the lamellar-interlamellar cell organization (ED9 to ED10). We conclude that the development of chicken aortic smooth muscle involves transitions in cell organization and in expression of smooth muscle proteins until the adult-like phenotype is achieved by mid-embryogenesis. This detailed analysis of the ontogeny of chick aortic smooth muscle should provide a sound basis for future studies on the regulatory mechanisms underlying vascular smooth muscle development.
近年来,虽然人们对骨骼和心肌发育的潜在机制的理解有了显著提高,但对平滑肌发育的理解仍处于起步阶段。本文总结了关于鸡主动脉壁和主动脉弓衍生动脉中平滑肌细胞个体发生的研究。我们利用针对平滑肌收缩蛋白和细胞外基质蛋白的抗体进行免疫细胞化学,追踪平滑肌细胞从早期发育到成年期的模式形成。通过比较晚期胚胎与幼年和成年鸡,我们发现在所有分析阶段,主动脉弓衍生动脉和胸主动脉中膜的细胞呈交替的板层状排列。板层细胞而非板层间细胞表达平滑肌特异性收缩蛋白,并被基底膜蛋白包围。这种平滑肌细胞的板层状和板层间细胞组织在胚胎第11天(ED 11)时完全形成。我们进一步表明,在胚胎发生的早期阶段(ED3至ED7),表达平滑肌蛋白的细胞仅出现在主动脉和主动脉弓壁的内皮周区域,并组织成一条不呈现板层 - 板层间模式的狭窄细胞带。在ED9时,可以检测到偶尔出现的呈板层 - 板层间组织排列的细胞,到ED10时其频率增加。除了细胞组织的变化,我们还表明在主动脉壁发育过程中,收缩蛋白和细胞外基质蛋白的表达存在特征性序列。在ED3时,分化的平滑肌细胞的内皮周带已经对平滑肌α肌动蛋白(αSM - 肌动蛋白)和纤连蛋白呈阳性。到下一个胚胎日,内皮周细胞层对平滑肌肌球蛋白轻链激酶(SM - MLCK)也呈阳性。随后,到ED5时,这条分化的平滑肌细胞内皮周带对αSM - 肌动蛋白、SM - MLCK、平滑肌钙调蛋白、纤连蛋白和IV型胶原呈阳性。然而,层粘连蛋白和结蛋白(平滑肌的特征性基底膜和收缩蛋白)仅在板层 - 板层间细胞组织开始时(ED9至ED10)首次出现。我们得出结论,鸡主动脉平滑肌的发育涉及细胞组织和平滑肌蛋白表达的转变,直到胚胎中期达到类似成年的表型。对鸡主动脉平滑肌个体发生的这一详细分析应为未来关于血管平滑肌发育潜在调控机制的研究提供坚实基础。